Stigma Health Dictionary

Eclipta prostrata

Asteraceae

San: Bhrngarajah, Tekarajah;

Hin: Bhamgra, Mocakand, Babri;

Ben: Kesutthe, Kesraj;

Mal: Kannunni, Kayyonni, Kayyunnni;

Tam: Kayyantakara, Kaikeri;

Kan: Kadiggagaraga;

Tel: Guntagalijeran; Arab: Kadim-el-bint

Importance: Eclipta is one of the ten auspicious herbs that constitute the group dasapuspam which is considered to destroy the causative factors of all unhealthy and unpleasant features and bestow good health and prosperity. The members of this group cure wounds and ulcers as well as fever caused by the derangement of the tridosas - vata, pitta and kapha. It is used in hepatitis, spleen enlargements, chronic skin diseases, tetanus and elephantiasis. The leaf promotes hair growth and use as an antidote in scorpion sting. The root is used as an emetic, in scalding of urine, conjuctivitis and as an antiseptic to ulcers and wound in cattle. It is used to prevent abortion and miscarriage and also in cases of uterine pains after the delivery. The juice of the plant with honey is given to infants for expulsion of worms. For the relief in piles, fumigation with Eclipta is considered beneficial. A decoction of the leaves is used in uterine haemorrhage. The paste prepared by mincing fresh plants has got an antiinflammatory effect and may be applied on insect bites, stings, swellings and other skin diseases. In Ayurveda, it is mainly used in hair oil, while in Unani system, the juice is used in “Hab Miskeen Nawaz” along with aconite, triphala, Croton tiglium, Piper nigium, Piper longum, Zingiber officinale and minerals like mercury, sulphur, arsenic, borax, etc. for various types of pains in the body. It is also a constituent of “Roghan Amla Khas” for applying on the hair and of “Majun Murrawah-ul-arwah”.

Distribution: This plant is widely distributed in the warm humid tropics with plenty of rainfall. It grows commonly in moist places as a weed all over plains of India.

Botany: Eclipta prostrata (Linn) Linn. syn. E. alba Hassk. is an annual, erect or postrate herb, often rooting at nodes. Leaves are sessile, 2.5-7.5cm long with white appressed hairs. Floral heads are 6-8 mm in diameter, solitary and white. Fruit is an achene, compressed and narrowly winged. Sometimes, Wedelia calendulacea, which resembles Eclipta prostrata is used for the same purpose.

Properties and activity: The leaves contain stigmasterol, -terthienylmethanol, wedelolactone, dismethylwedelolactone and dismethylwedelolactone-7-glucoside. The roots give hentriacontanol and heptacosanol. The roots contain polyacetylene substituted thiophenes. The aerial part is reported to contain a phytosterol, -amyrin in the n-hexane extract and luteolin-7-glucoside, -glucoside of phytosterol, a glucoside of a triterpenic acid and wedelolactone in polar solvent extract. The polypeptides isolated from the plant yield cystine, glutamic acid, phenyl alanine, tyrosine and methionine on hydrolysis. Nicotine and nicotinic acid are reported to occur in this plant.

The plant is anticatarrhal, febrifuge, antidontalgic, absorbent, antihepatic, CVS active, nematicidal, ovicidal and spasmolytic in activity. The alcoholic extract of entire plant has been reported to have antiviral activity against Ranikhet disease virus. Aqueous extract of the plant showed subjective improvement of vision in the case of refractive errors. The herbal drug Trefoli, containing extracts of the plant in combination with others, when administered to the patients of viral hepatitis, produced excellent results.... eclipta

Jacq.

Synonym: Ambroma augusta Linn. f.

Family: Sterculiaceae.

Habitat: Throughout the hotter and moister parts of India, from Punjab and Uttar Pradesh, eastwards to Arunachal Pradesh, Assam, Meghalaya and Tripura, ascending to 1,200 m, southwards in Peninsular India.

English: Perennial Indian Hemp, Devil's Cotton.

Ayurvedic: Pishaacha Kaarpaasa, Pivari.

Unani: Ulat-kambal.

Siddha/Tamil: Sivapputtuti.

Folk: Kumal, Sanukapaasi.

Action: Rootbark—emmena- gogue (used for dysmenorrhoea, amenorrhoea), abortifacient, galac- totrophic.

The root contains abromine (betaine), friedelin, abromasterol, abro- masterol A, choline, beta-sitosterol, stigmasterol and octacosanol. Leaves, reported to be useful in treating uterine disorders, contain taraxerol, its acetate and lupeol.

Dosage: Leaf juice—10-20 ml. Rootbarkpowder—3-6 g. (CCRAS.)... abroma augusta

Linn.

Adansonia digitata Linn.

Family: Bombacaceae.

Habitat: Native to tropical Africa; common along the west coast of India.

English: Baobab, Monkey Bread tree, African calabash.

Ayurvedic: Sheet-phala, Ravanaam- likaa, Gorakshi, Panchparni.

Unani: Gorakh Imli.

Siddha/Tamil: Papparapuli.

Folk: Gorakh Imli; Gorakh Chinchaa.

Action: Cooling, refrigerant (allays burning sensation). Leaves— diaphoretic (used as a prophylactic against fevers). Fruit—antidysen- teric, antiseptic, antihistaminic.

The fruit pulp is a source of vitamin C (175.0-445.4 mg/100 g); dried pulp contains calcium and vitamin B1. Furfural (9.6%) is obtained after distillation of the fruit. In Africa, dried leaves provide much of the dietary calcium. Aqueous extract of the bark is used for treating sickle cell anaemia.

An infusion of the leaves and flowers is given in respiratory disorders. (Powdered leaves prevented crisis in asthma induced by histamine in guinea pigs.) Dried fruit pulp also gives relief in bronchial asthma, allergic dermatitis and urticaria.

Family: Leguminosae; Mimosaceae.

Habitat: The western Ghats, the Andamans and sub-Himalayan tract; also cultivated.

English: Coral Wood, Red Wood.

Ayurvedic: Rakta Kanchana, Rakta Kambala.

Siddha/Tamil: Anai-gundumani.

Folk: Ghumchi (bigger var.).

Action: Astringent and styptic (used in diarrhoea, haemorrhage from the stomach, haematuria), anti-inflammatory (in rheumatic affections, gout). Seeds— anticephalgic; also used for the treatment of paralysis. A decoction is given in pulmonary affections.

The seed contains an anti-inflammatory active principle, O-acetyletha- nolamine. The leaves contain octa- cosanol, dulcitol, glucosides of beta- sitosterol and stigmasterol. The bark contains sitgmasterol glucoside.... adenanthera pavonina

(Linn.) R. Br. ex DC.

Synonym: A. triandra Lam. A. denticulata R. Br. A. repens Gmel. Non-Link.

Family: Amaranthaceae.

Habitat: Throughout the hotter parts of India, especially around tanks and ponds.

Ayurvedic: Matsyaakshi, Matsyaak- shika (a multimeaning name, also indicating Braahmi, Ain- dri), Matsyagandhaa, Matsyaa- dini, Minaakshi, Bahli, Gandali, Gartkalambukaa, Vaahlikaa.

Unani: Machhechhi.

Siddha/Tamil: Ponnonkanni keerai.

Folk: Gudari Saag.

Action: Febrifuge, galactagogue, cholagogue.

Along with other therapeutic applications, The Ayurvedic Pharmacopoeia of India indicates the use of dried whole plant in diseases due to vitiated blood and obstinate skin diseases.

Young shoots contain protein 5% and iron 16.7 mg/100 g. Leaves also contain a good amount of alpha- and beta-tocopherols.

The plant gave stigmasterol, beta- sitosterol, a saturated aliphatic hydrocarbon and aliphatic ester.

Dosage: Whole plant—2-6 g powder. (API Vol. II.)... alternanthera sessilis

Curcuma spp.

Zingiberaceae

The genus Curcuma belonging to the family Zingiberaceae comprises of a number of species which are medicinally very important. Among them, the most important species are described below.

1. C. amada Roxb.

English: Mango ginger San: Amrardrakam, Karpuraharida Hin: Ama -haldi

Mal: Mangainchi

Tam: Mankayinci

Tel: Mamidi Allam

Mango ginger is cultivated in Gujarat and found wild in parts of West Bengal, U. P, Karnataka and Tamil Nadu. It is a rhizomatous aromatic herb with a leafy tuft and 60-90cm in height. Leaves are long, petiolate, oblong-lanceolate, tapering at both ends, glabrous and green on both sides. Flowers are white or pale yellow, arranged in spikes in the centre of tuft of the leaves. Lip is semi -elliptic, yellow, 3-lobbed with the mid lobe emarginate. The rhizomes are useful in vitiated conditions of pitta, anorexia, dyspepsia, flatulence, colic, bruises, wounds, chronic ulcers, skin diseases, pruritus, fever, constipations, strangury, hiccough, cough, bronchitis, sprains, gout, halitosis, otalgia and inflammations (Warrier et al, 1994). The fresh root possesses the smell of green mango and hence the name mango ginger. The rhizomes are used externally in the form of paste as an application for bruises and skin diseases generally combined with other medicines. Tubers rubbed with the leaf- juice of Caesalpinia bonduc is given for worms (Nadkarni, 1982).

The essential oil contains -pinene, -and -curcumene, camphor, cuminyl alcohol, myristic acid and turmerone. Car-3-ene and cis-ocimene contribute the characteristic mango odour of the rhizome. Rhizome is CNS active, hypothermic and it shows potentiation of amphetamine toxicity. Tuber is trypsin inhibitor and is effective against Vibrio cholerae (Husain et al, 1992). The rhizomes are bitter, sweet sour, aromatic, cooling, appetiser, carminative, digestive, stomachic, demulcent, vulnerary, febrifuge, alexertic, aphrodisiac, laxative, diurectic, expectorant, antiinflammatory and antipyretic (Warrier et al, 1994).

2. C. aromatica Salisb.

Eng: Wild turmeric; San: Aranyaharidra, Vanaharidra;

Hin: Ban-haridra, Jangli-haldi;

Ben: Ban Haland; Mal,

Tam: Kasturimanjal, Kattumanjal;

Tel: Adavi-pasupu;

Kan: Kadarasina

Wild turmeric or Cochin turmeric or Yellow zeodoary is found wild throughout India and cultivated in Bengal and Kerala. It is a perennial tuberous herb with annulate, aromatic yellow rhizome which is internally orange-red in colour. Leaves are elliptic or lanceolate- oblong, caudate-acuminate, 30-60cm long, petioles as long or even longer, bracts ovate, recurved, more or less tinged with red or pink. Flowers are pink, lip yellow, obovate, deflexed, sub-entire or obscurely three lobed. Fruits are dehiscent, globose, 3-valved capsules. Rhizomes are used in combination with astringents and aromatics for bruises, sprains, hiccough, bronchitis, cough, leucoderma and skin eruptions (Warrier et al, 1994). The rhizomes have an agreeable fragrant smell and yield a yellow colouring matter like turmeric, and the fresh root has a camphoraceous odour. The dried rhizome is used as a carminative and aromatic adjunctant to other medicines (Nadkarni, 1998).

Essential oil contains -and - -curcumene, d-camphene and p-methoxy cinnamic acid. The colouring matter is curcumin. Numerous sesquiterpenoids of germacrone and guaiane skeletons have been identified recently. Rhizome has effect on respiration. It is spasmolytic and shows antagonism of amphetamine hyperactivity. Rhizome is an anti-dote for snakebite and carminative (Husain et al, 1992).

3. C. longa Linn. syn. C. domestica Valeton.

Eng: Turmeric; San: Haridra, Varavarnini;

Hin: Haldi, halda;

Ben: Haldi;

Mal: Manjal, Pachamanjal, Varattumanjal;

Tam: Mancal;

Kan: Haldi, Arasina;

Tel: Pasapu

Turmeric is cultivated all over India, particularly in W. Bengal, T. N and Maharashtra. It is a perennial herb, 60-90cm in height, with a short stem and tufts of erect leaves. Rhizome is cylindric, ovoid, orange coloured and branched. Leaves are simple, very large, petiole as long as the blade, oblong-lanceolate, tapering to the base upto 45cm long. Flowers are pale yellow, arranged in spikes concealed by the sheathing petioles and flowering bracts are pale green (Warrier et al, 1994). Turmeric occupies an important position in the life of Indian people as it forms an integral part of the rituals, ceremonies and cuisine. Due to the strong antiseptic properties, turmeric has been used as a remedy for all kinds of poisonous affections, ulcers and wounds. It gives good complexion to the skin and so it is applied to face as a depilatory and facial tonic. The drug cures diseases due to morbid vata, pitta and kapha, diabetes, eye diseases, ulcers, oedema, anaemia, anorexia, leprosy and scrofula. It purifies blood by destroying the pathogenic organisms. A paste of turmeric alone, or combined with a paste of neem (Azadirachta indica) leaves, is used to cure ringworm, obstinate itching, eczema and other parasitic skin diseases and in chicken pox and small pox. The drug is also useful in cold, cough, bronchitis, conjunctivitis and liver affections (Nadkarni, 1954; Kurup et al,1979; Kolammal, 1979). The rhizome is the officinal part and is an important ingredient of formulations like Nalpamaradi taila, Jatyadi taila, Narayana gula, etc. (Sivarajan et al, 1994).

Turmeric paste mixed with a little limejuice and saltpetre and applied hot is a popular application to sprains and bruises. In smallpox and chickenpox, a coating of turmeric is applied to facilitate the process of scabbing. The smoke produced by sprinkling powdered turmeric over burnt charcoal will relieve scorpion sting when the part affected is exposed to the smoke for a few minutes. Turmeric and alum powder in the proportion of 1:20 is blown into the ear in chronic otorrhoea (Nadkarni, 1998). “Haridra Khand”, a compound containing powdered turmeric, sugar and many other ingredients is a well-known preparation for cold, cough and flu, and for skin diseases. In Unani system, roasted turmeric is an ingredient of “Hab Narkachur”, used as antidysenteric for children (Thakur et al, 1989).

Essential oil contains ar-turmerone, and ar-curcumene as ma jor constituents. Some of the other compounds are -and -pinene, sabinene, myrcene, -terpinene, limonene, p- cymene, perillyl alcohol, turmerone, eugenol, iso-eugenol, eugenol methyl ether and iso- eugenol methyl ether. Curcumin and related compounds have also been reported as major constituents of the rhizomes. Recently a number of sesquiterpenes have been reported from C. longa, viz., the sesquiterpenoids of germacrane, bisabolane and guainane skeletons (Husain et al, 1992). The study of sesquiterpenes has revealed a new compound curlone (Kisoy et al, 1983). The crystalline colouring matter curcumin (0. 6%) is diferuloyl methane (Mathews et al, 1980). Stigmasterol, cholestrol, -sitosterol and fatty acids, mainly straight chain dienoic acids are reported (Moon et al, 1977). Curcumin, the colouring agent and major constituent of C. longa, is said to possess local as well as systemic antiinflammatory property which has been found to compare favourably with phenylbutazone (Srimal and Dhawan, 1973). An extract of the crude drug ‘akon’ containing the rhizomes exhibited intensive preventive activity against carbon tetrachloride induced liver injury invivo and invitro. The liver protecting effects of some analogs of ferulic acid and p-coumaric acid, probable metabolites of the curcuminoids have been also evaluated (Kiso et al, 1983). Curcumin is antiinflammatory. Rhizome is antiprotozoal, spasmolytic, CNS active, antiparasitic, antispasmodic, antibacterial, antiarthritic, anthelmintic, carminative, antiperiodic, emo llient, anodyne, laxative, diruretic, expectorant, alterative, alexertive, febrifuge, opthalmic and tonic.

4. C. zedoaria (Berg.) Rosc. syn. C. zerumbet Roxb; Amomum zedoaria

Christm.vEng: Round zedoary; San: Kachura, Shati;

Hin: Kakhur;

Ben: Sati;

Kan: Kachora

Mal: Manjakoova, Adavi-kacholam;

Tam: Kichilikizhangu, Nirvisham;

Tel: Kacheramu

The round zedoary or Zerumbet is mostly found in India and S. E. Asia. The plant has 4-6 leaves with 20-60cm long lamina. The leaf lami na is oblong-lanceolate, finely acuminate and glabrous on both the surfaces. Flower stalk is 20-25cm long, emerging before the leaves. Flowers are yellow, while the flowering bract is green tinged with red. Calyx is 8mm long, corolla tube is twice as long as the calyx. Capsule is ovoid, trigonous, thin smooth and bursting irregularly. Tubers are palmately branched and camphoraceous (Thakur et al, 1989). The identity of the plant sources of the drug Karcura is a matter of debate. There is difference of opinion among men of Ayurveda, as to whether Sati and Karcura are the same drug or different. Many authors consider them different and equate Sati with Hedychium spicatum Smith. and Karcura with C. zedoaria, both belonging to Zingiberaceae (Kurup et al,1979; Chunekar 1982; Sharma, 1983). Some others treat them to be the same and equate it with C. zedoaria (Kirtikar and Basu, 1918; Vaidya, 1936; Nadkarni, 1954; Kapoor and Mitra, 1979). However, the source of Karcura in Kerala in the recent times has been Kaempferia galanga of the same family. The rhizome of C. zedoaria is used as appetiser and tonic, particularly prescribed to ladies after childbirth. In case of cold, a decoction of long pepper (Piper longum), cinnamon (Cinnamomum verum), zedoary and honey is given. In Ayurveda it is an ingredient of “Braticityadi kwatha”, used in high fever (Thakur et al, 1989). Root is useful in flatulence and dyspepsia, and as a corrector of purgatives. Fresh root checks leucorrhoeal and gonorrhoeal discharges. Root powder is a good substitute for many foreign foods for infants. For worms, the juice from the tubers is given to children. Juice of the leaves is given in dropsy (Nadkarni, 1982). It is an odoriferous ingredient of the cosmetics used for the cure of chronic skin diseases caused by impure or deranged blood (Nadkarni, 1998).

Essential oil from rhizomes contains -pinene, d-camphene, cineole, d-camphor, sesquiterpenes and sesquiterpene alcohols (Husain et al, 1992). The novel sesquiterpenoids which have been isolated and characterised are cuzerenone, epi-cuzerenone, iso- furanogermerene, curcumadiol, curcumol, curcumenol, iso-curcumenol, procurcumenol, dehydrocurdione (Hikino et al, 1968, 1971, 1972), germacrone-4, 5-epoxide, germacrone, germacrone furanodienone, curcumenol, iso-curcumenol, curcumanolides A and B and curcumenone (Shiobara et al, 1985). The starch left after the extraction is purified and sold as a commodity of cottage industry in West-Bengal under the name ‘Shoti’ (Rao et al, 1928). Ethyl-p methoxy-cinnamate has been isolated from the alcoholic extract of the plant (Gupta et al, 1976). Rhizome is stomachic, diuretic, and carminative and gastrointestinal stimulant.

Other important species of Curcuma genus are

C. angustifolia Roxb. (Vellakoova)

C. caesia Roxb. (Black ginger)

C. leucorhiza Roxb.

C. pseudomontana Grah.

C. rubescens Roxb.

Agrotechnology: Curcuma species are tropical herbs and can be grown on different types of soils both under irrigated and rainfed conditions. Rich loamy soils having good drainage are ideal for the crop. The plant is propagated by whole or split mother rhizomes. Well developed, healthy and disease free rhizomes are to be selected. Rhizomes are to be treated with copper oxychloride fungicides and stored in cool, dry place or earthen pits plastered with mud and cowdung. The best season of planting is during April with the receipt of pre-monsoon showers. The land is to be prepared to a fine tilth during February-March. On receipt of pre- monsoon showers in April, beds of size 3x1.2m with a spacing of 40cm between beds are to be prepared. Small pits are to be taken in the beds in rows with a spacing of 25-40cm.

Finger rhizomes are to be planted flat with buds facing upwards and covered with soil or dry powdered cattle ma nure. The crop is to be mulched immediately after planting and 50 days after first mulching. Cattle manure or compost is to be applied as basal dose at 20-40t/ha at the time of land preparation or by spreading over the beds after planting. Application of NPK fertilizers is beneficial and found to increase the yield considerably. Weeding is to be done twice at 60 and 120 days after planting, depending upon weed intensity. Earthing up is to be done after 60 days. No major incidence of pest or disease is noticed in this crop. Leaf blotch and leaf spot can be controlled by spraying Bordeaux mixture or 0.2% Mancozeb. Shoot borers can be controlled by spraying 0.05% Dimethoate or 0.025% Quinalphos. Time of harvest usually extends from January-March. Harvesting is generally done at about 7-10 months after planting depending upon the species and variety. Harvested rhizomes are to be cleaned of mud and other materials adhering to them. Good fingers separated are to be used for curing (KAU, 1996).... curcuma

Holostemma ada-kodien

Asclepiadaceae

San: Jivanti;

Hin: Chirvel, Charivel;

Mal: Atapathiyan, Atapotiyan, Atakotiyan;

Tam: Palaikkirai;

Tel: Palagurugu; Mar: Dudurli, Shidodi;

Guj: Kharner, Khiravel

Importance: Holostemma is a twining shrub with large flowers. The roots of Holostemma are useful in ophthalmopathy, orchitis, cough, burning sensation, stomachalgia, constipation, fever and tridoshas. The leaves, flowers and fruits are eaten as vegetable. The root is also used in spermatorrhoea. It is used in preparations of Vidaryadiganam, Dhanwandharam thaila, Manasamithravatakam, Balarishta and Anuthaila. It is also useful in eye diseases and it imparts resistance to diseases.

Distribution: The plant occurs in tropical countries. In India, it is found in Himalayas, Dehradun, Konkan, Bombay, Deccan, Karnataka, Kerala and Tamilnadu. It grows over hedges and in open forests especially on the lower slopes of the hills. It is also distributed in Sri Lanka, Burma and W. China.

Botany: Holostemma ada-kodien Schult. syn. Holostemma annulare (Roxb.) K. Schum.

Holostemma rheedii Wall. belongs to the family Asclepiadaceae. It is a laticiferous twining shrub with large conspicuous flowers. Leaves are simple, opposite and cordate. Flowers are purple, arranged in axillary umbellate cymes. Fruits are thick follicles, 9 cm long, cylindrical and bluntly pointed. The roots are long upto 1 m or more, irregularly twisted, thick and cylindrical. When dry it is yellowish brown to brown black in colour with nearly smooth surface bearing white scars and small depressions. A mature root is about 1-2 cm thick when extracted for use (Warrier et al, 1995).

Agrotechnology: Holostemma prefers a tropical climate. The plant is propagated vegetatively by stem cuttings, but mainly by seeds. The seeds are collected from the plant in November-December before being dispersed. Seeds are cleaned, dried and stored for sowing. The stored seeds after soaking in water for 4-5 hours are sown in the seedbeds. About one month old seedlings are then planted in polybags of size 14x10cm which are filled with soil, sand and dried cowdung in 1:1:1 ratio, respectively. Polybags should be kept in shade and irrigated. About 1-1.5 month old seedlings are ready for transplanting. Pits of 30cm cube size are taken at 1-1.2m distance and filled with 10kg dried cowdung and sand. This is covered with surface soil and formed into a mound. Seedlings are transplanted on to the mounds from the polybags carefully. Regular irrigation is to be given till flowering. To aid in trailing, staking is given one month after planting. Flowering and fruiting occurs in November-December. Harvesting can be done at the end of second year when the vines start drying up. Harvesting is done by digging up the tubers. The tubers are cut into pieces of 10cm length and dried in sun before sale (Prasad et al, 1997).

Properties and activity: Holostemma tubers give -amyrin, lupeol and -sitosterol. Alanine, aspartic acid, glycine, serine, threonine and valine were detected chromatographically (Hussain et al, 1992). The root is antidiabetic, antigonorrhoeic, bechic, alterative, tonic, lactative, ophthalmic, emollient, stimulant, aphrodisiac, expectorant and galactagogue.

BLACH MUSALE Curculigo orchioides Amaryllidaceae

San: Musali;

Hin: Kalimusali, Mushali;

Ben: Talamuli;

Mal: Nilappana;

Guj: Musalikand

Tam: Nilapanai;

Tel: Nelatadi Kelangu;

Kan: Neladali

Importance: Musali is a small, geophilous herb, the tuberous rootstock of which is used as a rejuvenating and aphrodisiac drug. It cures morbid vata and pitta, improves complexion and is useful in general debility, deafness, cough, asthma, piles, skin diseases, impotence, jaundice, urinary disorders, leucorrhoea and menorrhagia (Nadkarni, 1954; Aiyer and Kolammal, 1963; Mooss, 1978). Rootstock is the officinal part and it enters into the Ayurvedic formulations like Vidaryadighrta, Vidaryadi lehya, Marmagulika, Musalyadi churna etc. The Pharmacognosy of C. orchioides has been discussed by Aiyer, Kolamma l (1963), Raghunathan, and Mitra (1982). A bibliographical study on C. orchioides has been done by Pandey et al (1983).

Distribution: The plant is found in all districts of India from near sea level to 2300m altitude, especially in rock crevices and laterite soil. It has been recorded to occur in the sub tropical Himalayas from Kumaon eastwards ascending to 1800m, the Khasia hills, Bengal, Asssam, Konkan, Kanara, the western peninsula and Madras extending south as far as a Cape Comerin. It is also distributed in Sri Lanka, Japan, Malaysia and Australia.

Botany: Curculigo orchioides Gaertn. syn. C. malabarica Wight, C. brevifolia Dryand, Hypoxis dulcis Stand belongs to the family Amaryllidaceae. Musali is a small herbaceous plant with cylindrical rootstock. Leaves are simple, sessile, crowded on the short stem with sheathing leaf bases. Flowers are bright yellow. Seeds are black, deeply grooved in wavy lines.

A detailed description of the plant is as follows (Victoria, 1998). Rootstock is straight, cylindrical, tuberous, 5-22cm long, 0.5-0.8 cm thick, brownish surfaces marked with closely spaced prominent transverse wrinkles in the upper or basal half. It bears a few stout lateral roots of 5 or more cm long. Lateral roots are dull white in colour and spongy externally. The fresh cut surfaces of the rootstock has a starch white colour and mucilaginous. A few fibrous roots also occur. Leaves are sessile or short petiolate with sheathing bases, 15-45x1.2-2.5 cm size, linear or linear lanceolate, membranous, glabrouus or sparsely sofly hairy and plicate in bud. The leaf tips when contacts the soil, develops roots and produce adventitious buds. Inflorescence is axillary, scapose racemose, the scape very short and hidden among the bases of leaves underground, clavte, flattened with the pedicels, bracts and the ovary concealed in the leaf sheaths. The lower big flowers on the scape are mostly bisexual and the upper small ones staminate. Flowers are epigynous bright yellow, bisexual or unisxual with lanceolate, memb ranous bract.. Perianth gamophyllous, rotate & six lobed, locate at the top of a slender sterile long extension of the ovary by means of which the perianth is exposed above the ground. Perianth lobes similar, elliptic oblong 1.2-1.6 cm long, 0.2-0.3 cm broad, outer lobes hairy on the back, inner ones sparsely hairy along nerves. Stamens 6 in number, filamentous filiform, short 2mm long, adnate to the base of the perianth lobes, Anthers linear or linear lanceolate, basifixed and sagittate,.Ovary inferior, hidden among the leaves usually below the ground, tricarpellary syncarpous, lanceolate and trilocular with a fairly long slender beak or extension -the stipe. Ovules many in each cell attached by a distinct long funicle. Style short columnar, 2mm with a 3 lobed stigma. Lobes elongate, erect and appressed. Fruit is a capsule about 1.5-2cm long, 8mm broad, oblong, glabrescent with a slender beak and spongy septa. Seeds 1-many, oblong, black, shiny with crustaceous testa grooved deeply in wavy lines.

Properties and activity: Rao and Beri (1951) have identified glucose, mannose, xylose and glucuronic acid from the rootstock of C. orchioides. The rootstock is also reported to contain glycoside, polysaccharides (hemicellulose and other polysaccharides), starch, resin, tannin, mucilage, fat and calcium oxalate. The hexane extract contains an alkaloid-lycorine, sterols including -sitosterols and sapogenin identified as yuccagenin (Rao et al, 1978). The flavone glycoside from the rootstock has been identified as 5,7- dimethoxy glucopyranoside (Yadav et al, 1974; Sharma et al 1975). Mehta et al (1980) have isolated a number of fatty acids from C. orchioides root oil by GLC techniques. They are palmitic, oleic, linolenic linoleic, arachidic and behenic acid. Kubo et al (1983) isolated a new phenolic glycoside namely, curculigoside from the rhizomes and its structure has been elucidated as 5- hydroxy-2-0- -d-glucopyranosyl benzl 1,2,6-dimethoxy benzoate. Yamasaki et al (1994) developed HPLC method for estimating the curculigoside content in curculigo rhizome.

Two new aliphatic hydroxy ketone 27-hydroxy tricontan-6-one (M. P. 84-85o C) and 23- hydroxy tricontan-2-one (M. P. 109-110 o C) were isolated from the rhizome by Misra et al (1984). They also isolated 21-hydroxy tetracontan-20-one and 4-methyl heptade canoic acid from the root stock. Porwal et al (1988) have isolated and identified three new compounds from the rhizome as N- acetyl-N-hydroxy-2-carbamic acid methyl ester, 3-acetyl-5-carbomethoxy-2H-3,4,5,6-tetrahydro-1,2,3,5,6-oxatetrazine and N, N, N’, N’-tetra methyl succinamide. The rhizomes of C. orchioides yielded a new phenolic glycoside corchioside a, characterised as orcinol-3- -D-xylopyranosyl- (1 6)- -D-glucopyranoside and hentriacontanol (Garg et al, 1989).

A new aliphatic compound has been isolated from the rhizomes and characterised as 25- dihydroxy-33-methyl pentatricontan-one (Mehta et al, 1990). Misra et al (1990) isolated a new natural triterpene alcohol-Curculigol charactrised as 24-methy cycloart-7-en-3-beta-20-diol. A novel pentacyclic triterpene has been isolated from the rhizomes of C.orchioides and characterised as 31- methyl-3-oxo-20-ursen-28-oic acid (Metha and Gawarikar,1991). Xu and Xu (1992) and Xu et al (1992 a, b) have isolated 13 cycloartane type. Triterpene glycosides from C. orchioides rhizome and characterised them as curculigo saponin A-M.

The root stock are mucilaginous, sweet, cooling, bitter, emollient, diuretic, aphrodisiac, depurative, alternative, appetiser, carminative, viriligenic, antipyretic and tonic (Sivarajan and Indira, 1994; Warrier et al, 1994).

The uterine stimulant activity of the flavone glycoside extracted from C. orchioides has been studied by Dhawan and Saxena (1958), Sharma et al (1975) and Dhar et al (1979).

The plant extract of C. orchioides showed hypoglycaemic, spasmolytic and anticancer properties (Dhar et al,1968). Phagocytic activity (Kubo et al, 1983) and immunoadjuvant activity (Oru et al, 1982) of phenolic glycosides, curculigoside isolated from the rhizome of the plant have been reported. Porwal and Mehta (1985) discussed the medicinal importance of the plant and its use in indigenous system of medicine as a tonic. Sharma et al (1991) reported the influence of MAK an ayurvedic food supplement constituting C. orchioides against Dimethyl benz anthracene induced mammary tumours in rats. Samanta (1992) reported the modulation of male infertility by Ayurvedic drug, which constitutes C. orchioides. Immunostimulant activity of C. orchioides has been demonstrated by Saxena (1992). Immunological activites of curculigo saponin G were assayed in mice and the results showed that it promoted proliferation of spleen lymphocyctes very significantly and increased the weight of the thymus in vivo in mice (Xu et al,1992).

Pharmacological studies in China, on the alcoholic extract obtained from the plant showed several active effects such as adaptogenic, anti-inflammatory, anticonvulsant, sedative, androgenic and immunopromoting activities (Xu et al, 1992).

Curculigo orchioides is distributed widely throughout the country. The demand of the raw materials and derivatives of the plant for the indigenous drug industries are satisfied mainly from the wild source, depleting the natural population and thus the species have become extinct or endangered. Ansari (1993) have reported C. orchioides as a threatened plant from Madhulia forest of Garakhpur. Augustin and Souza (1995) also considered the plant as an endangered species. As the information on the cultivation of C.orchioides is scanty, it is very necessary to develop suitable agrotechniques for the domestication and large-scale cultivation of the plant.... holostemma

Commiphora mukul

Burseraceae

San: Gugulu, Mahisaksah, Koushikaha, Devadhupa

Hin: Gugal Mal:Gulgulu Tam,

Tel: Gukkulu

Kan: Guggul

Ben: Guggul

Importance: Indian bdellium is a small, armed, deciduous tree from the bark of which gets an aromatic gum resin, the ‘Guggul’ of commerce. It is a versatile indigenous drug claimed by ayurvedists to be highly effective in the treatment of rheumatism, obesity, neurological and urinary disorders, tonsillitis, arthritis and a few other diseases. The fumes from burning guggul are recommended in hay- fever, chronic bronchitis and phytises.

The price of guggulu gum has increased ten fold in ten years or so, indicating the increase in its use as well as decrease in natural plant stand. It has been listed as a threatened plant by Botanical Survey of India (Dalal, 1995) and is included in the Red Data Book (IUCN) and over exploited species in the country (Billare,1989).

Distribution: The center of origin of Commiphora spp. is believed to be Africa and Asia. It is a widely adapted plant well distributed in arid regions of Africa (Somalia, Kenya and Ethiopia in north east and Madagascar, Zimbabwe, Botswana, Zaire in south west Africa), Arabian peninsula (Yemen, Saudi Arabia and Oman). Different species of Commiphora are distributed in Rajasthan, Gujarat, Maharashtra and Karnataka states of India and Sind and Baluchistan provinces of Pakistan (Tajuddin et al, 1994). In India, the main commercial source of gum guggul is Rajasthan and Gujarat.

Botany: The genus Commiphora of family Burseraceae comprises about 185 species. Most of them occur in Africa, Saudi Arabia and adjoining countries. In India only four species have been reported. They are C. mukul(Hook. ex Stocks) Engl. syn. Balsamodendron mukul (Hook. ex Stocks), C. wightii (Arnott) Bhandari, C.stocksiana Engl., C. berryi and C.agallocha Engl.

In early studies about the flora of India, the ‘guggul’ plant was known as Commiphora mukul(Hook. ex Stocks) Engl. or Balsamodendron mukul (Hook. ex Stocks). It was renamed as C. roxburghii by Santapau in 1962. According to Bhandari the correct Latin name of the species is C. wightii(Arnott) Bhandari, since the specific name ‘wightii’ was published in 1839, prior to ‘roxburghi’ in 1848 (Dalal and Patel, 1995).

C. mukul is a small tree upto 3-4m height with spinescent branching. Stem is brownish or pale yellow with ash colored bark peeling off in flakes. Young parts are glandular and pubescent. Leaves are alternate, 1-3 foliate, obovate, leathery and serrate (sometimes only towards the apex). Lateral leaflets when present only less than half the size of the terminal ones. Flowers small, brownish red, with short pedicel seen in fascicles of 2-3. Calyx campanulate, glandular, hairy and 4-5 lobed. Corolla with brownish red, broadly linear petals reflexed at apex. Stamens 8-10, alternatively long and short. Ovary oblong, ovoid and stigma bifid. Fruit is a drupe and red when ripe, ovate in shape with 2-3 celled stones. The chromosome number 2n= 26 (Warrier et al, 1994; Tajuddin et al, 1994).

Agrotechnology: Guggal being a plant of arid zone thrives well in arid- subtropical to tropical climate.

The rainfall may average between 100mm and 500mm while air temperature may vary between 40 C in summer and 3 C during winter. Maximum relative humidity prevails during rainy season (83% in the morning and 48% in the evening).Wind velocity remains between 20-25 km/hour during the year is good. Though they prefer hard gypseous soil, they are found over sandy to silt loam soils, poor in organic matter but rich in several other minerals in arid tracks of western India (Tajuddin et al, 1994).

Plants are propagated both by vegetatively and seeds. Plants are best raised from stem cuttings from the semi woody (old) branch. For this purpose one metre long woody stem of 10mm thickness is selected and the cut end is treated with IBA or NAA and planted in a well manured nursery bed during June-July months; the beds should be given light irrigation periodically. The cuttings initiate sprouting in 10-15 days and grow into good green sprout in 10-12 months. These rooted plants are suitable for planting in the fields during the next rainy season. The cuttings give 80-94% sprouting usually. Air layering has also been successfully attempted and protocol for meristem culture is available in literature. Seed germination is very poor (5%) but seedling produce healthier plants which withstand high velocity winds.

The rooted cuttings are planted in a well laid-out fields during rainy season. Pits of size 0.5m cube are dug out at 3-4 m spacing in rows and given FYM and filler soil of the pit is treated with BHC (10%) or aldrin (5%) to protect the new plants from white ants damage. Fertilizer trials have shown little response except due to low level of N fertilization. Removal of side branches and low level of irrigation supports a good growth of these plants. The plantation does not require much weeding and hoeing. But the soil around the bushes be pulverised twice in a year to increase their growth and given urea or ammonium sulphate at 25- 50g per bush at a time and irrigated. Dalal et al (1989) reported that cercospora leaf spot was noticed on all the cultures. Bacterial leaf blight was also noticed to attack the cultures. A leaf eating caterpillar (Euproctis lanata Walker) attack guggal, though not seriously. White fly (Bemisia tabaci) is observed to suck sap of leaves and such leaves become yellowish and eventually drop. These can be effectively controlled by using suitable insecticide.

Stem or branch having maximum diameter of about 5cm at place of incision, irrespective of age is tapped. The necrotic patch on the bark is peeled off with a sharp knife and Bordeaux paste is applied to the exposed (peeled off) surface of the stem or branch. A prick chisel of about 3cm width is used to make bark- deep incisions and while incising the bark, the chisel is held at an acute angle so that scooped suspension present on the body of the chisel flows towards the blade of the chisel and a small quantity of suspension flows inside the incised bark. If tapping is successful, gum exudation ensures after about 15-20 days from the date of incision and continues for nearly 30-45 days. The exuded gum slides down the stem or branch, and eventually drops on the ground and gets soiled. A piece of polythene sheet can be pouched around the place of incision to collect gum. Alternatively, a polythene sheet can be spread on the ground to collect exuded gum. A maximum of about 500g of gum has been obtained from a plant (Dalal, 1995).

Post harvest technology: The best grade of guggul is collected from thick branches of tree. These lumps of guggul are translucent. Second grade guggul is usually mixed with bark, sand and is dull coloured guggul. Third grade guggul is usually collected from the ground which is mixed with sand, stones and other foreign matter. The final grading is done after getting cleansed material. Inferior grades are improved by sprinkling castor oil over the heaps of the guggul which impart it a shining appearance (Tajuddin et al, 1994).

Properties and activity: The gum resin contains guggul sterons Z and E, guggul sterols I-V, two diterpenoids- a terpene hydrocarbon named cembreneA and a diterpene alcohol- mukulol, -camphrone and cembrene, long chain aliphatic tetrols- octadecan-1,2,3,4-tetrol, eicosan-1,2,3,4-tetrol and nonadecan-1,2,3,4-tetrol. Major components from essential oil of gum resin are myrcene and dimyrcene. Plant without leaves, flowers and fruits contains myricyl alcohol, -sitosterol and fifteen aminoacids. Flowers contain quercetin and its glycosides as major flavonoid components, other constituents being ellagic acid and pelargonidin glucoside (Patil et al, 1972; Purushothaman and Chandrasekharan, 1976).

The gum resin is bitter, acrid, astringent, thermogenic, aromatic, expectorant, digestive, anthelmintic, antiinflammatory, anodyne, antiseptic, demulcent, carminative, emmenagogue, haematinic, diuretic, lithontriptic, rejuvenating and general tonic. Guggulipid is hypocholesteremic (Husain et al, 1992; Warrier et al, 1994).... indian bdellium

Dioscorea spp.

Dioscoreaceae

The growing need for steroidal drugs and the high cost of obtaining them from animal sources led to a widespread search for plant sources of steroidal sapogenins, which ultimately led to the most promising one. It is the largest genus of the family constituted by 600 species of predominantly twining herbs. Among the twining species, some species twine clockwise while others anti-clockwise (Miege, 1958). All the species are dioceous and rhizomatous. According to Coursey (1967), this genus is named in honour of the Greek physician Pedenios Dioscorides, the author of the classical Materia Medica Libri Quinque. Some of the species like D. alata and D. esculenta have been under cultivation for a long time for their edible tubers. There are about 15 species of this genus containing diosgenin. Some of them are the following (Chopra et al, 1980).

D. floribunda Mart. & Gal.

D. composita Hemsl; syn. D. macrostachya Benth.

D. deltoidea Wall. ex Griseb; syn. D. nepalensis Sweet ex Bernardi.

D. aculeata Linn. syn. D. esculenta

D. alata Linn. syn. D. atropurpurea Roxb.

D. Globosa Roxb; D. purpurea Roxb; D. rubella Roxb.

D. bulbifera Linn. syn. D. crispata Roxb.

D. pulchella Roxb.; D. sativa Thunb. Non Linn.

D. versicolor Buch. Ham. Ex Wall.

D. daemona Roxb. syn. D. hispida Dennst.

D. oppositifolia Linn.

D. pentaphylla Linn. syn. D. jacquemontii Hook. f.

D. triphylla Linn.

D. prazeri Prain & Burkil syn. D. clarkei Prain & Burkill

D. deltoidea Wall. var. sikkimensis Prain

D. sikkimensis Prain & Burkill

Among the above said species, D. floribunda, D. composita and D. deltoidea are widely grown for diosgenin production.

1. D. floribunda Mart. & Gal D. floribunda Mart. & Gal. is an introduction from central America and had wide adaptation as it is successfully grown in Karnataka, Assam, Meghalaya, Andaman and Goa. The vines are glabrous and left twining. The alternate leaves are borne on slender stems and have broadly ovate or triangular ovate, shallowly cordate, coriaceous lamina with 9 nerves. The petioles are 5-7cm long, thick and firm. Variegation in leaves occurs in varying degrees. The male flowers are solitary and rarely in pairs. Female flowers have divericate stigma which is bifid at apex. The capsule is obovate and seed is winged all round. The tubers are thick with yellow coloured flesh, branched and growing upto a depth of 30cm (Chadha et al, 1995).

2. D. composita Hemsl.

D. composita Hemsl. according to Knuth (1965) has the valid botanical name as D. macrostachya Benth. However, D. composita is widely used in published literature. It is a Central American introduction into Goa, Jammu, Bangalore, Anaimalai Hills of Tami Nadu and Darjeeling in W. Bengal. The vines are right twinning and nearly glabrous. The alternate leaves have long petioles, membraneous or coriaceous lamina measuring upto 20x18cm, abruptly acute or cuspidate-acuminate, shallowly or deeply cordate, 7-9 nerved. The fasciculate-glomerate inflorescence is single or branched with 2 or 3 sessile male flowers having fertile stamens. Male fascicle is 15-30cm long. The female flowers have bifid stigma. Tubers are large, white and deep-rooted (upto 45cm) (Chadha et al, 1995).

3. D. deltoidea Wall. ex. Griseb.

D. deltoidea Wall. ex. Griseb. is distributed throughout the Himalayas at altitudes of 1000-3000m extending over the states of Jammu-Kashmir, H. P, U. P, Sikkim and further into parts of W. Bengal. The glabrous and left twining stem bears alternate petiolate leaves. The petioles are 5-12 cm long. The lamina is 5-15cm long and 4-12cm wide widely cordate. The flowers are borne on axillary spikes, male spikes 8-40cm long and stamens 6. Female spikes are 15cm long, 3. 5cm broad and 4-6 seeded. Seeds are winged all round. Rhizomes are lodged in soil, superficial, horizontal, tuberous, digitate and chestnut brown in colour (Chadha et al, 1995). D. deltoidea tuber grows parallel to ground covered by small scale leaves and is described as rhizome. The tubers are morphologically cauline in structure with a ring of vascular bundles in young tubers which appear scattered in mature tubers (Purnima and Srivastava, 1988). Visible buds are present unlike in D. floribunda and D. composita where the buds are confined to the crown position (Selvaraj et al, 1972).

Importance of Diosgenin: Diosgenin is the most important sapogenin used as a starting material for synthesis of a number of steroidal drugs. For commercial purposes, its -isomer, yamogenin is also taken as diosgenin while analysing the sample for processing. Various steroidal drugs derived from diosgenin by artificial synthesis include corticosteroids, sex hormones, anabolic steroids and oral contraceptives. Corticosteroids are the most important group of steroidal drugs synthesized from diosgenin. First group of corticosteroids regulates carbohydrate and protein metabolism. The second group consists of aldosterone, which controls balance of potassium, sodium and water in the human body. The glucocorticoids in the form of cortisone and hydrocortisone are used orally, intramuscularly or topically for treatment of rheumatoid arthritis, rheumatic fever, other collegen diseases, ulcerative colitis, certain cases of asthma and a number of allergic diseases affecting skin, eye and the ear. These are also used for treatment of gout and a variety of inflammations of skin, eye and ear and as replacement therapy in Addison’s diseases. The minerato corticoides, desoxycorticosterone or desoxycortone are used in restoring kidney functions in cases of cortical deficiency and Addison’s disease.

Both male and female sex hormones are also synthesized from disosgenin. The main male sex hormone (androgen) which is produced from disogenin is testosterone. The main female sex hormones produced are oestrogen and progesterone. Recently oestrogen has also been used in cosmetic lotions and creams to improve the tone and colour of skin. One of the main uses of progesterone during recent years has been as antifertility agent for oral contraceptives. These artificial steroids have increased oral activity and fewer side effects, as they can be used in reduced doses. Oral contraceptives are also used for animals like pigs, cows and sheep to control fertility and to give birth at a prescribed period in a group of animals at the same time. These compounds are also used to reduce the interval between the lactation periods to have more milk and meat production. Anti-fertility compounds are also used as a pest-control measure for decreasing the multiplication of pests like rodents, pigeons and sea gulls (Husain et al, 1979).

Although yam tubers contain a variety of chemical substances including carbohydrates, proteins, alkaloids and tannins, the most important constituents of these yams are a group of saponins which yield sapogenins on hydrolysis. The most imp ortant sapogenin found in Dioscorea are diosgenin, yamogenin and pannogenin. Diosgenin is a steroid drug precursor. The diogenin content varies from 2-7% depending on the age of the tubers. Saponins including 5 spirastanol glucoside and 2 furostanol glucoside, 4 new steroid saponins, floribunda saponins C, D, E and F. Strain of A and B are obtained from D. floribunda (Husain et al, 1979). Rhizomes of D. deltoidea are a rich source of diosgenin and its glycoside. Epismilagenin and smilagenone have been isolated from D. deltoidea and D. prazeri (Chakravarti et al, 1960; 1962). An alkaloid dioscorine has been known to occur in D. hispida (Bhide et al,1978). Saponin of D. prazeri produced a fall of blood pressure when given intravenously and saponin of D. deltoidea has no effect on blood pressure (Chakravarti et al,1963). Deltonin, a steroidal glycoside, isolated from rhizomes of D. deltoidea showed contraceptive activity (Biokova et al, 1990).

Agrotechnology: Dioscorea species prefer a tropical climate without extremity in temperature. It is adapted to moderate to heavy rainfall area. Dioscorea plants can be grown in a variety of soils, but light soil is good, as harvesting of tubers is easier in such soils. The ideal soil pH is 5.5-6.5 but tolerates fairly wide variation in soil pH. Dioscorea can be propagated by tuber pieces, single node stem cuttings or seed. Commercial planting is normally established by tuber pieces only. Propagation through seed progeny is variable and it may take longer time to obtain tuber yields. IIHR, Bangalore has released two improved varieties, FB(c) -1, a vigorously growing strain relatively free from diseases and Arka Upkar, a high yielding clone. Three types of tuber pieces can be distinguished for propagation purpose, viz. (1) crown (2) median and (3) tip, of which crowns produce new shoots within 30 days and are therefore preferred. Dipping of tuber pieces for 5 minutes in 0.3% solution of Benlate followed by dusting the cut ends with 0.3% Benlate in talcum powder in mo ist sand beds effectively checks the tuber rot. The treatment is very essential for obtaining uniform stand of the crop. The best time of planting is the end of April so that new sprouts will grow vigorously during the rainy season commencing in June in India. Land is to be prepared thoroughly until a fine tilth is obtained. Deep furrows are made at 60cm distance with the help of a plough. The stored tuber pieces which are ready for planting is to be planted in furrows with 30cm between the plants for one year crop and 45cm between the plants for 2 year crop at about 0.5 cm below soil level. The new sprouts are to be staked immediately. After sprouting is complete, the plants are to be earthed up. Soil from the ridges may be used for earthing up so that the original furrows will become ridges and vice versa. Dioscorea requires high organic matter for good tuber formation. Besides a basal doze of 18-20t of FYM/ha, a complete fertilizer dose of 300kg N, 150kg P2O5 and K2O each are to be applied per hectare. P and K are to be applied in two equal doses one after the establishment of the crop during May-June and the other during vigorous growth period of the crop (August- September). Irrigation may be given at weekly intervals in the initial stage and afterwards at about 10 days interval. Dioscorea vines need support for their optimum growth and hence the vines are to be trailed over pandal system or trellis. Periodic hand weeding is essential for the first few months. Intercropping with legumes has been found to smother weeds and provide extra income. The major pests of Dioscorea are the aphids and red spider mites. Aphids occur more commonly on young seedlings and vines. Young leaves and vine tips eventually die if aphids are not controlled. Red spider mites attack the underside of the leaves at the base near the petiole. Severe infestations result in necrotic areas, which are often attacked by fungi. Both aphids and spider mites can be very easily controlled by Kelthane. No serious disease is reported to infect this crop. The tubers grow to about 25-30 cm depth and hence harvesting is to be done by manual labour. The best season for harvesting is Feb-March, coinciding with the dry period. On an average 50-60t/ha of fresh tubers can be obtained in 2 years duration. Diosgenin content tends to increase with age, 2.5% in first year and 3-3.5% in the second year. Hence, 2 year crop is economical (Kumar et al, 1997).... medicinal yams

Also Threadworm, this is a widespread parasitic nematode, usually benign, but having a rural, white trash, skanky stigma. It mates and reproduces in the intestines of several mammals (including us) and the female exits the anus, usually at night, to shed its eggs and expire. The eggs become like dust motes, kids and puppies scratch their butts, the eggs spread into other mammals, until only a thermonuclear device or burning/razing/earth-salting will clear out a heavy infestation. It’s also the only worm likely to be encountered in temperate zones and the high country.... pinworms

DC.

Family: Compositae; Asteraceae.

Habitat: Rajasthan, Madhya Pradesh and Peninsular India.

Ayurvedic: Brahmadandi.

Action: Antiseptic (used in leucoderma), nervine tonic (used in seminal debility), urinary tract disinfectant. Root—bechic.

The plant contains betulin, spinas- terol, stigmasterol, stigma-7-enol and a triterpenoid—cycloart-23-en-3beta, 25-diol.... tricholepis glaberrima

(Roxb.) Blume ex Decne.

Family: Araceae.

Habitat: Native to tropical Asia; cultivated throughout India.

English: Elephant-foot Yam.

Ayurvedic: Suurana, Kanduula, Arshoghna, Kand-ayak, Kandala.

Unani: Zamin-qand, Zamikand.

Siddha/Tamil: Chenaikkizhangu. Kaathukarunai (wild var.)

Action: Corm is prescribed in bronchitis, asthma, abdominal pain, emesis, dysentery, enlargement of spleen, piles, elephantiasis, diseases due to vitiated blood, rheumatic swellings.

Along with other therapeutic applications, The Ayurvedic Pharmacopoeia of India indicates the use of corm in prostatic hyperplasia.

(The corm is irritant due to the presence of calcium oxalate. It can be con- sumedafterit iswashedwell andboiled in tamarind water or butter milk.)

The corm contains an active di- astatic enzyme amylase, betulinic acid, tricontane, lupeol, stigmasterol, beta- sitosterol and its palmitate and glucose, galactose, rhamnose and xylose.

Intake of 3.6-7.2 g of konjac (Amor- phophallus konjac tuber) mannan for 90 days reduced the dose of insulin or hypoglycaemic drugs (in human clinical study). (Francis Brinker.)

Amorphophallus sylvatius Kunth. is equated with the wild var. of Suu- rana, used especially in the treatment of piles.

Dosage: Dried corm—2-10 g powder. (API Vol. III.) 3-5 g powder. (CCRAS.)... amorphophallus campanulatus

Roxb.

Family: Asparagaceae.

Habitat: The western Himalayas and Punjab, from Himachal Pradesh to Kumaon, up to 1,500 m.

Ayurvedic: Mushali, (white var.), Mahaashataavari. The black variety is equated with Taalamuuli, Chlorophytum arundinaceum Baker.

Unani: Shaqaaqul-e-Hindi.

Action: A substitute for A. officinalis.

The root yields asparagin. Sapoge- nins A and B, isolated from the root, were identified as stigmasterol and sarsasapogenin.

Action: Diuretic, laxative, car- diotonic, sedative, galactagogue; used for neuritis and rheumatism, as well as for cystitis and pyelitis.

Key application: In irrigation therapy for inflammatory diseases of the urinary tract and for prevention of kidney stones. (German Commission E.). It is contraindicated in kidney diseases and oedema because of functional heart.

The root contains steroidal glyco- sides (asparagosides) and bitter glyco- sides; asparagusic acid and its derivatives; asparagines, arginine and ty- rosine; flavonoids, including rutin, kaempferol and quercetrin; polysac- carides and inulin. Asparagine is a strong diuretic source of folic acid and selenium.

A spirostanol glycoside, isolated from the methanolic extract of the fruits, has shown 100% immobilization of human spermatozoa.

Dosage: Root—3-5 g powder. (CCRAS.)... asparagus adscendens

Nees.

Synonym: Hygrophila spinosa T. Anders

Family: Acanthaceae.

Habitat: Common in moist places, paddy fields, throughout India and Sri Lanka.

Ayurvedic: Kokilaaksha, Kokilaak- shi, Ikshura, Ikshuraka, Kaakekshu, Kshurak, Bhikshu.

Unani: Taalmakhaanaa. (Wrongly equated with Euryaleferox Salisb. (Fox Nut) in National Formulary of Unani Medicine, Part I, first edn., 1981.)

Siddha/Tamil: Neermulli, Nerugobbi.

Action: Diuretic, used for catarrh of the urinary organs, also for dropsy when accompanied by hepatic obstruction.

The Ayurvedic Pharmacopoeia ofIn- dia recommends the seed in lithiasis; the whole plant and root for gout.

Aqueous extract of herb ash—diuretic in albino rats. EtOH (50%)— spasmolytic and hypotensive. The herb exhibits antihepatotoxic activity in dogs. Essential oil from whole plant—antibacterial.

The plant gave lupeol, stigmasterol and hydrocarbons; seed gave sterols; flowers, apigenin glucuronide.

Aqueous extract decreased fasting glucose and improved glucose tolerance in rats. (Sharon M. Herr.)

Dosage: Whole plant—3-6 g, powder; dried seed—3-6 g powder; dried root—3-6 g for decoction. (API Vol. II.) Herb ash—1-3 g (CCRAS.)... asteracantha longifolia

n. treating individuals differently on the basis of morally insignificant characteristics, such as race, sex, or religion. In medicine, any discrimination of this kind (e.g. when deciding on treatments or allocating resources) offends against the ethical principle of *justice. Legally, discrimination can be direct (i.e. overtly differentiating between people and groups) or indirect (i.e. behaviour that will disproportionately affect particular people or some groups more than others). See also equality; stigma.... discrimination

Bauhinia variegata

Caesalpiniaceae

San: Kancanarah, Kovidarah;

Hin: Kancanar;

Ben: Rakta Kanchan;

Tam: Sigappu-mandarai

Mal: Mandaram, Chuvannamandaram, Malayakatti, Kongu, Kongumandaram;

Tel: Daeva Kanchanamu, Mandara;

Kan: Ullipe, Kanchavala, Kempu Mandara

Importance: In traditional medicine, Bauhinia is extensively used in glandular diseases and as an antidote to poison. The drug is also reported to be useful in dysentery, diarrhoea, piles and worms (Kurup et al, 1979; Sharma et al, 1983). They are useful in vitiated conditions of kapha and pitta, diarrhoea, dysentery, skin diseases, leprosy, intestinal worms, tumours, wounds, ulcers, inflammations, scrofula, protoptosis, haemorrhoids, haemoptysis, cough, menorrhagia and diabetics. Usirasavam and Candanasavam are some of the preparations using the drug. An important Ayurvedic preparation, “Kanchnar Guggal” contains bark of this plant. In Unani system, the flowers are used in “Hab Mussafi Khun”, for skin diseases, the bark is used in “Sufuf Kalan”-an aphrodisiac.

Distribution: The plant is distributed in the Sub-Himalayan tracts from the Indus eastwards and throughout the dry forests of India, ascending to 1300m. It is also cultivated throughout the plains.

Botany: Bauhinia variegata Linn. syn. B.

candida Roxb. belonging to the family Caesalpiniaceae is a moderate sized deciduous tree with vertically cracked grey bark, wood moderately hard, greyish brown with irregular darker patches. Leaves are of 2 leaflets, connate for about two-thirds up. Leaflets are ovate with rounded apex, 10-15cm long, pubescent beneath when young and coriaceous. Flowers are white or pink, the uppermost petal darker and variegated usually appearing before the leaves in short axillary or terminal racemes. Stamens are 5 and stamenodes absent. Fruits are flat dehiscent pods with 10-15 seeds (Warrier et al, 1993).

Other important species of the genus Bauhinia are as follows.

1. B. tomentosa Linn.

It is the yellow or golden flowered one, commonly known as Manja Mandaram. It is found in Africa and Asia. In India it is found wild in dry deciduous forests and often cultivated. The plant is antidysenteric, antidote for snakebite and scorpion sting and also used in liver complaints. The bark is astringent. Root bark is vermifuge. Fruit is diuretic. Seed is tonic, wound healing and aphrodisiac.

2. B. purpurea Linn.

Pink Bauhinia or Camel’s Foot tree is found in South and S. E. Asia. In India, it is found in deciduous forests. Root is carminative and tonic. Bark is astringent and antidiarrhoeal and is used in ulcer and goitre. Flowers are laxative. The experimental studies conducted by Sijoria and Prasad (1979) on animals indicate that B. purpurea is very effective in normalising the thyroid gland.

3. B. racemosa Lam.

The plant is found in Sub-Himalayan tracts, in U.P, West Bengal, Central and South India. The leaf is anticephalalgic and antimalarial. Bark is astringent, antidiarrhoeal. The seeds are antibacterial. Stem-bark is CVS and CNS active, hypothermic and anticancerous.

4. B. malabarica Roxb.

Malabar Mountain Ebony is found in Sub-Himalayan tracts, from Kumaon to West Bengal, ascending to 1350m, Assam, Bihar and South India. The flowers of this plant are antidysenteric.

5. B. retusa Roxb.

The plant is distributed in north-western Himalayas from the Beas eastwards, Himachal Pradesh, U.P., Orissa, M.P. and A.P. The gum of the plant is emmenagogue, diuretic and can be used externally in sores. The seed is hypoglycaemic and hypocholesterolaemic. The aerial part is CVS active and has effect on respiration.

6. B. vahlii W.&A.

Camel’s Foot climber is found in Punjab, Bihar, Assam, Madhy Pradesh, Andra Pradesh and Tamil Nadu. Leaf is demulcent. Seed is tonic and aphrodisiac. Stem is CVS active, antiarrhythmic and spasmolytic.

Agrotechnology: Well drained hilly areas are ideal for the cultivation of Bauhinia. The plant is seed propagated. Seeds are formed in February-March. Seeds are to be collected from the dried pods, soaked in water for 12 hours before sowing in seedbeds. At four-leaved stage they are to be transferred to polybags. Two month old seedlings from polybags are used for field planting. Pits of size 60cm cube are to be taken and filled with 10kg dried cowdung mixed with topsoil and formed into a mound. On these seedlings are to be planted at a distance of 6-7.5m. Irrigation is to be given in the first year. Two weedings and application of organic manure once is required in a year. The plant is not attacked by any serious pests and diseases. The plant flowers on the third year. At the end of tenth year the tree can be cut and wood used for medicinal purposes (Prasad et al, 1997).

Properties and activity: Flowers contain flavanoids-kaempferol-3-galactoside and kaempferol-3- rhamnoglucoside. Stem bark yields hentriacontane, octacosanol and stigmasterol. Stem yields -sitisterol, lupiol and a flavanone glycoside-5, 7-dimethoxy flavanone 4-O- -L- rhamnopyranoside- -D-glucopyranoside. Seeds possess human blood agglutinating activity. Stem bark is hypothermic, CNS active and depressant. Bud, flower, leaf and stembark are antibacterial. Stem possesses juvenoid activity. Bark is alterative, tonic, antileprotic and antirheumatic. Bud is antidysenteric. Root is carminative and antidote for snakebite. Bark, flower and root promote suppuration. Bark and bud are astringent and vermifuge (Husain et al, 1992).... bauhinia

Linn.

Synonym: B. candida Roxb.

Family: Caesalpiniaceae.

Habitat: Punjab, Western Peninsula and Assam. Also cultivated in gardens.

English: Mountain Ebony, Buddhist Bauhinia.

Ayurvedic: Kaanchanaara, Kaan- chanaaraka, Kanchanak, Kaan- chana, Gandhaari, Sonapushpaka, Ashmantaka.

Siddha/Tamil: Sivappumanchori.

Action: Buds—a decoction is given in piles (also used against tumours), haematuria, menorrhagia. Dried buds are used in diarrhoea, dysentery, worm infestation, piles and tumours. Root— carminative, used in dyspepsia and flatulence (a decoction is reported to prevent obesity). Bark—astringent, anthelmintic; used externally in scrofula and skin diseases. Seeds—possess human blood agglutinating activity. Leaf— antifungal.

Along with other therapeutic applications, The Ayurvedic Pharmacopoeia of India indicated the use of the stem bark in lymphadenitis and goitre. (Ka- anchnaar Guggulu is prescribed for glandular swellings and goitre.)

Water-soluble portion of alcoholic extract of the plant showed preventive effect against goitre in rats.

Flowers gave flavonoids, kaempfe- rol-3-galactoside and kaempferol-3- rhamnoglucoside. The stem bark yields hentriacontane, octacosanol and stigmasterol. Stem contains beta-sitos- terol, lupeol and a flavanone glyco- side.

Dosage: Stem bark—20-30 g for decoction. (API Vol. I.)... bauhinia variegata

For a sweet tea, try the muira puama tea. As an herbal tea, it has many health benefits, especially for men. Read the article and find out more about the muira puama tea! About Muira Puama Tea The main ingredient of the muira puama tea is, of course, the muira puama herbal plant. It is a flowering plant with two species (Benth and Anselmino). Its origin can be found in the Amazonian rainforests, although at present it is grown in Europe, as well. The trees grow up to 4 meters, sometimes even taller. They have short-petioled leaves which are light green on upper surface and dark brown on lower surface. It has small, white flowers that have a similar scent to those of jasmine. How to prepare Muira Puama Tea In order to drink a cup of muira puama tea, pour boiling water in a cup that contains one teabag or a teaspoon of dried herbs. Cover the cup and let it steep for 2-4 minutes. Next, remove the teabag or tea herbs. If you want, you can add milk and honey to your cup of tea, to sweeten the taste. Muira Puama Iced Tea You can also enjoy muira puama tea during summertime, by preparing it as an iced tea. For 1 liter, you mainly need 5 teabags, 2 cups of boiling water, and a similar amount of cold water. Place the teabags into a teapot or a heat resistant pitcher, then pour the boiling water. Let it steep for about 5 minutes, while you fill a serving pitcher with cold water. Remove the tea bags and pour the tea into the serving pitcher. Add ice and more cold water to the serving pitcher. Sweeten it with honey, sugar or anything else that comes to your mind. Components of Muira Puama Tea Muira Puama tea’s components come from the herb with the same name. There are two medically active ones: long-chain fatty acids and alkaloid chemicals. Also, the bark and roots of the plant (which are used to make the tea) contain some of the following constituentsg: alpha-pinene, alpha-terpinene, beta-sitosterol, camphor, eugenol, imonene, linalool, stigmasterols, and various acids and essential oils. Muira Puama Tea Benefits The most important benefit of the muira puama tea is for men. After all, the muira puama herb is also known as the “Viagra of the Amazon”. That is because it helps with sexual impotence, by increasing the blood flow to the genital areas. It also helps in the treatment of male pattern baldness. Muira puama tea can be used as a tonic for nervous conditions and depressions. It is useful when it comes to improving one’s memory, especially among elders. The tea also increases your energy level, and improves mental focus and clarity. It is often used in the treatment for rheumatism and indigestion. It also helps women with treating the discomforts of menopause, as well as lessening the pain that comes with menstrual cramps. Muira Puama Tea side effects It is considered best to avoid drinking muira puama tea during pregnancy or when you are breast feeding. In both cases, it can affect the baby.The teaalsoincludes some enzymes which are harmful if you’re suffering from peptic ulcers. In this case, it is recommended that you not consume this type of tea. Consumption of muira puama tea can also lead to an increase in the blood pressure levels. For most people, it is only temporary, but it can be harmful for people with existing complications of blood pressure levels. If this is your case, it’s best that you consult your doctor first before you start drinking this tea. As muira puama acts as a stimulant, drinking too much muira puama tea may lead to anxiety and insomnia. It is generally advised that you not drink more than six cups of tea a day, no matter the type of tea. Other symptoms that you might get are headaches, loss of appetite, vomiting, diarrhea, dizziness, and irregular heartbeats.   Muira puama tea is clearly full of health benefits, especially for men. It is good for women, as well, as long as it is not consumed during pregnancy or breast feeding periods. Be careful not to get any side effects and you can enjoy this type of tea with no worries.... benefits of muira puama tea

Linn.

Synonym: Prunella vulgaris Linn.

Family: Labiatae; Lamiaceae.

Habitat: The Himalayas from Kashmir to Bhutan at altitudes of 1,400-4,000 m, in Khasi Hills and hills of South India.

English: Self-heal.

Unani: Substitute for Ustukhudduus. (Lavandula stoechas Linn.)

Folk: Dhaaru.

Action: Wound healing, expectorant, antiseptic, astringent, haemostatic, antispasmodic. Leaf- used in piles; and as a cooling herb for fevers.

The herb contains vitamins A, B, C and K; flavonoids; rutin. Flower spikes are liver-restorative, hypotensive, an- tioxidant.

Lupeol, stigmasterol and beta-sitos- terol are obtained from the unsapo- nifiable fraction from the leaves, the saponifiable fraction gave lauric,... brunella vulgaris

(Linn.) R.Br. ex.Ait.

Family: Asclepiadaceae.

Habitat: Throughout India.

English: Madar (white-flowered), Giant Milk-weed.

Ayurvedic: Alarka, Raajaarka, Shvetaarka, Vasuka, Mandaar, Bhaasvanmuula, Dinesh, Prab- haakara, Ravi, Bhaanu, Tapana.

Unani: Madaar, Aak.

Siddha/Tamil: Erukku.

Action: Flowers—stomachic, bechic, antiasthmatic. Milky juice— purgative (gastrointestinal irritant). Roots—used in lupus, tuberculous leprosy, syphilitic ulceration. Leaves—juice poisonous. Used in external swellings. All parts—used against bronchitis and asthma.

The leaf extract showed antitussive activity due to the presence of alkaloids and glycosides. The root contains gly- cosides 0.60-1.42% on dry basis. The latex contains akudarin. Flowers contain beta-amyrin and stigmasterol.

Dosage: Milky juice—500 mg; leaf, flower, root bark—3-5 g powder. (CCRAS.)... calotropis gigantea

Arn.

Synonym: C. tagal (Perr.) C.B. Robins.

Family: Rhizophoraceae.

Habitat: Muddy shores and tidal creeks of India.

English: Compound Cymed Mangrove.

Folk: Kirrari (Sindh, Maharashtra). Chauri (Maharashtra). Goran (Bengal, Sundarbans).

Siddha/Tamil: Pandikutti, Pavrikutti, Pavrikutti, Kandal, Chira.

Action: Plant—astringent. Stem bark—hypoglycaemic. Bark— haemostatic. A decoction is used to stop haemorrhage and is applied to malignant ulcers; also given after child birth.

Shoots—used as a substitute for quinine.

The leaves (dry basis) gave 15.45% tannin, 19.99% non-tannin; twig bark 25.89%, tannin, 9.8% non-tannin; bole bark 41.42% tannin, 10.58% non-tannin.

Presence of sitosterol, cholesterol, campesterol, stigmasterol, 28-isofu- costerol and a hydrocarbon, squalene, is reported in the leaves.... ceriops candolleana

Baker.

Family: Liliaceae.

Habitat: The Himalaya from Nepal to Bhutan, Assam and Bihar.

Ayurvedic: Shveta-Musali. (Considered different from Asparagus adscendens Roxb.)

Unani: Musali Safed, Biskandri.

Siddha/Tamil: Vallaimusali.

Folk: Nising, Tibbati Ginseng.

Action: Tuber—nervine and general tonic. The plant is used as a substitute for onion. Fried powder of the root is chewed in aphthae of mouth and throat. A decoction of the root with turmeric is given in rheumatism.

The roots contain a bibenzyl xylo- side, the steroidal sapogenins, besides stigmasterol and its glucoside, nona- cosane and tetracosanoic, and triacon- tanoic acids.

The root extract exhibited good adaptogenic properties. The fruits yield a polysaccharide, galactoglucan.... chlorophytum arundinaceum

Ricinus communis

Euphorbiaceae

San: Erandah, Pancangulah;

Hin: Erandi, Erand;

Ben: Bherenda;

Mal: Avanakku;

Tam: Amanakku, Kootaimuttu, Amanakkam Ceti;

Kan: Haralu, Manda, Oudla;

Tel: Erandamu, Amudamu

Importance: Castor is a perennial evergreen shrub. The Sanskrit name erandah describes the property of the drug to dispel diseases. It is considered as a reputed remedy for all kinds of rheumatic affections. They are useful in gastropathy such as gulma, amadosa, constipation, inflammations, fever, ascitis, strangury, bronchitis, cough, leprosy, skin diseases, vitiated conditions of vata, colic, coxalgia and lumbago. The leaves are useful in burns, nyctalopia, strangury and for bathing and fermentation and vitiated conditions of vata, especially in rheumatoid arthritis, urodynia and arthralgia. Flowers are useful in urodynia and arthralgia and glandular tumours. Seeds are useful in dyspepsia and for preparing a poultice to treat arthralgia. The oil from seeds is a very effective purgative for all ailments caused by vata and kapha. It is also recommended for scrotocele, ascites, intermittent fever, gulma, colonitis, lumbago, coxalgia and coxitis (Warrier et al, 1996). Oil is also used for soap making. Fresh leaves are used by nursing mothers in the Canary Island as an external application to increase the flow of milk. Castor oil is an excellent solvent of pure alkaloids and as such solutions of atropine, cocaine, etc. is used in ophthalmic surgery. It is also dropped into the eye to remove the after-irritation caused by the removal of foreign bodies.

Distribution: It is a native of N. E. tropical Africa. It is found throughout India, cultivated and found wild upto 2400m.

Botany: Ricinus communis Linn. belongs to the family Euphorbiaceae. It is a monoecious evergreen shrub growing upto 4m. Leaves are alternate, palmatifid, 6-10 lobed, each 1- nerved with many lateral nerves and peltate. Lobes are lanceolate, thinly pubescent below, margin serrate and apex acuminate. Paniculate racemes are terminal with male flowers below, female ones above. Perianth is cupular, splitting into 3-5 lobes, laceolate, valvate, margin inrolled and acuminate. Filaments of stamen are connate and repeatedly branched with divergent anther cells. Sepals are 5, sub-equal, lanceolate, valvate and acute. Ovary is globose, echinate, 3-locular with 3 ovules and pendulous. Styles are 3, stout, papillose, stigmatiferous. Capsules are 3-lobed and prickly with oblong seeds having smooth testa and marbled, shiny and carunculate. R. bronze King and R. africanus are two good garden varieties which are known as Italian and East Indian Castors, respectively (Mathew, 1983, Grieve and Leyel, 1992).

Agrotechnology: Castor is cultivated both in the plains and the hills. As it has deep root system it is hardy and capable of resisting drought. It does not withstand waterlogging and frost. It requires hard dry climate for proper development of fruits and seeds. It requires a well- drained soil, preferably sandy loam or loamy sand. High soil fertility is of less importance as compared to the good physical condition of the soil. It cannot tolerate alkalinity. It is generally grown in red loamy soils, black soils and alluvial soils. The plant is seed propagated. The seed rate required is 5-12 kg/ha (pure crop) and 3 kg/ha (mixed crop). Seeds are to be sown on a hot bed early in March. When the plants come up individual plant is to be planted in a separate pot filled with light soil and plunged into a fresh hot bed. The young plants are to be kept in glass houses till early June where they are hardened and kept out. The suitable season of growing is kharif season. The crop is usually sown in April and planting is done in early July. The land is to be ploughed 2-3 times with the onset of rains and is repeated after rain. The spacing recommended is 60X90cm in case of pure crop but it is seldom cultivated pure. It is usually grown mixed with crops such as jowar, arhar, chilly, groundnut, cowpea, cotton, etc. 10-15t FYM/ha and 50kg N, 50kg P2O5 and 20kg K2O/ha will be sufficient. Addition of neem cake is beneficial as it increases oil content. There should be sufficient moisture in the field at the time of sowing. A month after planting, weeding and earthing up is to be done. The plant is attacked by hairy caterpillar, castor semi - looper, castor seed caterpillar, etc. which can be managed by integrated pest management measures. The leaf blight disease occurring in castor can be controlled by spraying with Bordeaux mixture 2-3 times at 15 days interval. Harvesting of ripe fruits can be done from the end of November till the end of February. The fruit branches are picked when they are still green to avoid splitting and scattering of the seeds. The pods are to be heaped up in the sun to dry. Then the seeds are to be beaten with stick and winnowed. Roots, leaves, flowers, seeds and oil constitute the economic parts. The average yield is 500-600kg/ha (Thakur, 1990).

Properties and activity: The beancoat yielded lupeol and 30-norlupan-3 -ol-20-one. Roots, stems and leaves contain several amino acids. Flowers gave apigenin, chlorogenin, rutin, coumarin and hyperoside. Castor oil is constituted by several fatty acids (Husain et al, 1992). Seed coat contained 1. 50-1. 62% lipids and higher amounts of phosphatides and non-saponifiable matter than seed kernel. Fresh leaves protected against liver injury induced by carbon tetra chloride in rats while cold aqueous extract provided partial protection (Rastogi et al, 1991). Root and stem is antiprotozoal and anticancerous. Root, stem and seed are diuretic. The roots are sweet, acrid, astringent, thermogenic, carminative, purgative, galactagogue, sudorific, expectorant and depurative. Leaves are diuretic, anthelmintic and galactagogue. Seeds are acrid, thermogenic, digestive, cathartic and aphrodisiac. Oil is bitter, acrid, sweet, antipyretic, thermogenic and viscous (Warrier et al, 1996). Castor oil forms a clean, light- coloured soap, which dries and hardens well and is free from smell. The oil varies much in activity. The East Indian is the more active, but the Italian has the least taste. Castor oil is an excellent solvent of pure alkaloids. The oil furnishes sebacic acid and caprylic acid. It is the most valuable laxative in medicines. It acts in about 5 hours, affecting the entire length of the bowel, but not increasing the flow of bile, except in very large doses. The mode of its action is unknown. The oil will purge when rubbed into the skin (Grieve and Leyel, 1992).... castor

Cinchona spp.

Rubiaceae

San: Cinchona, Kunayanah

Hin: Kunain Mal: Cinchona, Quoina

Tam: Cinchona

Importance: Cinchona, known as Quinine, Peruvian or Crown bark tree is famous for the antimalarial drug ‘quinine’ obtained from the bark of the plant. The term cinchona is believed to be derived from the countess of cinchon who was cured of malaria by treating with the bark of the plant in 1638. Cinchona bark has been valued as a febrifuge by the Indians of south and central America for a long time. Over 35 alkaloids have been isolated from the plant; the most important among them being quinine, quinidine, cinchonine and cinchonidine. These alkaloids exist mainly as salts of quinic, quinovic and cinchotannic acids. The cultivated bark contains 7-10% total alkaloids of which about 70% is quinine. Similarly 60% of the total alkaloids of root bark is quinine. Quinine is isolated from the total alkaloids of the bark as quinine sulphate. Commercial preparations contain cinchonidine and dihydroquinine. They are useful for the treatment of malarial fever, pneumonia, influenza, cold, whooping couphs, septicaemia, typhoid, amoebic dysentery, pin worms, lumbago, sciatica, intercostal neuralgia, bronchial neuritis and internal hemorrhoids. They are also used as anesthetic and contraceptive. Besides, they are used in insecticide compositions for the preservation of fur, feathers, wool, felts and textiles. Over doses of these alkaloids may lead to deafness, blindness, weakness, paralysis and finally collapse, either comatose or deleterious. Quinidine sulphate is cardiac depressant and is used for curing arterial fibrillation.

Distribution: Cinchona is native to tropical South America. It is grown in Bolivia, Peru, Costa Rica, Ecuador, Columbia, Indonesia, Tanzania, Kenya, Zaire and Sri Lanka. It was introduced in 1808 in Guatemala,1860 in India, 1918 in Uganda, 1927 in Philippines and in 1942 in Costa Rica. Roy Markham introduced the plant to India. The first plantation was raised in Nilgiris and later on in Darjeeling of West Bengal. The value of the tree was learnt by Jessuit priests who introduced the bark to Europe. It first appeared in London pharmacopoeia in 1677 (Husain, 1993).

Botany: The quinine plant belongs to the family Rubiaceae and genus Cinchona which comprises over 40 species. Among these a dozen are medicinally important. The commonly cultivated species are C. calisaya Wedd., C. ledgeriana Moens, C. officinalis Linn., C. succirubra Pav. ex Kl., C. lancifolia and C. pubescens. Cinchona species have the chromosome number 2n=68. C. officinalis Linn. is most common in India. It is an evergreen tree reaching a height of 10-15m. Leaves are opposite, elliptical, ovate- lanceolate, entire and glabrous. Flowers are reddish-brown in short cymbiform, compound cymes, terminal and axillary; calyx tubular, 5-toothed, obconical, subtomentose, sub-campanulate, acute, triangular, dentate, hairy; corolla tube 5 lobed, densely silky with white depressed hairs, slightly pentagonal; stamens 5; style round, stigma submersed. Fruit is capsule ovoid-oblong; seeds elliptic, winged margin octraceous, crinulate-dentate (Biswas and Chopra, 1982).

Agrotechnology: The plant widely grows in tropical regions having an average minimum temperature of 14 C. Mountain slopes in the humid tropical areas with well distributed annual rainfall of 1500-1950mm are ideal for its cultivation. Well drained virgin and fertile forest soils with pH 4.5-6.5 are best suited for its growth. It does not tolerate waterlogging. Cinchona is propagated through seeds and vegetative means. Most of the commercial plantations are raised by seeds. Vegetative techniques such as grafting, budding and softwood cuttings are employed in countries like India, Sri Lanka, Java and Guatemala. Cinchona succirubra is commonly used as root stock in the case of grafting and budding. Hormonal treatment induces better rooting. Seedlings are first raised in nursery under shade. Raised seedbeds of convenient size are prepared, well decomposed compost or manure is applied , seeds are broadcasted uniformly at 2g/m2, covered with a thin layer of sand and irrigated. Seeds germinate in 10-20 days. Seedlings are transplanted into polythene bags after 3 months. These can be transplanted into the field after 1 year at 1-2m spacing. Trees are thinned after third year for extracting bark , leaving 50% of the trees at the end of the fifth year. The crop is damaged by a number of fungal diseases like damping of caused by Rhizoctoria solani, tip blight by Phytophthora parasatica, collar rot by Sclerotiun rolfsii, root rot by Phytophthora cinnamomi, Armillaria mellea and Pythium vexans. Field sanitation, seed treatment with organo mercurial fungicide, burning of infected plant parts and spraying 1% Bordeaux mixture are recommended for the control of the diseases (Crandall, 1954). Harvesting can be done in one or two phases. In one case, the complete tree is uprooted, after 8-10 years when the alkaloid yield is maximum. In another case, the tree is cut about 30cm from the ground for bark after 6-7 years so that fresh sprouts come up from the stem to yield a second crop which is harvested with the under ground roots after 6-7 years. Both the stem and root are cut into convenient pieces, bark is separated, dried in shade, graded, packed and traded. Bark yield is 9000-16000kg/ha (Husain, 1993).

Properties and activity: Over 35 alkaloids have been isolated from Cinchona bark, the most important among them are quinine, quinidine, cinchonine, cinchonidine, cinchophyllamine and idocinchophyllamine. There is considerable variation in alkaloid content ranging from 4% to 20%. However, 6-8% yield is obtained from commercial plantations. The non alkaloidal constituents present in the bark are bitter glycosides, -quinovin, cinchofulvic, cinchotannic and quinic acids, a bitter essential oil possessing the odour of the bark and a red coloring matter. The seed contains 6.13% fixed oil. Quinine and its derivatives are bitter, astringent, acrid, thermogenic, febrifuge, oxytocic, anodyne, anti-bacterial, anthelmintic, digestive, depurative, constipating, anti pyretic, cardiotonic, antiinflammatory, expectorant and calcifacient (Warrier et al, 1994; Bhakuni and Jain, 1995).... cinchona

(Burm.) Merrill.

Synonym: C. decumana Watt. C. grandis (L.) Osbeck

Family: Rutaceae.

Habitat: North-eastern region up to 1,500 m in Assam and Tripura.

English: Pummelo, Shaddock.

Ayurvedic: Madhukarkatikaa.

Unani: Chakotra.

Siddha/Tamil: Pambalimasu.

Folk: Mahaa-nibu, Sadaaphal.

Action: Fruit—cardiotonic. Leaves, flowers and rind—used as a sedative in nervous affections. Leaves— used in convulsive cough, chorea, epilepsy, also in the treatment of haemorrhagic diseases. A lotion of boiled leaves used hot in painful swellings. The essential oil from fresh leaves exhibits dermatophytic, and fungistatic activity.

The root-bark contains beta-sitos- terol and acridone alkaloids. It also contains several coumarins. The alkaloids and coumarins show antimicrobial acitivity.

The essential oil from the leaves and unripe fruits contain 20% limonin, 30% nerolol, 40% nerolyl acetate and 3% geraniol. diosmin, beta-sitosterol and beta-D- glucoside. The roots contain campes- terol, stigmasterol, sitosterol and cholesterol.

Aqueous extract of the peel showed hypotensive action in dogs.

The fruits and seeds are a cardioton- ic; found useful in palpitation.

Dosage: Fruit—10-20 ml juice. (API Vol. III.) Leaf, flower, fruit, root— 50-100 ml decoction. (CCRAS.)... citrus maxima

Indigofera tinctoria

Papilionaceae

San:Nilini, Ranjani, Nilika, Neelam, Aklika, Asita, Bhadra; Ben, Guj:Nil;

Hin:Gouli;

Mal: Neelamari;

Tam: Averi;

Tel: Aviri, Nili;

Kan: Nili; Mar: Nali; Ori: Neli

Importance: Common indigo or Indian indigo is a branching shrub which grows upto 2m high. Nili is a reputed drug produced from this plant which is used in ayurveda for the promotion of hair growth and it forms a major ingredient of preparations like nilibhringadi oil. This is the original source of natural indigo. Due to antitoxic property it is also a good remedy for poisons. According to Bhavaprakasa, nili is purgative in action, bitter, hot, cures giddiness, abdominal enlargement, vatarakta, gout and intestinal obstruction. The decoction or powder of the plant is used in whooping cough, bronchitis, palpitation of the heart, enlargement of the liver and spleen, dropsy, diseases of lungs and kidney, epilepsy and nervous disorders. A poultice of the leaves is recommended in skin diseases, piles, ulcer and haemorrhoids. A wine glass full juice of the leaves is administered in the morning with or without milk for three days to those who have been bitten by mad dogs. Root decoction is given in calculous diseases and used as an antidote to arsenic poisoning. The seed of the plant is powered and steeped in arrack or rum, yield a tincture, which is used to distroy lice. Indigo, the dye extracted from the leaves, is a soothing balm for burns and scalds, insect stings and animal bites. The synonyms visaghni and sodhani indicate the antitoxic and laxative properties of the drug nili, respectively (Aiyer and Kolammal, 1960).

Distribution: This plant is distributed in South and South East Asia, tropical Africa and is introduced in tropical America. In India, it is found almost throughout and cultivated in many parts.

Botany: Indigofera tinctoria Linn. syn. I. summatrana Gaertn, Pigmentum indicum belongs to Papilionaceae family. This is a branching shrub which grows upto 2m high. Stems and branches are green; branchlets silvery pubescent. Leaves are alternate, stipulate, imparipinnate and got 7-13 leaflets which are elliptic-oblong, membraneous,1.7x0.9cm, shortly mucronate, pale green or bluish. Flowers are small, rose-coloured in axillary racemes. Calyx 5-cleft, gamosepalous; corolla papilionaceous; stamens diadelphous; ovary sessile with a short incurved style ending in a capitate stigma. Pods are linear, cylindrical, 2-5cm long, deflexed having 8-12 seeds.

Agrotechnology: The Indian indigo requires good sunlight and grows well in hilly areas. This is usually propagated by seeds. Seeds are very small and the seed rate is 3kg/ha. Seeds require pretreatment for good germination as the seed coat is hard. Seeds are mixed with sand and ground gently to break the seed coat. An alternate method for enhancing germination is dipping the seeds in boiling water for a second. After pretreatment seeds are broadcasted. Broadcast the seeds preferably mixed with sand 2 or 3 times its volume to ensure uniform coverage. The seedbeds should be covered with straw and irrigated. Seeds germinate within 15 days. Seedlings are ready for transplanting after one month. For the land preparation, the soil is brought to fine tilth by ploughing 2 or 3 time s. Cattle manure should be applied at the rate of 10t/ha as basal dressing and incorporated into soil along with last ploughing. The best time for sowing is September-October. Weeding has to be done two times; 3 weeks after sowing and 6 weeks after sowing. Plants start flowering 2-3 months after sowing. Harvesting is done by cutting the plants at this time, at a height of about 10cm from ground level. Irrigate plants after harvest. Subsequent harvests can be made at 1.5-2 months interval. Four to five cuttings can be taken in an year depending on the growth. A few plants per plot are left without cutting to set seeds. Ripe pods are to be harvested in the early morning to prevent loss of seeds by shattering during harvest.

Properties and activity: A blue dyestuff is obtained from the indigofera which does not exist ready formed, but is produced during fermentation from another agent existing in the plant, known as indocan. Indocan is yellow amorphous of a nauseous bitter taste with an acid reaction, readily soluble in water, alcohol and ether. An artificial product indigotine is manufactured chemically and used as a substitute. Indirubin is another component of the plant.

The plant is deobstruent, alterative, antitoxic, antiasthmatic and antiepileptic. Aerial part is hypoglycaemic, CNS depressant and antitoxic. The leaves, flowers and tender shoots are considered to be cooling, demulcent and alterative. Leaf is antiinflammatory. Root and stem is laxative, expectorant, antitumourous, febrifuge, anticephalalgic, antidote for snake bite, anthelmintic and promotes growth of hair. Root is divertic. Indirubin is antineoplastic and has toxicity. Nili is antitoxic, purgative and laxative. Indigo is said to produce nausea and vomiting.... common indigo

Gmelina arborea

Verbenaceae

San: Gumbhari;

Hin:Gamari, Jugani-chukar;

Mal: Kumizhu, Kumpil;

Guj: Shewan; Pun:Gumbar; Mar: Shivanasal;

Kan: Kummuda;

Tam: Uni, Gumadi;

Tel: Gummadi;

Importance: Coomb teak, Candahar tree or Kashmeeri tree is a moderate sized, unarmed, deciduous tree which is a vital ingredient of the ”dasamula” (group of ten roots). The whole plant is medicinally very important. It promotes digestive power, improves memory, overcomes giddiness and is also used as an antidote for snake bite and scorpion sting. Roots are useful in hallucination, fever, dyspepsia, hyperdipsia, haemorrhoids, stomachalgia, heart diseases, nervous disorders, piles and burning sensation. Bark is used in fever and dyspepsia. Leaf paste is good for cephalagia and leaf juice is a good wash for foul ulcers and is also used in the treatment of gonorrhoea and cough. Flowers are recommended for leprosy, skin and blood diseases. The fruits are used for promoting the growth of hair and in anaemia, leprosy, ulcers, constipation, strangury, leucorrhoea, colpitis and lung disease.

Wood is one of the best and most reliable timber of India. It is used for making furniture, planks, carriages, printing boxes, musical instruments, shafts, axles, picture frames, jute bobbins, calipers, ship buildings, artificial limbs and stethoscopes.

In south India the bark of the tree is used by arrack manufacturers to regulate the fermentation of toddy. The plant is also grown in garden or avenues (Dey, 1988; Sivarajan and Indira, 1994).

Distribution: The plant is found wild throughout India from the foot of Himalayas to Kerala and Anadamans, in moist, semideciduous and open forests upto an altitude of 1500 m. It is also distributed in Sri Lanka and Philippines.

Botany: Gmelina arborea Roxb. Syn. Premna arborea Roth. belongs to Family Verbenaceae. It is an unarmed deciduous tree growing up to 20m height with whitish grey corky lenticellate bark, exfloliating in thin flakes. Branchlets and young parts are clothed with fine white mealy pubescence. Leaves are simple, opposite, broadly ovate, cordate, glandular, glabrous above when mature and fulvous-tomentose beneath. Flowers brownish yellow in terminal panicle. Calyx campanulate, pubescent outside and with 5 lobes. Corolla showy brownish yellow with short tube and oblique limbs. Stamens 4, didynamous and included. Ovary is 4 chambered with one ovule each; style slender ending in a bifid stigma. Fruits are fleshy ovoid drupes, orange yellow when ripe. Seeds 1 or 2, hard and oblong.

Agrotechnology: Coomb teak is a sun loving plant. It does not tolerate drought. But it grows in light frost. Rainfall higher than 2000mm and loose soil are ideal. The best method of propagation is by seeds but rarely propagated vegitatevely by stem cuttings also. Seed formation occurs in May-June. Seeds are dried well before use. They are soaked in water for 12 hours before sowing. Seed rate is 3kg/ha. Seeds are sown in nursery beds shortly before rains. Seeds germinate within one month. Seedlings are transplanted in the first rainy season when they are 7-10cm tall. Pits of size 50cm cube are made at a spacing of 3-4m and filled with sand, dried cowdung and surface soil, over which the seedlings are transplanted. 20kg organic manure is given once a year. Irrigation and weeding should be done on a regular basis. The common disease reported is sooty mould caused by Corticium salmonicolor which can be controlled by applying a suitable fungicide. The tree grows fast and may be ready for harvesting after 4 or 5 years. This plant is coppiced and traded. The roots are also used for medicinal purposes. The tree may stand up to 25 years.

Properties and activity: Roots and heart wood of Coomb teak are reported to contain gmelinol, hentriacontanol, n-octacosanol and -sitosterol. The roots contain sesquiterpenoid and apiosylskimmin, a coumarin characterised as umbelliferone-7-apiosyl glucoside and gmelofuran. The heart wood gives ceryl alcohol, cluytyl ferulate, lignans, arboreol, gmelonone, 6”-bromo isoarboreol, lignan hemiacetal and gummidiol. Leaves yield luteolin, apigenin, quercetin, hentriacontanol, -sitosterol, quercetogenin and other flavons. Fruits contain butyric acid, tartaric acid, and saccharine substances (Asolkar et al, 1992; Dey, 1988).

The roots are acrid, bitter, tonic, stomachic, laxative, galactogogue, demulcent, antibilious, febrifuge and anthelmintic. Bark is bitter, hypoglycaemic, antiviral, anticephalalgic and tonic. The leaves are demulcent, antigonorrhoeic and bechic. Flowers are sweet, refrigerant, astringent and acrid. Fruits are acrid, refrigerant, diuretic, astringent, aphrodisiac, trichogenous, alterant and tonic (Warrier et al; 1995).... coomb teak

Have you ever thought that if you remove the corn silk from corn combs, you can use it as a remedy? While many people may not be familiar with this type of tea, in fact corn silk tea was used for a long time even by Native Americans as a remedy for heart problems, malaria or urinary tract infections. More about Corn silk tea Corn silk is in fact the thin, hair-like strands that cover the corn cob. These silky yellowish strands which form the stigma collect pollen to fertilize the corn, and they’re also used to make a healing tea. In corn silk there can be found many important components like flavonoids, allantoin, mucilage, saponins, vitamins C and K and potassium. Corn silk may also be combined with other herbs to increase its healing powers and range of medicinal uses. It’s also available in prepackaged teabags, or in a dried supplement form. Powdered corn silk is a common ingredient in face powders, due to its soothing qualities. Corn silk tea has a slightly sweet taste. If you decide to collect it in order to make a tea, make sure that the plants were not sprayed with pesticides. Brew corn silk tea In order to make a tasty healthy corn silk tea it is usually recommended to use fresh corn silk. If you don’t have it at your hand, the dried one works just fine. To prepare the infusion, use 2 teaspoons of fresh corn silk or 2.5 g of dried one and pour 1 cup of boiled water over it. Let it seep for 10 - 15 minutes and it is ready to serve. Corn silk tea benefits Corn silk tea has many health benefits for adults and for children. The most important benefit of this tea is for disorders in the urinary system : infections, cystitis, as well as bladder infections or gonorrhea. If you want your children to stop wetting their beds give them corn silk tea. Corn silk tea is also diuretic, demulcent, has anti-inflammatory properties and it fights kidney stones. Corn silk tea may help detoxify and flush out accumulated toxins in the body. Corn silk tea contains vitamin K, which has been shown to improve the body’s blood clotting process. Corn silk tea has also been shown to lower blood pressure, relieve arthritis pains, and help in the treatment of jaundice and prostate disorders. When applied topically, corn silk tea can help heal wounds and skin ulcers. Corn silk tea side effects In most cases, corn silk tea is suitable for daily consumption without special warnings. However, in rare cases, in you are allergic to corn, you may develop a skin rash. Corn silk tea can also decrease the level of potassium in your blood. So you should avoid it if you already have low potassium levels, problems with blood pressure, or diabetes. It is not recommended for children, during pregnancy or breastfeeding. Corn silk tea is safe to be included in your diet, but in order to enjoy its benefits, do not exceed 3 cups a day.... corn silk tea remedy

Linn.

Family: Iridaceae.

Habitat: Cultivated in Kashmir up to 2,000 m and in Chaubattia in Uttar Pradesh.

English: Saffron, Crocus.

Ayurvedic: Kumkuma, Rudhira, Vadrika, Kaashmira, Kaashmiraka, Vaalhika, Agnishikhaa, Ghrusrrn, Rakta, Kshataja. Keshara (usually Keshara indicates Naagakeshara, Mesuaferrea Linn.)

Unani: Zaafraan.

Siddha/Tamil: Kumgumappoo (dried stigma).

Action: Stigma and style—nervine tonic, sedative, antispasmodic expectorant (in dry cough, whooping cough, bronchitis), stomachic, diaphoretic, emmenagogue.

The Ayurvedic Pharmacopoeia of India indicated the use of the stigma and style in migraine, chronic sinusitis, and in urinary obstruction, inflammation of the urinary tract.

The saffron is used in Chinese medicine for melancholia, depression, shock and menstrual disorders.

Saffron contains a volatile oil composed of terpenes, terpene alcohols and esters. The herb also contains crocin, picrocrocin, crocetin, carotenoids and riboflavin and thiamine.

Preliminary evidence suggests that crocetin may improved atherosclerosis by increasing plasma oxygen diffusion and decreasing cholesterol and triglyceride levels. In addition, cro- cetin binds to albumin, potentially increasing oxygen diffusion and improving atherosclerosis. (Natural Medicines Comprehensive Database, 2007.)

The stigma showed remarkable inhibitory effect on blood coagulation due to the presence of platelet aggregation inhibitor containing adenosine. It accelerated in vitro fibrinolytic activity of urokinase and plasmin.

Small amounts of Saffron stimulate gastric secretion; larger amounts stimulate uterine smooth muscle and exhibit emmenagogue and abortifacient effects.

Saffron extract showed cytotoxic and antimutagenic activity and antitu- mour activity against ascites tumours in mice. Chemical analysis indicated that the naturally occurring crocin may be the active principle responsible for the observed anticancer activity.

A xanthone, carotenoid glycosidic conjugate, mangi-crocin, isolated from saffron, showed significant adapto- genic activity. A natural antioxidant, isolated from saffron stem callus, showed better antioxidant activity than vitamin E. Saffron bulbs are toxic, stigmas in overdoses narcotic.

The dose of stigma and styles at 1.55.0 g is toxic. (Recommended dose : 0.5-1.5 g per day).

Dosage: Dried style and stigma—20-50 mg (API Vol. IV.)... crocus sativus

Costus speciosus

Zingiberaceae

San: Pushkara, Kashmeera, Kemuka;

Hin: Kebu, Keyu, Kust;

Ben: Keu, Kura

Mal: Channakkizhangu, Channakoova;

Tam: Kostam; Mar: Penva;

Tel: Kashmeeramu

Importance: Costus is one of the plants which contains diosgenin in its rhizome. It is widely used as starting material in the commercial production of steroidal hormones. The rhizomes are useful in vitiated conditions of kapha and pitta, burning sensation, flatulence, constipation, helminthiases, leprosy, skin diseases, fever, hiccough, asthma, bronchitis, inflammation and aneamia. It is used to make sexual hormones and contraceptives (Warrier et al,1994).

Distribution: The plant is widely distributed in Asia and other tropical countries like India, Nepal, Pakistan, Sri Lanka and China. In India, it occurs mostly in Arunachal Pradesh, Meghalaya, Nagaland, Tamil Nadu, Assam, Tripura and Kerala.

Botany: Costus speciosus (Koenig.) Sm. belonging to the family Zingiberaceae consists of two varieties viz., var. nepalensis Rose., found only in Nepal and Arunachal Pradesh and var. argycophyllus Wall., having a wide distribution in India.

The plant is a succulent herb with long leafy spirally twisted stems, 2-3m in height and horizontal rhizomes. Leaves are simple, spirally arranged, oblanceolate or oblong, glabrous above, silky pubescent beneath with broad leaf sheaths. Flowers are white, large, fragrant, arranged in dense terminal spikes. Bracts are bright red. The single stamen present is perfect, lip large with incurved margins. Fruits are globose or ovoid capsules with obovoid or sub- globose seeds (Warrier et al,1994).

Agrotechnology: Costus can be raised under a wide range of agroclimatic conditions. It prefers sandy loam soil for good growth. Propagation is by rhizomes. The best season for planting is April- May. The seed rate recommended is 2-2.4t/ha. The spacing adopted is 50x50cm. After an initial ploughing FYM or poultry manure should be applied at the rate of 30t/ha and the field is to be ploughed again irrigated and prepared to obtain a fine seed bed. Furrows are opened and the rhizome pieces are placed horizontally at a depth of 8-10cm and covered with soil. Care is taken to place the eye buds facing upwards. After 70-75 days about 90-95% sprouting is obtained. Desiccation of the young sprouts have been observed in the hot summer months, necessitating liberal water supply during the period. As September-November is the period of maximum tuberization at least two irrigations should be given at that time. One during the sprouting period of the crop followed by two more keeps the crop fairly free of weeds. Application of 37t/ha of poultry manure and fertilizers, 60kg P2O5 and 40kg K2O /ha as a basal doze, along with 80kg N/ha applied in 3 equal split dozes will take care. Crop is harvested at the end of seven months. Harvesting includes 2 operations, cutting the aerial shoots and digging out the rhizomes. Cost of production of diosgenin ranges from Rs. 271-300/kg (Atal, et al,1982).

Properties and activity: Tubers and roots contain diosgenin, 5 -stigmast-9(11)-en-3 ol, sitosterol- -D- glucoside, dioscin, prosapogenins A and B of dioscin, gracillin and quinones. Various saponins, many new aliphatic esters and acids are reported from its rhizomes, seeds and roots. Seeds, in addition, contain - tocopherol. Saponins from seeds are hypotensive and spasmolytic. Rhizomes possess antifertility, anticholinestrase, antiinflammatory, stimulant, depurative and anthelmintic activities (Hussain et al, 1992).... costus

Gaertn.

Family: Amaryllidaceae; Hypoxi- daceae.

Habitat: Sub-tropical Himalayas from Kumaon eastwards; Western Ghats from Konkan Southwards.

Ayurvedic: Taalmuuli, Taalpatri, Krishna Mushali, Bhuumitaala.

Unani: Musli Siyaah.

Siddha/Tamil: Nilappanan kizhangu.

Action: Nervine, adaptogenic, sedative, anticonvulsive, androgenic, anti-inflammatory and diuretic. Used in Jaundice, urinary disorders, skin diseases and asthma. Mucilaginous.

The rhizome contains saponins (cur- culigosaponin C and F promoted proliferation of spleen lymphocytes very significantly; F and G increased the weight of the thymus in vitro in mice); sapogenins; phenolic glycosides, a tri- terpene alcohol; a pentacyclic triter- pene, an aliphatic compound, hen- triacontanol, sitosterol, stigmasterol, cycloartenol and sucrose. A pep- tide, Curculin C, containing 114 amino acids, has been isolated from the fruit.

In traditional Chinese medicine, dried rhizome, containing curculigo- side is used as a tonic for its immuno- logical and protective property.

In Indian medicine, powdered rhizomes with milk are taken as a restorative tonic, also for sexual debility.

EtOH (50%) of the plant exhibited hypoglycaemic property.

Dosage: Dried rhizome—3-6 g powder. (API Vol. IV.)... curculigo orchioides

Koenig.

Synonym: D. hebecarpa A. Cunn ex Benth.

Family: Ebenaceae.

Habitat: Orissa and South India.

English: Ebony Persimmon, Malabar Ebony, Ceylon Ebony.

Ayurvedic: Tinduka.

Unani: Aaabnuus.

Siddha/Tamil: Acha-Thumbi.

Action: Plant—astringent, attenuant, lithontriptic.

The heartwood contains 2 beta- naphthalhydes, 2 naphthoic acid derivatives; ceryl alcohol, betulin, alpha- amyrin, ursolic acid, baurenol and stigmasterol. The leaves contain ur- solic acid, alpha-amyrin, betulin and lupeol.... diospyros ebenum

Linn. var. typicus Prain.

Synonym: Lablab purpureus Linn.

Family: Papilionaceae; Fabaceae.

Habitat: Cultivated throughout India.

English: Indian Butter Bean, Lablab Bean, Horsebean.

Ayurvedic: Nishpaav, Sem.

Unani: Lab Laab, Semphali.

Siddha/Tamil: Avarin.

Action: Seeds—febrifuge, stomachic, antispasmodic, antifungal.

Key application: As expectorant. (The British Herbal Pharmacopoeia.)

Lablab pods contain protein 4.5, carbohydrates 10.0, calcium 0.05%; vitamin C (7.33 to 10.26 mg/100g in cooked samples; 0.77-1.12 mg/100 g in uncooked samples) increases on cooking. Enzyme liberation of essential amino acids from protein is slower than from casein and wheat.

Callus tissue of Dolichos lablab Linn. (Horsebean) showed presence of beta- sitosterol, stigmasterol, lanosterol and cholesterol. The isolated flavonoids show antifungal activity (the maximum amount of flavonoids was found in the flowers). The plant contains the alkaloid, trigonelline, which exhibits hypoglycaemic activity. The maximum alkaloid was found in the seeds (0.14 mg/g dry weight). In tissue cultures raised from seedlings, the maximum amount was present in the tissue at the age of 6 weeks (0.068 mg/g dry weight).... dolichos lablab

Solms Laub.

Synonym: E. speciosa Kunth.

Family: Pontederiaceae.

Habitat: Native to tropical South America; naturalized all over India.

English: Water-Hyacinth, Bengal Terror, Blue Devil, The Million Dollar Weed.

Ayurvedic: Wrongly equated with Jalakumbhi (Pistia stratiotes Linn., Tropical Duckweed.)

Siddha/Tamil: Akasa thammarai.

Action: Flower—antifungal. Used in skin diseases.

The plant gave stigmasterol, roots gibberellins, flowers delphinidin glu- coside.

The leaves contain a good amount of protein (18% on dry wt basis). The content of water soluble pectins in leaf, petiole and root is: 1.3-5.8,1.5-7.2 and 1.0-2.5% respectively.

Research shows that Water-Hyacinth can be used as a source to remove minerals, organic substances and even heavy metals like Cd, Cr, Cu, Zn and Ni present as pollutants from domestic or industrial effluents. It can also remove... eichhornia crassipes

Trin.

Synonym: E. plantaginea R. Br. E. tuberosa Schult.

Family: Cyperaceae.

Habitat: Widely cultivated in China. Sold in Kolkata under the name Singapuri Keysur.

English: Chinese Water Chestnut.

Ayurvedic: Shringaataka (substitute), Kasheruka (substitute).

Action: Tuber—antidysenteric, antileucorrhoeic, antibacterial.

The juice expressed from the tuber shows antibiotic activity against Staphylococcus aureus, E. coli and Aer- obacter aerogenes. The antibiotic principle has been designated as puchiin.

In ethanolic extract, hexacosanoic acid, 5 alpha-stigmastane-3, 6-dione, betulin and tricin were present. It also contained beta-sitosterol and stigmas- terol. applied to ulcers and eczema. Roots—given to patients with heart and liver affections; topically in rheumatism. Root and leaf— used in dysuria and other urethral complaints. An infusion of the whole plant is used to stimulate diuresis, reduce fever and to eliminate bladder stones. The decoction is also used in peptic ulcers, swelling or pain in stomach. Plant is also used in piles and scabies.

The plant contains germacranolide dilactones. Hydroxylated germacano- lides, molephantin and molephantinin, exhibited cytotoxic and antitumour properties.

The plant also gave epifriedelanol, lupeol, stigmasterol, triacontan-l-ol and dotriacontan-l-ol.... eleocharis dulcis

(L.) DC.

Family: Compositae; Asteraceae.

Habitat: Throughout India, ascending to 1,350 m in the hills.

Ayurvedic: Shash-shruti (non- classical).

Unani: Hirankhuri.

Folk: Sadamandi.

Action: Plant—sudorific, febrifuge, antiseptic. Used in infantile tympanitis and bowel complaints. Root—antidiarrhoeal. Leaf—used for otitis media under medical supervision.

The aerial parts contain pyrrolizi- dine alkaloids, senkirkine and doro- nine. Presence of simiaral, beta-sitos- terol, stigmasterol, palmitic and tria- contannic acids is also reported.... emilia sonchifolia

Auct. Non Linn.

Synonym: E. indica Lam.

Family: Euphorbiaceae.

Habitat: Throughout warmer regions of India, up to 1,500 m in the Himalaya.

Ayurvedic: Dugdhikaa.

Action: Plant—used in colic, diarrhoea and dysentery. Leaf— astringent, antidysenteric, antileuc- orrhoeic (also used in menorrhagia).

The plant contains taraxerol, oc- tacosanol, campesterol, stigmasterol, beta-sitosterol, quercetin, quercitrin, ellagic acid, rhamnetin-3-galactoside, rhmnetin-3-rhamnoside and kaempferol.... euphorbia hypericifolia

Boiss.

Family: Euphorbiaceae.

Habitat: Western Himalaya from Kumaon to Nepal.

Ayurvedic: Snuhi, Snuk, Sehunda, Gudaa (Substitutes.) (Adhogudaa of Ayurvedic medicine and Bana- muuli of folk medicine have been equated with Euphorbia acaulis Rox.)

Unani: Thuuhar

Folk: Thor, Surai.

Action: Latex—cathartic, anthelmintic.

The latex yield euphol, cycloeu- calenol, an inseparable mixture of four tetra-and four tri-esters of macrocyclic diterpene ingenol, octacosanol, tetra- cosanol, beta-sitosterol, stigmasterol, alpha-amyrin and campesterol. The plant gave ingenol.

The latex is a valuable source of in- genol esters. Ingol is a macrocyclic diterpene and is of therapeutic interest due to its antileukemic properties. Fractionation of the latex gave ingol- 12-acetate and 8-tigloyl-12-acetate. The acylation of ingol-12-acetate yielded derivatives which inhibit the growth of the basophilic leukaemia cells in rats.... euphorbia royleana

Linn.

Family: Moraceae.

Habitat: Sub-Himalayan tracts, West Bengal, Central and South India; planted throughout India as an avenue tree.

English: Peepal, Bot-tree.

Ayurvedic: Ashvattha, Bodhidru, Bodhivrkisha, Sebya, Chalapa- tra, Gajabhaksha, Kshiradruma, Peeppal.

Unani: Peepal.

Siddha/Tamil: Arasu, Ashvatham.

Action: Bark—astringent, antiseptic, alterative, laxative, haemostatic, vaginal disinfectant (used in diabetes, diarrhoea, leucorrhoea, menorrhagia, nervous disorders; also in skin diseases.) Applied externally on unhealthy ulcers and wounds. Leaves and twigs— laxative.

The bark contains beta-sitosteryl-D- glucoside. Vitamin K, n-octacosanol, methyl oleanolate, lanosterol, stigmas- terol, lupen-3-one are reported from the stem bark.

A hypoglycaemic response is reported for beta-sitosterol-D-glucoside obtained from the bark.

Aerial roots are given to women, also used in prescriptions, for inducing conception. The dried fruits are used as a uterine tonic.

The fruits contain 4.9% protein having the essential amino acids, isoleu- cine and phenylalanine. The chloroform extract of fruits exhibited anti- tumour and antibacterial activities in bioassays.

Various plant parts are included in formulations used for menorrha- gia, metrorrhagia, blood dysentery, bleeding piles, haematuria and haemorrhages.

Dosage: Bark, fruit—50-100 ml decoction. (CCRAS.)... ficus religiosa

Roxb.

Family: Burseraceae.

Habitat: Throughout India, up to 1,000 m on the hills.

English: Grey Downy Balsam.

Ayurvedic: Paaranki, Kharpata. (Kinkiraata, Karnikaara, Mri- galindika are doubtful synonyms.)

Siddha/Tamil: Karre Vembu, Arunelli.

Folk: Ghogar, Toon.

Action: Fruit—stomachic. Leaf— astringent, antiasthmatic. Bark— antidiabetic.

The leaves and stem bark contain sterols, sitosterol, stigmasterol and campesterol; fatty acids; aliphatic compounds; a mixture of long chain esters; along with tannins and waxes. The leaves also contain garu- garin and amentoflavone. Gum-resin contains alpha-amyrin, butyrospermol and dammarandiol.

Aqueous and ethanolic extract of the leaves exhibit anti-inflammatory and antiallergic activities.... garuga pinnata

Linn.

Family: Rubiaceae.

Habitat: Native to tropical America; occurs in tidal forests of South India and in Andaman Islands. (An extract of flowers, resembling rose-water, in sold in Travancore markets.)

Action: Bark—used in chronic dysentery; also applied to wounds and abscesses.

Siddha/Tamil: Pey Ellu, Uch Ellu.

Folk: Raam-til, Kaalaa Til, Sargujaa.

Action: Oil from seed—an- tirheumatic.

The seeds yield an oil (33%), a mixture of triglycerides, lauric, palmitic, palmitoleic, stearic, oleic, linoleic and arachidic acids. The unsaponifiable matter is a mixture of stigmasterol, n- triacontane and lupeol. Seeds contain lysine.... guettarda speciosa

DC.

Synonym: H. quadriloculare (Roxb.) D. Schum.

Habitat: Gujarat, Madhya Pradesh, Maharashtra, Andhra Pradesh, Karnataka, Tamil Nadu.

Ayurvedic: Waarasa.

Siddha/Tamil: Barokalagoru.

Folk: Pullunga, Paatang (Maharashtra).

Action: Tar extracted from wood— used in skin diseases. Leaf juice— applied externally on toe sores and in chilblain.

The flowers gave hentriacontane and allantoin; the leaves contain ursolic acid and sitosterol. The seeds contain a saponin (rhamnoside), lupeol, beta- sitosterol, stigmasterol and cubulin. The essential oil from flowers exhibits antimicrobial activity.... heterophragma roxburghii

Linn.

Family: Malvaceae.

Habitat: Native to China; planted in the hedges of gardens.

English: Cotton-Rose, ChineseRose, Confederate Rose.

Ayurvedic: Sthala-Padam, Sthal- Kamal.

Siddha/Tamil: Irratai-vellaichemba- rattam, Sembarattai.

Action: Flower—used in pectoral and pulmonary affections. Leaf and flower—expectorant, bechic, anodyne. Used in menorrhagia, dysuria, swellings, fistulae, wounds and burns.

The flowers contain quercetin, kaempferol, betulinic acid, hexyl stearate, tetratriacontanol, nonacosane, stigmasta-3, 7-dione, stigmasta-4-ene- one and beta-sitosterol. Flowers collected in the morning gave no an- thocyanin; maximum anthocyanin is found in the afternoon.... hibiscus mutabilis

Horse Chestnut tea has been known for many years due to its astringent, anti-inflammatory, expectorant and tonic properties. It grows in the Balkan areas and in Western Asia and can reach a height of 100 feet. The leaves of horse chestnut tree are 12 inches long and the buds are large and sticky. Most of the health benefits derive from the tree’s bark and leaves. The bark contains coumarins, aesculetin, fraxin, quercetin, sterols, tannins and saponins. The leaves are full of coumadins, aesculin, scopolin, fraxin, stigmasterol, beta-sitosterol and rutin. How To Make Horse Chestnut Tea You can make horse chestnut tea either from the bark or leaves. To brew horse chestnut tea from the bark, you need to boil for about 5-10 minutes a tablespoon of tea in a kettle of water. To make horse chestnut tea from the leaves, place about a fistful of leaves into a cup of boiled water and let it steep for about 7 - 10 minutes. The nut of horse chestnut can only be used for external applications, since they could be poisonous otherwise! Horse Chestnut Tea Benefits The nuts have the following benefits:

• Strengthens varicose veins.
• Can help treat hemorrhoids.
• Helps treating arthritis and rheumatic pains.
• Helpful in treating various skin conditions such as: rashes, eczema or burns.

The leaves include the following benefits:

• Provides relaxation and a restful sleep.
• May help treat dysentery.
• Alleviates fever and malaria.
• Relieves menstrual cramps.

Horse Chestnut Tea Side Effects

• Horse chestnut flower can cause allergic reactions.
• Pregnant and breastfeeding women should avoid drinking Horse Chestnut Tea.
• Horse Chestnut Tea may lower blood sugar levels, so avoid drinking this tea if you suffer from diabetes.
• Don’t drink horse chestnut tea if you have bowel or stomach disorders.
• If you have a liver condition, avoid drinking horse chestnut.
• Avoid drinking Horse Chestnut Tea if you suffer from kidney problems.

All in all, Horse Chestnut Tea is a healthy tea with many health benefits! Enjoy drinking and try to not experience any of its side effects.... horse chestnut tea

(K. Schum.) Heine.

Synonym: H. schulli (Ham.) MR & SM Almeida. H. spinosa T. anders. Asteracantha longifolia (L.) Nees.

Family: Acanthaceae.

Habitat: Throughout India along the banks of fresh or stagnant water ditches and swampy grounds, mixed with marshy grasses and sedges.

Ayurvedic: Kokilaaksha, Kokilaak- shi, Ikshuraka, Ikshura, Kshuraka, Bikshu, Kaakekshu.

Unani: Taalmakhaanaa.

Siddha/Tamil: Neermulli.

Action: Leaves, roots and seeds— diuretic; used for diseases of the urinogenital tract, spermatorrhoea. Seeds promote sexual vigour, arrest abortion and cure diseases due to vitiated blood. Also used for arthritis and oedema.

The seeds contain large amounts of tenacious mucilage and potassium salts, which may be responsible for the diuretic property of seeds. The seeds also contain linoleic acid (71%), besides diastase, lipase and protease.

EtOH (50%) extract of the plant is spasmolytic and hypotensive.

The chloroform soluble fraction of ethanolic extract of aerial parts exhibited promising hepatoprotective activity in albino rats.

The plant contains lupeol, stigmas- terol and hydrocarbons.

Dosage: Seed—3-6 g powder; ash—1-3 g. (CCRAS.)... hygrophila auriculata

Wall.

Synonym: H. orixense (Roxb) Mobb.

Family: Rubiaceae.

Habitat: Central India and Western Peninsula.

Ayurvedic: Bhramar-chhalikaa, Ugragandhaa (a confusing synonym). Bhringa-vrksha (provisional synonym).

Siddha/Tamil: Sagappu, Vellei Kadambu, Peranjoli.

Folk: Bhaulan, Bhramarchhali, Bhuurkunda.

Action: Bark—astringent, febrifuge, antiperiodic (especially for tertian ague).

The stem bark contains scopoletin and its apioglucoside, hymexelsin (yield 0.12%). The presence of glucose, fructose, galactose and several amino acids, alanine, arginine, cystine, glycine, leucine; besides fatty acids, beta-sitosterol and stigmasterol is also reported from the bark.

Roots contain several quinones.... hymenodictyon excelsum

Linn. f.

Family: Acanthaceae.

Habitat: Deccan, Mysore southwards.

Folk: Sivanarvembu (Tamil Nadu).

Action: Leaves—cooling, aperient; given for smallpox to children, bruised leaves applied to contusions.

The alcoholic extract of the aerial parts yielded several lignans, phy- tosterols, brassicasterol, campesterol, 7,22-ergostadienol, stigmasterol, sitosterol, spinasterol, 28-isofucostil and a sterol glucoside, beta-sitosterol-3-O- glucoside.

Justica vasculosa Wall. (Eastern Himalayas, Assam Khasi Hills) is also used for inflammations.... justica tranquebariensis

W. & A.

Family: Asclepiadaceae.

Habitat: Sub-Himalayan tracts of Punjab and Uttar Pradesh and Deccan Peninsula up to an altitude of 900 m.

Ayurvedic: Jivanti; Jivaniya, Jiva- pushpa, Hemavati, Jivana. Shaaka- shreshtha, Payaswini, Maangalya, Madhusravaa. (Guduuchi, Medaa, Kaakoli and Vrkshaadani are also known as Jivanti.) (Haimavati is equated with Orris Root and Hemapushpa with Sarca asoca flower.)

Siddha/Tamil: Keerippaalai.

Folk: Dodishaak (Gujarat).

Action: Plant—stimulant and restorative. Improves eyesight. Found useful in the treatment of habitual abortion. Leaves and roots used in skin diseases.

The herb contains «-triacontane, cetyl alcohol, beta-sitosterol, beta- amyrin acetate, lupanol 3-O-digluco- side and lepitidin glycoside.

Stigmasterol and lipoid fraction of the plant exhibited estrogen mimetic effects.

Alcoholic extract of roots and leaves show antibacterial activity against Gram-positive and Gram-negative bacteria.

Intravenous administration of aqueous extract of stems has a pronounced and hypotensive action in anaesthetized dogs.

Dosage: Root—3-6 g powder. (CCRAS.)... leptadenia reticulata

Spreng.

Family: Labiatae; Laminceae.

Habitat: Throughout India in cultivated fields, wastelands, roadsides.

English: White Dead Nettle.

Ayurvedic: Dronpushpi, Phalepush- paa, Kutambaka.

Siddha/Tamil: Thumbai.

Folk: Guumaa, Halkusa (smaller var.), Tumbaa.

Action: Carminative, antihis- taminic, antipyretic, febrifuge, antiseptic. Used in jaundice, anorexia, dyspepsia, fever, helminthic manifestation, respiratory and skin diseases.

Flowers—given with honey for coughs and colds to children. Leaves— juice is used as an external application for psoriasis, chronic skin eruptions and painful swellings.

An alcoholic extract of leaves shows antibacterial activity.

The plant gave oleanolic acid, urso- lic acid and beta-sitosterol. The root contains a triterpenoid, leucolactone, and the sterols, sitosterol, stigmasterol and campesterol.... leucas aspera

Pongamia pinnata

Papilionaceae

San: Karanj;

Hin: Karanja, Dittouri;

Ben: Dehar karanja;

Mal: Ungu, Pongu; Guj, Mar, Pun: Karanj;

Kan: Hongae;

Tel: Kangu;

Tam: Puggam; Ass: Karchaw; Ori: Koranjo

Importance: Indian beech, Pongam oil tree or Hongay oil tree is a handsome flowering tree with drooping branches, having shining green leaves laden with lilac or pinkish white flowers. The whole plant and the seed oil are used in ayurvedic formulations as effective remedy for all skin diseases like scabies, eczema, leprosy and ulcers. The roots are good for cleaning teeth, strengthening gums and in gonorrhoea and scrofulous enlargement. The bark is useful in haemorhoids, beriberi, ophthalmopathy and vaginopathy. Leaves are good for flatulence, dyspepsia, diarrhoea, leprosy, gonorrhoea, cough, rheumatalgia, piles and oedema. Flowers are given in diabetes. Fruits overcomes urinary disease and piles. The seeds are used in inflammations, otalgia, lumbago, pectoral diseases, chronic fevers, hydrocele, haemorrhoids and anaemia. The seed oil is recommended for ophthalmia, haemorrhoids, herpes and lumbagoThe seed oil is also valued for its industrial uses. The seed cake is suggested as a cheap cattle feed. The plant enters into the composition of ayurvedic preparations like nagaradi tailam, varanadi kasayam, varanadi ghrtam and karanjadi churna.

It is a host plant for the lac insect. It is grown as a shade tree. The wood is moderately hard and used as fuel and also for making agricultural implements and cart- wheels.

Distribution: The plant is distributed throughout India from the central or eastern Himalaya to Kanyakumari, especially along the banks of streams and rivers or beach forests and is often grown as an avenue tree. It is distributed in Sri Lanka, Burma, Malaya, Australia and Polynesia.

Botany: Pongamia pinnata (Linn.) Pierre syn. P. glabra Vent., Derris indica (Lam.) Bennet, Cystisus pinnatus Lam. comes under family Papilionaceae. P. pinnata is a moderate sized, semi -evergreen tree growing upto 18m or more high, with a short bole, spreading crown and greyish green or brown bark. Leaves imparipinnate, alternate, leaflets 5-7, ovate and opposite. Flowers lilac or pinkish white and fragrant in axillary recemes. Calyx cup-shaped, shortly 4-5 toothed, corolla papilionaceous. Stamens 10 and monadelphous, ovary subsessile, 2-ovuled with incurved, glabrous style ending in a capitate stigma. Pod compressed, woody, indehiscent, yellowish grey when ripe varying in size and shape, elliptic to obliquely oblong, 4.0-7.5cm long and 1.7-3.2cm broad with a short curved beak. Seeds usually 1, elliptic or reniform, wrinkled with reddish brown, leathery testa.

Agrotechnology: The plant comes up well in tropical areas with warm humid climate and well distributed rainfall. Though it grows in almost all types of soils, silty soils on river banks are most ideal. It is tolerant to drought and salinity. The tree is used for afforestation, especially in watersheds in the drier parts of the country. It is propagated by seeds and vegetatively by rootsuckers. Seed setting is usually in November. Seeds are soaked in water for few hours before sowing. Raised seed beds of convenient size are prepared, well rotten cattle manure is applied at 1kg/m2 and seeds are uniformly broadcasted. The seeds are covered with a thin layer of sand and irrigated. One month old seedlings can be transplanted into polybags, which after one month can be planted in the field. Pits of size 50cm cube are dug at a spacing of 4-5m, filled with top soil and manure and planted. Organic manure are applied annually. Regular weeding and irrigation are required for initial establishment. The trees flower and set fruits in 5 years. The harvest season extends from November- June. Pods are collected and seeds are removed by hand. Seed, leaves, bark and root are used for medicinal purposes. Bark can be collected after 10 years. No serious pests and diseases are reported in this crop.

Properties and activity: The plant is rich in flavonoids and related compounds. Seeds and seed oil, flowers and stem bark yield karanjin, pongapin, pongaglabrone, kanugin, desmethoxykanugin and pinnatin. Seed and its oil also contain kanjone, isolonchocarpin, karanjachromene, isopongachromene, glabrin, glabrachalcone, glabrachromene, isopongaflavone, pongol, 2’- methoxy-furano 2”,3”:7,8 -flavone and phospholipids. Stem-bark gives pongachromene, pongaflavone, tetra-O-methylfisetin, glabra I and II, lanceolatin B, gamatin, 5-methoxy- furano 2”,3”:7,8 -flavone, 5-methoxy-3’,4’-methelenedioxyfurano 2”,3”:7,8 -flavone and - sitosterol. Heartwood yields chromenochalcones and flavones. Flowers are reported to contain kanjone, gamatin, glabra saponin, kaempferol, -sitosterol, quercetin glycocides, pongaglabol, isopongaglabol, 6-methoxy isopongaglabol, lanceolatin B, 5-methoxy-3’,4’- methelenedioxyfurano 8,7:4”,5” -flavone, fisetin tetramethyl ether, isolonchocarpin, ovalichromene B, pongamol, ovalitenon, two triterpenes- cycloart-23-ene,3 ,25 diol and friedelin and a dipeptide aurantinamide acetate.

Roots and leaves give kanugin, desmethoxykanugin and pinnatin. Roots also yield a flavonol methyl ether-tetra-O-methyl fisetin. The leaves contain triterpenoids, glabrachromenes I and II, 3’-methoxypongapin and 4’-methoxyfurano 2”,3”:7,8 -flavone also. The gum reported to yield polysaccharides (Thakur et al, 1989; Husain et al, 1992).

Seeds, seed oil and leaves are carminative, antiseptic, anthelmintic and antirheumatic. Leaves are digestive, laxative, antidiarrhoeal, bechic, antigonorrheic and antileprotic. Seeds are haematinic, bitter and acrid. Seed oil is styptic and depurative. Karanjin is the principle responsible for the curative properties of the oil. Bark is sweet, anthelmintic and elexteric.... indian beech

Withania somnifera

Solanceae

San: Aswagandha, Varahakarni

Hin: Asgandh, Punir Mal: Amukkuram

Tam: Amukkira

Tel: Vajigandha

Mar: Askandha

Guj: Ghoda

Kan: Viremaddinagaddi

Importance: Indian ginseng or Winter cherry is an erect branching perennial undershrub which is considered to be one of the best rejuvenating agents in Ayurveda. Its roots, leaves and seeds are used in Ayurvedic and Unani medicines, to combat diseases ranging from tuberculosis to arthritis. The pharmacological activity of the plant is attributed to the presence of several alkaloids and withaniols. Roots are prescribed in medicines for hiccup, several female disorders, bronchitis, rheumatism, dropsy, stomach and lung inflammations and skin diseases. Its roots and paste of green leaves are used to relieve joint pains and inflammation. It is also an ingredient of medicaments prescribed for curing disability and sexual weakness in male. Leaves are used in eye diseases. Seeds are diuretic. It is a constituent of the herbal drug ‘Lactare’ which is a galactagogue.

Aswagandha was observed to increase cell-mediated immunity, prevent stress induced changes in adrenal function and enhance protein synthesis. Milk fortified with it increases total proteins and body weight. It is a well known rejuvenating agent capable of imparting long life, youthful vigour and intellectual power. It improves physical strength and is prescribed in all cases of general debility. Aswagandha powder (6-12g) twice a day along with honey and ghee is advised for tuberculosis in Sushruta Samhita. It also provides sound sleep (Prakash, 1997).

Distribution: Aswagandha is believed to have oriental origin. It is found wild in the forests of Mandsaur and Bastar in Mandhya Pradesh, the foot hills of Punjab, Himachal Pradesh, Uttar Pradesh and western Himalayas in India. It is also found wild in the Mediterranean region in North America. In India it is cultivated in Madhya Pradesh, Rajastan and other drier parts of the country.

Botany: Aswagandha belongs to the genus Withania and family Solanaceae. Two species, viz, W. coagulans Dunal and W. somnifera Dunal are found in India. W. coagulans is a rigid grey under shrub of 60-120cm high. W. somnifera is erect, evergreen, tomentose shrub, 30-75cm in height. Roots are stout, fleshy, cylindrical, 1-2cm in diameter and whitish brown in colour. Leaves are simple, ovate, glabrous and opposite. Flowers are bisexual, inconspicuous, greenish or dull yellow in colour born on axillary umbellate cymes, comprising 5 sepals, petals and stamens each; the two celled ovary has a single style and a bilobed stigma. The petals are united and tubular. The stamens are attached to the corolla tube and bear erect anthers which form a close column or cone around the style. Pollen production is poor. The fruit is a small berry, globose, orange red when mature and is enclosed in persistent calyx. The seeds are small, flat, yellow and reniform in shape and very light in weight. The chromosome number 2n = 48.

The cultivated plants have sizable differences from the wild forms not only in their morphological characters but also in the therapeutical action, though the alkaloids present are the same in both (Kaul, 1957). Some botanists, therefore, described the cultivated plant distinct from wild taxa and have coined a new name W. aswagandha (Kaul, 1957) which is contested by Atal and Schwarting (1961).

Agrotechnology: Asgandh is a tropical crop growing well under dry climate. The areas receiving 600 to 750mm rainfall is best suited to this crop. Rainy season crop requires relatively dry season and the roots are fully developed when 1-2 late winter rains are received. Sandy loam or light red soils having a pH of 7.5- 8.0 with good drainage are suitable for its cultivation. It is usually cultivated on poor and marginal soils. Withania is propagated through seeds. It is a late kharif crop and planting is done in August. Seeds are either broadcast-sown or seedlings are raised in nursery and then transplanted. Seed rate is 10-12 kg/ha for broadcasting and 5kg/ha for transplanting. In direct sown crop plants are thinned and gap filling is done 25-30 days after sowing. Seeds should be treated with Dithane M-45 at 3g/kg of seeds before sowing. Seeds are sown in the nursery just before the onset of rainy season and covered with light soil. Seeds germinate in 6-7 days. When seedlings are six weeks old they are transplanted at 60cm in furrows taken 60cm apart. The crop is mainly grown as a rainfed crop on residual fertility and no manure or fertilizers are applied to this crop generally. However, application of organic manure is beneficial for realizing better yields. It is not a fertilizer responsive crop. One hand weeding 25-30 days after sowing helps to control weeds effectively. No serious pest is reported in this crop. Diseases like seedling rot and blight are observed. Seedling mortality becomes serious under high temperature and humid conditions. The disease can be minimized by use of disease free seeds and treatment with thiram or deltan at 3-4g/kg seed before sowing. Further, use of crop rotation, timely sowing and keeping field well drained also protect the crop. Spraying with 0.3% fytolan, dithane Z-78 or dithane M-45 will help controlling the disease incidence. Spraying is repeated at 15 days interval if the disease persists. Aswagandha is a crop of 150-170 days duration. The maturity of the crop is judged by the drying of the leaves and reddening of berries. Harvesting usually starts from January and continues till March. Roots, leaves and seeds are the economical parts. The entire plant is uprooted for roots, which are separated from the aerial parts. The berries are plucked from dried plants and are threshed to obtain the seeds. The yield is 400-500kg of dry roots and 50-75kg seeds per hectare.

Post harvest technology: The roots are separated from the plant by cutting the stem 1-2cm above the crown.

Roots are then cut into small pieces of 7-10cm to facilitate drying. Occasionally, the roots are dried as a whole. The dried roots are cleaned, trimmed, graded, packed and marketed. Roots are carefully hand sorted into the following four grades.

Grade A: Root pieces 7cm long, 1-1.5cm diameter, brittle, solid, and pure white from outside.

Grade B: Root pieces 5cm long, 1cm diameter, brittle, solid and white from outside.

Grade C: Root pieces 3-4cm long, less than 1cm diameter and solid. Lower grade: Root pieces smaller, hollow and yellowish from outside.

Properties and activity: Aswagandha roots contain alkaloids, starch, reducing sugar, hentriacontane, glycosides, dulcital, withaniol acid and a neutral compound. Wide variation (0.13-0.31%) is observed in alkaloid content. Majumdar (1955) isolated 8 amorphous bases such as withanine, somniferine, somniferinine, somnine, withananine, withananinine, pseudowithanine and withasomnine. Other alkaloids reported are nicotine, tropine, pseudotropine, 3, -tigloyloxytropane, choline, cuscudohygrine, anaferine, anahygrine and others. Free aminoacids in the roots include aspartic acid, glycine, tyrosine, alanine, proline, tryptophan, glutamic acid and cystine. Leaves contain 12 withanolides, alkaloids, glycosides, glucose and free amino acids. Berries contain a milk coagulating enzyme, two esterases, free amino acids, fatty oil, essential oil and alkaloids. Methods for alkaloid’s analysis in Asgandh roots have also been reported (Majumdar, 1955; Mishra, 1989; Maheshwari, 1989). Withania roots are astringent, bitter, acrid, somniferous, thermogenic, stimulant, aphrodisiac, diuretic and tonic. Leaf is antibiotic, antitumourous, antihepatotoxic and antiinflammatory. Seed is milk coagulating, hypnotic and diuretic.... indian ginseng

Plumbago spp.

Plumbaginaceae

The genus Plumbago belonging to the family Plumbaginaceae is a popular and medicinally very important group of medicinal plants. Three species, namely P. rosea, P. zeylanica and P. auriculata have been identified. Among these P. rosea and P. zeylanica are important ones.

Plumbago, in general is an esteemed remedy for leucoderma and other skin diseases. The synonyms of fire like agnih, vahnih, etc. are attributed to this drug to indicate the very burning action of the root, causing blisters on the skin (daranah). The drug is used only after adequate curing and purification. Root is the officinal part and it enters into the composition of preparations like Citrakasavam, Dasamularista, Gulgulutiktaka kasaya, Yogarajachurna, etc.

1. P. rosea Linn. syn. P. indica Linn.

Eng: Rosy-flowered Leadwort; San: Citrakah, Dhahanah;

Hin: Lalcitra, Raktacitra;

Ben: Lalchita;

Mal: Kotuveli, Chettikkoduveli, Chuvannakotuveli;

Tam: Chenkotuveli, Cittiramulam;

Kan: Kempacitramula;

Tel: Yerracitramulam

Rosy-flowered leadwort or Fire plant is a native of Coromandel Coast. It is found throughout India, in moist situations as well as cultivated. The roots are useful in dyspepsia, colic, inflammations, cough, bronchitis, helmenthiasis, haemorrhoids, elephantiasis, chronic and intermittent fever, leprosy, leucoderma, ringworm, scabies, hepatosplenomegaly, amenorrhoea, odontalgia, vitiated conditions of vata, kapha and anaemia. It is a pretty subscandent perennial shrub with semi -woody striate stems and flexible branches. Leaves are simple, alternate oblong, short cuneate at the base passing into a very short amplexicaul, exauriculate, and reddish petiole. Flowers are bright red, arranged in long terminal spikes. The calyx ribs are covered with stipitate, bifarious and subsessile gland. Corolla tube is slender and four times as long as the calyx. The stout roots are cylindrical, irregularly bent, light yellowish brown with smooth surface having short transverse shallow fissures at the regions of the bents. A light yellowish juice excudes from the cut surface. A healthy plant may produce 18-20 stout roots (Warrier et al, 1995).

The chemical constituents include plumbagin and sitosterol glucoside. Clinical trials have demonstrated that plumbagin oil from P. indica is useful in common wart (Satyavati et al, 1987). The roots are acrid, astringent, thermogenic, anthelmintic, constipating, expectorant, antiinflammmatory, abortifacient, alterant, anti-periodic, carminative, digestive, sudorific, narcotic, gastric, nervous stimulant and rejuvenating. Root is a powerful sialogogue and vesicant.

2. P. zeylanica Linn.

Eng:White flowered Leadwort; San:Chitraka;

Hin, Ben:Chitarak, Chitra; Mal:Vellakotuveli

Tam: Sittragam, Chittiramoolam;

Kan: Vahini; Mar: Chitraka;

Tel: Chitramulam

White flowered Leadwort or Chitarak is found wild in peninsular India and mostly in West Bengal. Root is used externally in leprosy and other skin diseases or obstinate character, aphthae, abscesses, influenza, piles and anasarca. Juice is used externally in scabies and ulcers. One of the important preparations of Chitrak is “Yograjguggal”, prescribed for arthritis, rheumatism, etc. The other well known preparations are “Chitrak Adivati” and “ Chitraka Haritaki”. In Unani system it is an ingredient of “Aqaruva-i- Kabir”, “Hab Ashkhar”, “Ma’jun Baladur”, “Ma’jun Raig Mahi”, etc. It is a branched undershrub. Roots are long and tuberous. Stem is striate. Leaves are simple, alternate, short petioled, ovate or ovate-oblong, acute with entire or wavy margin, 7x3.8cm and glabrous. Flowers are white, arranged in terminal spikes. Calyx is tubular, glandular-hairy. Corolla tube is slender; limb rotate and 5 lobbed. Stamens are 5 on a disc. Style is slender with 5 stigmatic branches. Fruit is membranous capsule enclosed within the persistent calyx.

The roots of P. zeylanica have been exhaustively studied and naphthaquinones have been isolated, namely, plumbagin, 3-chlroplumbagin, droserone (Sidhu et al, 1971; Padhye et al, 1973), 3,3’-biplumbagin(Chitranone), zeylanone and iso-zeylanone and a coumarin, elliptinone (Sankaram et al, 1976, 1979). It also contains 1,2(3)-tetrahydro-3,3’-biplumbagin and plumbazeylanone. The leaf is antirheumatic. Root is appetiser, sudorific, relieves pain, vasicant, diuretic, caustic, antidiarrhoeal and expellent of phlegmatic tumours. Root is uterine stimulant. Root and fruits have antiimplantation activity. Plumbagin induces antiimplantation, has abortifacient and antiovulatory activity and causes selective testicular lesions in dogs. It is also a mitotic inhibitor. In lower concentration it behaves like a spindle, poison but in higher concentration it exhibits radiomimetic, nucleotoxic and cyclotoxic effects. It also has antibacterial, antifungal and anticoagulant activities and shows antagonism to amphetamine hyperactivity in mice.

3. P. auriculata Lam. syn. P. capensis

Eng: Blue flowered Leadwort;

Mal: Neelakotuveli

The blue flowered Leadwort is often grown in gardens throughout India (Moos, 1976; Chunekar, 1982; Sharma, 1983). It is a native of Cape Province in South Africa. It is a constituent of many Ayurvedic drugs (KAU, 1991). The plant is a subshrub growing to a height of 1-1.5m. Leaves are elliptic to obovate, 3-4 x 1.5-2cm. Inflorescence is a raceme of length 3-4cm. Corolla is blue to violet. Stamens are 5 in number. Flowers and fruits may be upto 12 in number (Matthew, 1995).

Agrotechnology: The plant is grown in tropical to subtropical ecosystems. Warm humid tropical climate is most suited. They come up well in almost all types of deep and well drained soils. It is propagated vegetatively by stem cuttings. Three stem cuttings of size 15cm long are planted in polybags of size 14x10cm. IAA and IBA treatments will improve rooting of cuttings. The land is to be ploughed well. About 4 tonnes of FYM are to be applied, mixed thoroughly and seed bed of size 50cm breadth, 1.5cm height and convenient length are to be prepared. On these beds pits are taken at a distance of 25cm and the rooted plants are transplanted from the polybags. Regular irrigation and weeding are to be carried out. In the second year with the onset of monsoon, seedbeds are again refreshed after adding about 4 tonnes of FYM. At the end of second year tubers are collected. Care should be taken to wear gloves, else the chemical plumbagin present in the roots will cause burning sensation. The collected tubers are washed, tied into bundles and marketed. Plumbago yields about 7-10t tubers/ha with good management (Prasad et al, 1997).... leadwort

(L.) Sw.

Synonym: L. pinnatifidum Sw.

Family: Schizaeaceae.

Habitat: Throughout India; up to an elevation of 1,500 m in the Himalayas.

Folk: Vallipana (Malyalam); Bhuuta-bhairavi (Bengal), Bhuuta- raaj; Kalzhaa (Bihar). Rudrajataa is a doubtful synonym.

Action: Plant—expectorant. Root— used in external applications for rheumatism, sprains, cut wounds, eczema, scabies, carbuncles. A decoction in drunk in gastric attacks.

The acetone extract of fresh leaves exhibits antifungal activity. The fern contains a methyl ester of gibberellin.

The plant contains lygodinolide, dryocrassol, tectoquinone, kaempfer- ol, beta-sitosterol and stigmasterol. The root contains quercetin.

Alcoholic extract of the plant exhibited potent antifertility activity.

L. japonicum Sw., found in North India from Kashmir to Sikkim and Bhutan, and in Western mountains of South India, is used as an expectorant in China.... lygodium flexuosum

Linn.

Family: Papilionaceae; Fabaceae.

Habitat: Punjab, Uttar Pradesh, Gujarat, Maharashtra, Tamil Nadu, West Bengal, as a farm crop.

English: Alfalfa, Lucerne.

Ayurvedic: Alfalfa, Vilaayati- gawuth, Lasunghaas, Lusan.

Unani: Barsem.

Action: Anticholesterolemic, rich in essential enzymes, minerals and vitamins; a preventive of high blood pressure, diabetes, peptic ulcer.

Alfalfa tea is used to strengthen the digestive system. Sprouts (of seeds) are used by diabetics.

The herb contains carotinoids (including lutein), triterpene saponins, isoflavonoids coumarins, triterpenes (including sitgmasterol, spinasterol); also cyanogenic glycosides (corresponding to less than 80 mg HCN/ 100 g); pro-vitamins A, B6, B12, D, K, E and P; calcium, phosphorus, iron, potassium, magnesium, choline, sodium, silicon and essential enzymes.

The seeds contain 33.2% protein and 4.4% mineral matter; saponins with the aglycones, soyasapogenol B and E and polymines, diaminopropane and norspermine. Two storage globulins, alfin and medicagin are found in the seeds.

The flowers contain flavonoids, kaempferol, quercetin, myricetin and laricytrin. The fruits contain beta- amyrin, alpha- and beta-spinasterol, beta-sitosterol, stigmasterol, myrselli- nol, scopoletin and esculetin.

The saponin, medicagenic acid, is found in leaves and roots (leaves 1.49%, roots 2.43% of dry matter).

Alfalfa seed extracts prevented hy- percholesterolemia, triglyceridaemia and atherogenesis in cholesterol-fed rabbits and cynomologus monkeys. The saponins in the extract reduce intestinal absorption of cholesterol in rabbits.

Human trials have indicated the use of the herb in menopause. (Sharon M. Herr.)... medicago sativa

(Burm.) B. L. Robinson.

Synonym: M. micrantha Kunth. M. scandans Hook. f. non-Willd.

Family: Asteraceae; Compositae.

Habitat: West Bengal, eastern Assam, as a weed in tea gardens; sal and other forests and waste lands. Distributed in tropical America, Africa and Asia.

Folk: Mikaaniaa.

Action: Root—anti-inflammatory, hepatoprotective, adaptogenic.

Stigmasterol, beta-sitosterol and sesquiterpene dilactones, mikanolide, dihydromikanolide, deoxymikanolide and scandenolide have been isolated from the weed.

The root extract exhibited anti-inflammatory activity; reduced carra- geenan-induced paw oedema in experimental rats.

The methanolic extract of the root showed CNS deperssant action. It showed reduction in spontaneous motility, hypothermia, potentiation of pentobarbitone sleeping time, analgesia, suppression of aggressive behaviour and antagonism to amphetamine toxicity on experimental animals.

The methanolic extract of the root exhibited adaptogenic activity against a variety of stress-induced effects in albino rats.

The chemoprotective, anticarcino- genic and hepatoprotective effect of the methanolic extract of the root were also evaluated in animal studies. Chemical carcinogens were reduced in the liver of rats treated with the plant extract. The root extract induced recovery from carbon tetrachloride-induced damage to liver tissues in mice.... mikania cordata

(Blume) DC.

O. stolinifera Wall. ex

Family: Apiaceae; Umbelliferae.

Habitat: Marshy places and river banks in North India from Kashmir to Assam.

Folk: Jateraa (Meghalaya); Pan- turasi (Bengal).

Action: The plant extract showed strong antimutagenic and antitu- mour activity.

From the herb, beta-sitosteryl gluco- side, stigmasteryl glucoside, isorham- netin and hyperin were isolated. The fruit yield 1.5% of an essential oil, containing phellandrene and myristicin.

Linalool (70.0%) was determined in the flower oil.

Evening Primrose is equated with Oenothera biennis L. (native to North America). The oil from seeds, known as Evening Primrose oil, contains about 70% cis-linolenic acid and about 9% cis-gamma-linolenic acid (GLA). Evening Primrose oil is one of the most widely prescribed plant-derived medicines in the world. Sold under the trade name Epogam, it is recognized by the governments of Great Britain, Germany, Denmark, Ireland, Spain, Greece, South Africa, Australia and New Zealand as a treatment for eczema. A combination, known as Efamol Marine, used for eczema, contains 80% Evening Primrose Oil and 20% fish oil.

Evening Primrose Oil has become a frontline treatment in Great Britain for initial treatment of cyclical breast pain and fibrocystic breast disease.... oenanthe javanica

(Linn.) Karst.

Synonym: O. esculentum R. Br. Sarcostemma secamone (Linn.) Bennet.

Family: Asclepiadaceae.

Habitat: Throughout the plains and lower hills of India, including paddy fields and hedges rear semi-marshy places.

Ayurvedic: Dugdhikaa, Duudhila- taa, Duudhialataa .

Folk: Usipallai (Tamil Nadu); Dugdhani (Maharashtra); Jala- dudhi (Gujarat).

Action: Herb—antiseptic, depura- tive, galactogogue; decoction used as a gargle in stomatitis and sore throat. Latex—vulnerary. Fresh root—prescribed in jaundice.

A pregnane ester oligoglycoside (oxysine), a pregnane triglycoside (es- culentin), a cardenolide (oxyline), two more cardenolides, oxystelmoside and oxystelmine, have been isolated from the roots.

Dosage: Plant—10-20 ml juice; 50100 ml decoction. (CCRAS.)

Family: Rubiaceae.

Habitat: Central and Eastern Himlayas extending to Assam, West Bengal, Bihar, Orissa.

Ayurvedic: Talanili, Gand- haprasaarini. (Prasaarini is also equated with Raaja-balaa, Sida veronicaefolia.).

Siddha/Tamil: Talanili, Mudiyar Kundal.

Folk: Gandhabhaaduli (Bengali).

Action: Leaf—carminative, antiinflammatory, astringent, spasmolytic, antidiarrhoeal, diuretic, an- tilithic. Root— anti-inflammatory. Used for rheumatic affections, piles, inflammations of the liver, spleen and chest.

Aerial parts contain epi-friedelanol, embelin and beta-sitosterol. Leaves and stems gave iridoid glycosides, si- tosterol, stigmasterol, campesterol, ur- solic acid, hentriacontane, hentriacon- tanol, ceryl alcohol, palmitic acid and methyl mercaptan. The foetid smell is due to methyl mercaptan.

All parts of the plant have been employed for rheumatic affections.

A related species, Paederia scandens (Lour.) Merill, synonym P. tomentosa Blume, is known as Gandha Prasaarini. The iridoid glucosides, paedero- side, paederosidic acid and scandosides have been isolated from the plant.... oxystelma secamone

sensu Ait. & auct.

Synonym: Vigna trilobata (Linn.) Verdcourt.

Family: Papilionaceae; Fabaceae.

Habitat: Throughout India, up to an elevation of 2,100 m in the northeast.

English: Wild Gram.

Ayurvedic: Mudgaparni, Kaaka- parni, Suuryaparni, Alpikaa, Sahaa, Kaakamudraa, Maarjaargandhikaa. (P. adenanthus G. F. W., and Vigna pilosa Baker are used as Mudgaparni in the South. Dried aerial parts, root and seed are used.)

Siddha/Tamil: Kaatupayaru.

Folk: Jangali Moong, Mugavan.

Action: Whole plant—febrifuge. Leaves—sedative, cooling, an- tibilious. A decoction is used in intermittent fever. The plant contains friedelin, epifriedelin, stigmasterol and tannins. The bean contains methionine, tryptophan and tyrosine; also strepogenin, uridine, diphosphate-galacturonic acid. The seed protein contained lysine, valine, leucine and phenyl- alanine.

Dosage: Seed—50-100 ml. decoction (CCRAS.); whole plant— 3-5 g. (API, Vol. IV.)... phaseolus trilobus

Catharanthus roseus

Apocynaceae

San: Nityakalyani;

Hin: Sadabahar, Baramassi;

Mal: Ushamalari, Nityakalyani

Tel: Billaganeru;

Tam: Sudukattu mallikai; Pun: Rattanjot;

Kan: Kasikanigale, Nitya Mallige

Importance: Periwinkle or Vinca is an erect handsome herbaceous perennial plant which is a chief source of patented cancer and hypotensive drugs. It is one of the very few medicinal plants which has a long history of uses as diuretic, antidysenteric, haemorrhagic and antiseptic. It is known for use in the treatment of diabetes in Jamaica and India. The alkaloids vinblastine and vincristine present in the leaves are recognized as anticancerous drugs. Vinblastine in the form of vinblastin sulphate is available in market under the trade name “VELBE” and Vincristine sulphate as “ONCOVIN” (Eli Lilly). Vinblastine is used in combination with other anticancer agents for the treatment of lymphocytic lymphoma, Hodgkin’s disease, testicular carcinoma and choriocarcinoma. Vincristine is used in acute leukemia, lymphosarcoma and Wilm’s tumour. Its roots are a major source of the alkaloids, raubasine (ajmalicine), reserpine and serpentine used in the preparation of antifibrillic and hypertension-relieving drugs. It is useful in the treatment of choriocarcinoma and Hodgkin’s disease-a cancer affecting lymph glands, spleen and liver. Its leaves are used for curing diabetes, menorrhagia and wasp stings. Root is tonic, stomachic, hypotensive, sedative and tranquilliser (Narayana and Dimri,1990).

Distribution: The plant is a native of Madagascar and hence the name Madagascar Periwinkle. It is distributed in West Indies, Mozambique, South Vi etnam, Sri Lanka , Philippines and Australia. It is well adapted to diverse agroclimatic situations prevalent in India and is commercially cultivated in the states of Tamil Nadu, Karnataka, Gujarat, Madhya Pradesh and Assam. USA, Hungary, West Germany, Italy, Netherlands and UK are the major consumers.

Botany: Catharanthus roseus (Linn.) G.Don.

syn. Vinca rosea Linn. belongs to the family Apocynaceae. It is an erect highly branched lactiferous perennial herb growing up to a height of one metre. Leaves are oblong or ovate, opposite, short-petioled, smooth with entire margin. Flowers are borne on axils in pairs. There are three flower colour types , pink, pink-eyed and white. Calyx with 5 sepal, green, linear, subulate. Corolla tube is cylindrical with 5 petals, rose-purple or white with rose-purple spot in the centre; throat of corolla tube hairy, forming a corona-like structure. The anthers are epipetalous borne on short filaments inside the bulging distal end of corolla tube converging conically above the stigma. Two characteristic secretary systems, namely a column like nectarium on both sides of pistil and a secretory cringulam circling the papillate stigma with a presumed role in pollination - fecundation process are present. Ovary bicarpellary, basally distinct with fused common style and stigma. The dehiscent fruit consists of a pair of follicles each measuring about 25 mm in length and 2.3 mm in diameter, containing up to thirty linearly arranged seeds with a thin black tegumen. On maturity, the follicles split along the length dehiscing the seeds.

Agrotechnology: Periwinkle grows well under tropical and subtropical climate. A well distributed rainfall of 1000 mm or more is ideal. In north India the low winter temperatures adversely affect the crop growth. It can grow on any type of soil ,except those which are highly saline, alkaline or waterlogged. Light soils, rich in humus are preferable for large scale cultivation since harvesting of the roots become easy.

Catharanthus is propagated by seeds. Fresh seeds should be used since they are short-viable. Seeds can be either sown directly in the field or in a nursery and then transplanted. Seed rate is 2.5 kg/ha for direct sowing and the seeds are drilled in rows 45 cm apart or broadcasted. For transplanted crop the seed rate is 500gm/ha. Seeds are sown in nursery and transplanted at 45x 30cm spacing after 60 days when the seedlings attain a height of 15-20cm Nursery is prepared two months in advance so that transplanting coincides with the on set of monsoons. Application of FYM at the rate of 15 t/ha is recommended. An alternate approach is to grow leguminous green manure crops and incorporate the same into the soil at flowering stage. Fertilisers are recommended at 80:40:40 kg N:P2O5:K2O/ha for irrigated crop and 60:30:30 kg/ha for rainfed crop. N is applied in three equal splits at planting and at 45 and 90 days after planting. 4 or 5 irrigations will be needed to optimise yield when rainfall is restricted. Fortnightly irrigations support good crop growth when the crop is grown exclusively as an irrigated crop. Weeding is carried out before each topdressing. Alternatively, use of fluchloraline at 0.75 kg a.i. /ha pre-plant or alachlor at 1.0 kg a.i. per ha as pre-emergence to weeds provides effective control of a wide range of weeds in periwinkle crop. Detopping of plants by 2cm at 50% flowering stage improves root yield and alkaloid contents. No major pests, other than Oleander hawk moth, have been reported in this crop. Fungal diseases like twig blight (top rot or dieback) caused by Phytophthora nicotianae., Pythium debaryanum, P. butleri and P. aphanidermatum; leaf spot due to Alternaria tenuissima, A. alternata, Rhizoctonia solani and Ophiobolus catharanthicola and foot-rot and wilt by Sclerotium rolfsii and Fusarium solani have been reported. However, the damage to the crop is not very serious. Three virus diseases causing different types of mosaic symptoms and a phyllody or little leaf disease due to mycoplasma -like organisms have also been reported; the spread of which could be checked by uprooting and destroying the affected plants.

The crop allows 3-4 clippings of foliage beginning from 6 months. The flowering stage is ideal for collection of roots with high alkaloid content. The crop is cut about 7 cm above the ground and dried for stem, leaf and seed. The field is irrigated, ploughed and roots are collected. The average yields of leaf, stem and root are 3.6, 1.5and 1.5 t/ha, respectively under irrigated conditions and 2.0, 1.0 and 0.75t/ha, respectively under rainfed conditions on air dry basis. The harvested stem and roots loose 80% and 70% of their weight, respectively. The crop comes up well as an undercrop in eucalyptus plantation in north India. In north western India a two year crop sequence of periwinkle-senna-mustard or periwinkle-senna- coriander are recommended for higher net returns and productivity (Krishnan,1995).

Properties and activity: More than 100 alkaloids and related compounds have so far been isolated and characterised from the plant. The alkaloid contents in different parts show large variations as roots 0.14-1.34%, stem 0.074-0.48%, leaves 0.32-1.16%, flowers 0.005-0.84%, fruits 0.40%, seeds 0.18% and pericarp 1.14% (Krishnan et al, 1983). These alkaloids includes monomeric indole alkaloids, 2-acyl indoles, oxindole, -methylene indolines, dihydroindoles, bisindole and others. Dry leaves contain vinblastine (vincaleucoblastine or VLB) 0.00013-0.00063%, and vincristine (leurocristine or LC) 0.0000003-0.0000153% which have anticancerous activity (Virmani et al, 1978). Other alkaloids reported are vincoside, isovincoside (strictosidine), catharanthine, vindolinine, lochrovicine, vincolidine, ajmalicine (raubasine), reserpine, serpentine, leurosine, lochnerine, tetrahydroalstonine, vindoline, pericalline, perivine, periformyline, perividine, carosine, leurosivine, leurosidine and rovidine. The different alkaloids possessed anticancerous, antidiabetic, diuretic, antihypertensive, antimicrobial, antidysenteric, haemorrhagic, antifibrillic, tonic, stomachic, sedative and tranquillising activities.... periwinkle

(L.) E. Greene.

Synonym: Lippia nodiflora A. Rich.

Family: Verbenaceae.

Habitat: Throughout India, near fresh water bodies.

English: Jalapippali, Shaaradi, Shakulaadani, Matsyagandhaa, Matsyaadani, Laangali, Vashiraa.

Siddha/Tamil: Poduthalai.

Action: Spasmolytic, diuretic, febrifuge.

The plant contains flavone glyco- sides—nodiflorins A and B, lipiflorins A and B, as well as free flavones including 6-hydroxyluteolin, nepetin and nodifloretin along with beta-sitosterol and stigmasterol glucosides.

Dosage: Plant—10-20 ml. juice. (CCRAS.)... phyla nodiflora

C. B. Clarke.

Family: Compositae; Asteraceae.

Habitat: Punjab, Upper Gangetic plains, Gujarat, Rajasthan.

Ayurvedic: Raasnaa, Rasanaa, Raas- nikaa, Rasaa, Yuktaa, Yuktrasaa, Suvahaa, Elaaparni.

Folk: Vaaya-surai (Uttar Pradesh), Raayasan.

Action: Aerial parts—smooth muscle relaxant. Stem—antiinflammatory. Pluchea lanceolata is the source of Raasnaa in Punjab, Uttar Pradesh and Gujarat. Vanda roxburghii is used as Raasnaa in Bengal. Throughout South India, Alpinia galanga is accepted as Raasnaa.

The stem and leaves contain morete- nol, moretenol acetate, neolupenol, oc- tacosanoic, hexacosanoic and tetra- cosanoic acid, tetracosanol, hexaco- sanol, triacontanol, stigmasterol and beta-sitosterol-D-glucoside.

The petroleum extract of the stem and leaves and the chloroform-soluble portion of the methanolic extract exhibited 31.9% and 54.5% antioedema activity, respectively. The triterpenes, moretenol acetate, moretenol and ne- olupenol exhibited 55.2,32,8 and 39.7% anti-inflammatory activity respectively as against ibuprofen as standard exhibiting 65.5% activity.... pluchea lanceolata

Thw.

Family: Annonaceae.

Habitat: Native to Sri Lanka; grown in gardens throughout the warmer parts of India.

English: Mast tree, Fake Asoka tree, False Devadaru, Cemetry tree

Ayurvedic: Devadaari (Devadaaru is equated with Cedrus deodara). (An adulterant to the bark of Saraca asoca.)

Siddha/Tamil: Nettilingam.

Action: Febrifuge. Causes cardiac depression.

The stem bark contains clerodane diterpenes, polyalthialdoic acid and kolavenic acid. The stem and its bark also contain the cytotoxic aporphine alkaloid, liriodenine, besides nor-oli- veroline and oliveroline-beta-N-oxide. Azafluorene alkaloids are also present in the bark and leaves. The leaf exhibits fungitoxic activity.

Polyalthia simiarum Hook. f. & Thoms. (Orissa, Assam, Bengal, Bihar, Eastern Himalaya) is also equated with Fake Ashoka tree. It is known as Boga-khamtou in Assam, Wojarah, Mongai in Orissa and Labshi, Kutti in Nepal.

Polyalthia suberosa Thw. (from Assam to Uttar Pradesh in the North and Kerala in the South) is known as Chamkhirni. The leaves contain alpha-and beta-amyrin, lupeol, beta- sitosterol, stigmasterol and campes- terol. The stems and leaves contain the triterpene, suberosol, which showed anti-HIV replication activity. The stem bark contains alkaloids, oxostepha- nine and lanuginosine, which exhibited antibacterial activity against several Gram-positive and Gram-negative bacteria.... polyalthia longifolia

Lam.

Family: Caryophyllaceae.

Habitat: Throughout the greater part of India, ascending up to 2,100 m in the Himalaya.

Ayurvedic: Parpata (substitute).

Siddha/Tamil: Nilaisedachi.

Folk: Pittapaaparaa (Uttar Pradesh), Rupaaphuli (Gujarat).

Action: Leaves—anti-inflammatory, applied as poultice. Also prescribed in jaundice in the form of pills with molasses. Flowering head, along with stem and leaves—astringent, demulcent. Plant—spermicidal.

The plant gave camelliagenins (bar- rigenol) and stigmasterol.... polycarpaea corymbosa

(Forsk.) Alschers & Schweinf.

Synonym: P. loeflingii Benth. & Hook. f.

Habitat: Throughout the warmer parts of India in fields and waste places.

Folk: Ghima, Suretaa.

Action: Leaves—an infusion of roasted leaves is given for cough following fever, particularly in measles.

Alcoholic extract of the plant exhibits spasmolytic activity. The aerial parts contain tetrahydroxy triterpenes. Presence ofa triterpenoid saponin, and hentriacontane, hentriacontanol, beta- amyrin and its acetate, beta-sitosterol and stigmasterol is also reported.... polycarpon prostratum

Roxb.

Synonym: P. pilosa Linn.

Family: Portulacaceae.

Habitat: Peninsular India, near sea-coasts.

Ayurvedic: Bichhuu-buuti.

Folk: Jangali Gaajar (Gujarat), Sanjivani (Bihar).

Action: Leaves—an infusion is given internally in dysuria; externally applied to erysipelas. The herb shows diuretic, calculolythic, analgesic and antipyretic properties.

The aerial parts contain diterpe- noids, pilosanone A and B. leucorrhoea, dysmenorrhoea, arthritis, cramps, kidney stones, bleeding piles; as a mouth wash in pyrrhoea, gingivitis and sore throat.

Key application: In mild dismenor- rhoeal disorders; as a support for treatment of milder, nonspecific, acute diarrhoea and in light inflammation of the oral and pharyngeal mucosa. (German Commission E.)

The plant gave anthocyanins—cy- anidin and delphinidin. Aerial parts gave tannins (2-10%). The plant also gave choline, betaine, histidine, an essential oil and vitamin E.

The maximum amounts of tannins occur in the root stock (up to 17.5% on dry basis). The ethanolic and aqueous extract of the herb (1 : 5) contain 0.3 to 0.8% of tannin. The tannin fraction exhibited anti-mutagenic effect.

Potentilla fruticosa HK. (temperate Himalaya) is also used like Silverweed.

The flowers and young shoots contain flavonoids, quercetin, terniflorin, tribuloside and (-)-catechin. The plant also contains stigmasterol, beta-sitos- terol and campesterol; (-)-epicatechol gallate, (±)-catechol, (-)-epicatechol, (-)-epigallocatechol and (-)-epigallo- catechol gallate have been isolated from aerial parts.... portulaca tuberosa

D. Don.

Synonym: P. puddum Roxb. ex Brandis. non-Miq.

Family: Rosaceae.

Habitat: The temperate Himalayas from Garhwal to Sikkim, also in Ootacamund.

English: Wild Himalayan Cherry, Bird Cheery.

Ayurvedic: Padmaka, Padma- gandhi, Padmaadyaa, Padmaakha, Padmakaashtha.

Action: Kernel—antilithic. Stem— refrigerant, antipyretic. Tender branches are crushed and soaked in water and taken internally to avert abortion. Oil—similar to that of bitter almond oil.

The plant contains a flavone glu- coside, puddumin-A. The root bark contains beta-sitosterol, stigmasterol, ursolic acid, prunetinoside, glucogen- kwanin and neosakuranin. Seeds contain flavonoid glycosides.

The leaves, twigs, bark and kernels contain a cyanogenetic substance.

Dosage: Heartwood—1-3 g powder. (API, Vol. III.)... prunus cerasoides

Wall.

Synonym: Drypetes roxburghii (Wall.) Hurusawa.Family: Euphoriaceae.

Habitat: Throughout tropical India, wild and cultivated as an avenue tree.English: Child-life tree, Indian Amulet Plant, Spurious Wild Olive.Ayurvedic: Putranjiva, Putrajivaka, Putrajiva, Yashtipushpa, Arth- saadhanaSiddha/Tamil: Karupali Garbhadaa and Garbhakaraa are misleading synonyms.Folk: Jiyaapotaa.

Action: Fruit—powered (deseeded) fruits are used against cough, cold and sprue. Rosaries of hard stones are used for protecting children from infections. (Due to misleading nomenclature, the "conception-promoting" property has been attributed to the drug in folk medicine. Its use is possible in vaginal infections and genitourinary diseases, or skin eruptions during pre-conception stage.)The seed kernel on steam distillation yield 0.5% of a sharp-smelling essential oil of the mustard oil type. The oil contains isopropyl and 2-butyl isothio- cyanates as the main constituents and 2-methyl-butyl isothiocyanate as a minor component. The iso-thiocyanates are produced on enzymic hydrolysis of glycosidic progenitors present in the kernels, viz. glucoputranjivin, gluco- cochlearin and glucojiaputin respectively. An additional glucoside, gluco- cleomin has been identified in the seed kernel, it affords a non-volatile mustard oil, cleomin. A glycosidic pattern similar to that in the seed is reported in the shoots and roots.The fruit pulp contains a large proportion of mannitol and small quantities of saponin glucosides and alkaloids.The seed coat gave putranjivoside, putranoside A, B, C and D, beta- sitosterol and tis beta-D-glucoside.The leaves gave amentoflavone and its derivatives, beta-amyrin and its palmite, polyphenols, putranjiva sa- ponin A,B,C, and D and stigmasterol.The bark contains friedelin, friede- lanol, friedelanone, friedelan-3,7-di- one (putranjivadione), 3-alpha-hydro- xy friedelan- 7-one (roxburgholone), carboxylic acid, putric acid, putran- jivic acid.The essential oil from leaves showed mild antifungal activity against Rhizoctonia solani.

... putranjiva roxburghii

(Roxb.) K. Schum.

Synonym: Bignonia xylocarpa Roxb. Stereospermum xylocarpum (Roxb.) Wt.

Family: Bignoniaceae.

Habitat: Gujarat, Karnataka, Tamil Nadu.

English: Padri tree.

Siddha/Tamil: Vedanguruni, Pathiri.

Folk: Paadiri. Kharsing, Kadashing, Bairsinge (Maharashtra).

Action: Plant—antiseptic. Resin— used for the treatment of skin diseases. Rootbark—bitter, astringent; used as substitute for Stereospermumpersonatum (Hassk.) D. Chatterjee and S. suaveolens DC. (Trumpet-Flower, Yellow Snake tree, also known as Padri).

The leaves gave flavonoids, dinatin and its glycoside. Roots yielded O- acetyl oleanolic acid, stigmasterol and a red pigment, radermachol.... radermachera xylocarpa

Lam.

Family: Rhizophoraceae.

Habitat: The Sunderbans and along the Coromandel Coast and the Andamans.

English: True Mangrove.

Siddha/Tamil: Peykkandal, Kandal, Sorapinnai.

Folk: Kamo (Bengal), Kandal (Maharashtra).

Action: Bark—astringent. Used in the treatment of haemorrhages, haematuria.

The leaves contain 9.1, unripe fruits 12.0, ripe fruits 4.2, twig bark 9-12, and wood 7-14% tannins.

The leaves gave campesterol, cholesterol, 28-isofucosterol, beta-sitosterol, stigmasterol and stigmast-7-en-3 betaol. The plant gave alpha-and beta- amyrins, betulin, lupeol, oleanolic and ursolic acids; gibberellins have also been reported.

Honey collected from the flowers is reported to be poisonous.

R. apiculata Blume, also known as Kandal, is found mixed up with R. mucronata in the tidal marshes of India and the Andamans.... rhizophora mucronata

(L.) DC.

Family: Papilionaceae.

Habitat: All over plains and in the Himalayas up to 1,200 m.

Folk: Raan-ghevaraa (smaller var.) (Maharashtra); Jhinki, Kammervel (Gujarat); Chittavarai (Tamil Nadu).

Action: Leaves—abortifacient. Seeds—bitter, toxic.

The leaves afforded isovitexin and apigenin derivatives.

Aerial parts gave steroidal glyco- sides, along with ergosterol peroxide, stigmasterol and lupeol; bergapten, isopimpinellin, umbelliferone and beta-sitosterol have also been isolated.

The seed coat and pericarp contained gallic and protocatechuic acid, prodelphinmidine and hydroquinone diacetate and C-glycosyl flavones.

The extract of seeds shows agglutinating activity with certain type of human red blood cells.

R. bracteata Benth. ex Baker (upper Gangetic plains) and R. jacobii Chandra & Shetty (Tirunelveli, Tamil Nadu) contain vitexin, isovitexin, orientin, iso-orientin and apigenin derivatives.... rhynchosia minima

(D. Don) Baillon.

Synonym: R. elegans Wall. ex Benth. R. calycina (Roxb.) Briq.

Family: Lamiaceae.

Habitat: Himalaya from Kashmir to Nepal, at 1,200-3,700 m.

Folk: Patkarru; Titpaati, Karanoi, Karui (Kumaon); Kaur, Kauri (Punjab).

Action: Leaves—a decoction is used as a bitter tonic and febrifuge; also as a tonic in contusions. The leaves contain betulin, beta-sitosterol, beta-amyrin, stigmasterol, cetyl alcohol, glucose, fructose, arabinose and palmitic, stearic, oleic, gallic, oxalic and tartaric acids. The leaves and stems contain the diterpenes, calyenone, precalyone and calyone, and a triterpene, moronic acid. Precalyone exhibited antitumour activity against P-388 lymphocytic leukaemia.

Aerial parts exhibited spasmolytic and CNS-depressant activity.... roylea cinerea

Dcne.

Family: Salvadoraceae.

Habitat: The arid regions of Punjab, Rajasthan and western India.

Ayurvedic: Pilu (bigger var.).

Action: Leaf—bechic. Bark— vesicant. Fruit—febrifuge (in low fever), used in enlarged spleen. Oil from seed—applied in rheumatic affections and after child birth.

The fruit contains sterols, beta-sitos- terol and its glucosides and stigmas- terol; benzylisothiocyanate, n-octaco- sanol and tetracosane; flavonoids including quercetin and rutin; thiourea derivatives and phospholipids. Myris- tic, lauric and palmitic acids were obtained from the seed fat.... salvadora oleoides

Spreng. ex DC.

Family: Compositae; Asteraceae.

Habitat: Foot Hills of Eastern Himalayas and in Aka and Laushai Hills.

Folk: Ganga-muula (Assam).

Action: Root—juice is prescribed in gynaecological diseases.

Family: Compositae, Asteraceae.

Habitat: Himalayas from Garhwal to Sikkim at 4,200-5,100 m.

Folk: Phen-kamal, Jogi Paashaa, Hiyun Kauni.

Action: Plant, root—a decoction is prescribed in gynaecological diseases.

The plant afforded beta-sitosterol, 3- stigmastanol, stigmast-7-en-3-ol and ergostan-3,24-diol. The aerial parts of the plant collected from Himalayas gave heptacosane, hentriacontane, no- nacosane, alpha- andbeta-amyrins and their acetates and palmitates, lupeol, its acetate, fructose, glucose and surcose.... saussurea affinis

(Bartram) Small.

Synonym: Sabal serrulata (Michaux) Nichols.

Family: Palmae.

Habitat: Southeastern North America.

English: Sabal, Saw Palmetto.

Action: Ripe fruit—diuretic, urinary antiseptic, antiandrogenic, and antiexudative.

The fruit contains fatty acids, especially capric, caproic, caprylic, lau- ric, myristic, oleic, linoleic, linolenic, stearic and palmitic acids; sterols, principally beta-sitosterol and its 3-gluco- side (and fatty acid derivatives), cam- pesterol and stigmasterol; triglycerides; triterpenes; alkanols; polysaccharides; flavonoids; essential oil and anthranilic acid.

Key application: In urination problems due to benign prostatic hyperplasia stages I and II (German Commission E, ESCOP, WHO.) (The lipophilic extracts of Saw Palmetto berries are used in France and Germany for the treatment of BPH. In a study (1999), shrinkage of the epithelial tissue in the transition zone of the prostate has been recorded. (Expanded Commission E Monographs.) (For Clinical studies, see ESCOP.)

In India, Sabal palmetto Lodd. Ex Roem. & Schult (Sabal or Cabbage Palm) is planted in gardens for ornament. The sweet drupes are eaten as such or cooked for preparing a syrup. Other species of Sabal introduced into Indian gardens are: S. mauritiiformis Griseb. & Wendl., S. mexicana Mart., S. umbraculifera Mart., and S. minor Pers. The leaves of S. mexicana contain cyanidin. The leaves of S. minor contain caffeic, p-coumaric and sinapic acids.... seronoa repens

Miller.

Family: Liliaceae; Smilacaceae.

Habitat: Native to tropical America and the West Indies.

English: Sarsaparilla.

Unani: Ushbaa Maghrabi (Ushbaa Desi is equated with Decalepis hamiltonii.)

Action: Alterative, anti- inflammatory, antipruritic, blood purifier, antiseptic. (It was first introduced in 1563 as a drug for syphilis.)

In Western herbal, Sarsaparilla is equated with Smilax aristolochiaefo- lia (American, Mexican, Vera Cruz or Grey Sarsaparilla); S. medica, S. regelii (Jamaican, Honduras or Brown Sarsaparilla); S.febrifuga (Ecuadorian or Guayaquil Sarsaparilla). Hemides- mus indicus is equated with Indian Sarsaparilla.

Key application: Preparations of sarsaparilla root are used for skin diseases, psoriasis and its sequel, rheumatic complaints, kidney diseases, and as a diaphoretic and diuretic. (The claimed efficacy has not been established clinically.) Included among unapproved herbs by German Commission E.

The roots and rhizomes of sarsaparil- la contain saponins based on aglycones sarsapogenin and smilagenin, the major one being parillin (sarsaponin), with smilasaponin (smilacin) and sar- saparilloside; beta-sitosterol, stigmas- terol and their glucosides. Chief components of saponins (0.5-3%) are sar- saparilloside, along with parillin as a breakdown product. Parillin shows antibiotic activity.

Sarsaparilla root sterols are not anabolic steroids, nor are they converted in vivo to anabolic steroids. Testosterone, till now, has not been detected in any plant including sarsaparilla. Hemidesmus indicus contains none of the saponins or principal constituents found in sarsaparilla. (Natural Medicines Comprehensive Database, 2007.)... smilax aristolochiaefolia

Rauvolfia serpentina

Apocynaceae

San: Sarpagandha

Hin: Chandrabhaga

Mal: Sarpagandhi, Amalpori

Tam: Chivan amelpodi

Kan: Sutranbhi

Tel: Patalagandhi

Introduction: Serpentwood is an erect, evergreen , perennial undershrub whose medicinal use has been known since 3000 years. Its dried root is the economical part which contains a number of alkaloids of which reserpine, rescinnamine, deserpidine, ajamalacine, ajmaline, neoajmalin, serpentine, -yohimbine are pharmacologically important. The root is a sedative and is used to control high blood pressure and certain forms of insanity. In Ayurveda it is also used for the treatment of insomnia, epilepsy, asthma, acute stomach ache and painful delivery. It is used in snake-bite, insect stings, and mental disorders. It is popular as “Madman’s medicine” among tribals. ‘Serpumsil’ tablet for high blood pressure is prepared from Rauvolfia roots. Reserpine is a potent hypotensive and tranquillizer but its prolonged usage stimulates prolactine release and causes breast cancer. The juice of the leaves is used as a remedy for the removal of opacities of the cornea.

Distribution: Rauvolfia serpentina is native to India. Several species of Rauvolfia are observed growing under varying edaphoclimatic conditions in the humid tropics of India, Nepal, Burma, Thailand, Bangladesh, Indonesia , Cambodia, Philippines and Sri Lanka. In India, it is cultivated in the states of Uttar Pradesh, Bihar, Tamil Nadu, Orissa, Kerala, Assam, West Bengal and Madhya Pradesh (Dutta and Virmani, 1964). Thailand is the chief exporter of Rauvolfia alkaloids followed by Zaire, Bangladesh, Sri Lanka, Indonesia and Nepal. In India, it has become an endangered species and hence the Government has prohibited the exploitation of wild growing plants in forest and its export since 1969.

Botany: Plumier in 1703 assigned the name Rauvolfia to the genus in honour of a German physcian -Leonhart Rauvolf of Augsburg. The genus Rauvolfia of Apocynaceae family comprises over 170 species distributed in the tropical and subtropical parts of the world including 5 species native to India. The common species of the genus Rauvolfia and their habitat as reported by Trivedi (1995) are given below.

R. serpentina Benth. ex Kurz.(Indian serpentwood) - India ,Bangladesh, Burma, Sri Lanka, Malaya, Indonesia

R. vomitoria Afz. (African serpentwood) - West Africa, Zaire, Rwanda, Tanzania R. canescens Linn. syn. R. tetraphylla (American serpentwood) - America, India R. mombasina - East Africa , Kenya, Mozambique

R. beddomei - Western ghats and hilly tracts of Kerala

R. densiflora - Maymyo, India

R. microcarpa - Thandaung

R. verticillata syn. R. chinensis - Hemsl

R. peguana - Rangoon-Burma hills

R. caffra - Nigeria, Zaire, South Africa

R. riularis - Nmai valley

R. obscura - Nigeria, Zaire

R. serpentina is an erect perennial shrub generally 15-45 cm high, but growing upto 90cm under cultivation. Roots nearly verticle, tapering up to 15 cm thick at the crown and long giving a serpent-like appearance, occasionally branched or tortuous developing small fibrous roots. Roots greenish-yellow externally and pale yellow inside, extremely bitter in taste. Leaves born in whorls of 3-4 elliptic-lanceolate or obovate, pointed. Flowers numerous borne on terminal or axillary cymose inflorscence. Corolla tubular, 5-lobed, 1-3 cm long, whitish-pink in colour. Stamens 5, epipetalous. Carpels 2, connate, style filiform with large bifid stigma. Fruit is a drupe, obliquely ovoid and purplish black in colour at maturity with stone containing 1-2 ovoid wrinkled seeds. The plant is cross-pollinated, mainly due to the protogynous flowers (Sulochana ,1959).

Agrotechnology: Among the different species of Rauvolfia, R. serpentina is preferred for cultivation because of higher reserpine content in the root. Though it grows in tropical and subtropical areas which are free from frost, tropical humid climate is most ideal. Its common habitats receive an annual rain fall of 1500-3500 mm and the annual mean temperature is 10-38 C. It grows up to an elevation of 1300-1400m from msl. It can be grown in open as well as under partial shade conditions. It grows on a wide range of soils. Medium to deep well drained fertile soils and clay-loam to silt-loam soils rich in organic matter are suitable for its cultivation. It requires slightly acidic to neutral soils for good growth.

The plant can be propagated vegetatively by root cuttings, stem cuttings or root stumps and by seeds. Seed propagation is the best method for raising commercial plantation. Seed germination is very poor and variable from 10-74%. Seeds collected during September to November give good results. It is desirable to use fresh seeds and to sock in 10% sodium chloride solution. Those seeds which sink to the bottom should only be used. Seeds are treated with ceresan or captan before planting in nursery to avoid damping off. Seed rate is 5-6 kg/ha. Nursery beds are prepared in shade, well rotten FYM is applied at 1kg/m2 and seeds are dibbled 6-7cm apart in May-June and irrigated.

Two months old seedlings with 4-6 leaves are transplanted at 45-60 x 30 cm spacing in July -August in the main field. Alternatively, rooted cuttings of 2.5-5cm long roots or 12-20cm long woody stems can also be used for transplanting. Hormone (Seradix) treatment increases rooting. In the main field 10-15 t/ha of FYM is applied basally. Fertilisers are applied at 40:30:30kg N: P2O5 :K2O/ha every year. N is applied in 2-3 splits. Monthly irrigation increases the yield. The nursery and the main field should be kept weed free by frequent weeding and hoeing. In certain regions intercroping of soybean, brinjal, cabbage, okra or chilly is followed in Rauvolfia crop.

Pests like root grubs (Anomala polita), moth (Deilephila nerii), caterpillar (Glyophodes vertumnalis), black bugs and weevils are observed on the crop, but the crop damage is not serious. The common diseases reported are leaf spot (Cercospora rauvolfiae, Corynespora cassiicola), leaf blotch (Cercospora serpentina), leaf blight (Alternaria tenuis), anthracnose (Colletotrichum gloeosporioides), die back (Colletotrichum dematrium), powdery mildew (Leviellula taurica), wilt (Fusarium oxysporum), root-knot (Meloidogyne sp.), mosaic and bunchy top virus diseases. Field sanitation, pruning and burning of diseased parts and repeated spraying of 0.2% Dithane Z-78 or Dithane M-45 are recommended for controlling various fungal diseases. Rauvolfia is harvested after 2-3 years of growth. The optimum time of harvest is in November -December when the plants shed leaves, become dormant and the roots contain maximum alkaloid content. Harvesting is done by digging up the roots by deeply penetrating implements (Guniyal et al, 1988).

Postharvest technology: The roots are cleaned washed cut into 12-15cm pieces and dried to 8-10% moisture.

The dried roots are stored in polythene lined gunny bags in cool dry place to protect it from mould. The yield is 1.5-2.5 t/ha of dry roots. The root bark constitutes 40-45% of the total weight of root and contributes 90% of the total alkaloids yield.

Properties and activity: Rauvolfia root is bitter, acrid, laxative, anthelmintic, thermogenic, diuretic and sedative. Over 200 alkaloids have been isolated from the plant. Rauvolfia serpentina root contains 1.4-3% alkaloids. The alkaloids are classsified into 3 groups, viz, reserpine, ajmaline and serpentine groups. Reserpine group comprising reserpine, rescinnamine, deserpine etc act as hypotensive, sedative and tranquillising agent. Overdose may cause diarrhoea, bradycardia and drowsiness. Ajmaline, ajmalicine, ajmalinine, iso-ajmaline etc of the ajmaline group stimulate central nervous system, respiration and intestinal movement with slight hypotensive activity. Serpentine group comprising serpentine, sepentinine, alstonine etc is mostly antihypertensive. (Husain,1993; Trivedi, 1995; Iyengar, 1985).... serpentwood

Roxb.

Family: Liliaceae.

Habitat: Assam, Khasi and Garo Hills, eastwards to upper Burma, Indo-China and southern China.

Ayurvedic: Dweepaantara-Vachaa, Chobachini (bigger var.).

Action: Roots—used for syphilis, venereal diseases and sores, as a blood purifier.

Astilbin, 3-O-caffeoyl-shikimic, fer- ulic, palmitic, shikimic and succinic acids; engeletin, isoengeletin; glucose; daucosterol, beta-sitosterol, stigmas- terol are major constituents of the root.

Crude saponins, isolated from the plant, produced preventive effect on cholesterol-fed atherosclerosis in quails.

Ayurvedic: Maitri.

Unani: Ushbaa (wild species).

Folk: Ghot-vel (Maharashtra).

Action: Roots—used as a substitute for Hemidesmus indicus. Used for venereal diseases, urinary infections, rheumatism. Also used for dysentery. (S. perfoliata Lour., synonym S. prolifera Roxb. is used as a substitute for S. ovalifolia.)... smilax glabra

Linn. (also auct. non L.)

Synonym: S. senegalensis DC. S. hirtus Willd.

Family: Compositae; Asteraceae.

Habitat: Tropical parts of India, in rice fields, cultivated lands as a weed.

Ayurvedic: Mundi, Mundika, Munditikaa, Bhuukadamba, Alam- busta, Shraavani, Tapodhanaa.

(Mahamundi, Mahaa-Shraavani Is Equated With S. Africanus Linn.)

Unani: Mundi.

Siddha/Tamil: Kottakarthai.

Folk: Gorakh-Mundi.

Action: Juice—Styptic, Emollient, Resolvent. Also Used In Hepatic And Gastric Disorders. Seeds And Root—Anthelmintic. Decoction Is Used In Cough And Other Catarrhal Affections And Chest Diseases. Root Bark—Given In Bleeding Piles. Flowers—Blood Purifier, Alterative, Depurative.

The Ayurvedic Pharmacopoeia Of India Recommends The Dried Leaf In Cervical Lymphadenitis, Chronic Sinusitis, Migraine, Epilepsy, Lipid Disorders, Diseases Of Spleen, Anaemia, Dysuria.

The Drug Is Mostly Administered In The Form Of Its Steam-Distillate. Steam Distillation Of Fresh Flowering Herb Yields An Essential Oil Containing Methyl Chavicol, Alpha-Ionone, D-Cadinene, P-Methoxycinnamaldehyde As Major Constituents. A Bitter Alkaloid, Sphaer- Anthine, Has Been Reported In The Plant.

Capitula Contains Albumin, A Fatty Oil (Up To 5%), Reducing Sugars, Tannins, Mineral Matter, A Volatile Oil (0.07%), And A Glucoside. No Alkaloid Was Detected In The Inflorescence. The Glucoside On Hydrolysis Gave A Aglycone, Phenolic In Nature. The Unsaponifiable Matter Of The Fatty Oil Showed Beta-Sitosterol, Stigmas- Terol, N-Triacontanol, N-Pentacosane And Hentriacontane. The Essential Oil Is Active Against Vibrio Cholera And Mi- Crococcus Pyogenes Var. Aureus. The Flower Heads Gave Beta-D-Glucoside Of Beta-Sitosterol.

Eudesmanolides, Cryptomeridiol And 4-Epicryptomeridiol Have Been Isolated From Flowers.

Flowers Gave A Sesquiterpene Glyco- Side, Sphaeranthanolide, Which Exhibited Immune Stimulating Activity.

Dosage: Leaf— 3-6 G (Api, Vol Iii); Whole Plant—10-20 Ml Juice (Api, Vol. IV).... sphaeranthus indicus

DC.

Synonym: S. acmella auct. non (L.) Murr.

S. paniculata auct. non-DC. S. pseudoacmella auct. non (L.) Murr.

Family: Asteraceae.

Habitat: Tropical and sub-tropical parts of India, in waste places and open moist fields.

English: Paracress.

Ayurvedic: Marahattikaa.

Folk: Marethi, Desi Akarkaraa.

Action: Plant—antidysenteric. Decoction, diuretic and lithotriptic, also used in scabies and psoriasis. Seeds—used in xerostomia, throat infections and neurological affection of tongue. Root—purgative.

Whole plant gave alpha-and beta- amyrin ester, myricyl alcohol, stigmas- terol and its glucoside. A tincture made from flower heads is used as a substitute for the tincture of pyrethrum to treat inflammation of jaw-bones and caries.

Ethanolic extracts of the herb were found to affect the blood pressure of dogs and cats, and also the isolated ileum of guinea pigs. Spilanthol, obtained from the ether as well as pen- tane extracts, shows a strong sialogogic action, acts as a local anaesthetic and a powerful insecticide.... spilanthes calva

(Linn. f.) Kurz.

Synonym: S. mangifera Willd.

Family: Anacardiaceae.

Habitat: A small, aromatic tree occurring wild or grown throughout the country for edible fruits.

English: Hog-Plum, Wild Mango. Great Hog-Plum is equated with S. cytherea Sonn, synonym S. dulcis Soland. ex Forst. f.

Ayurvedic: Aamraataka, Aamraata, Aamadaa, Madhuparni, Kundalini, Kapitana, Markataamra.

Siddha/Tamil: Mambulichi, Kat- tuma.

Folk: Jangali Aam.

Action: Fruits, leaves, bark— astringent, antidysenteric, anti- speptic, antiscorbutic. Bark paste applied externally to articular and muscular rheumatism. Root—used for regulating menstruation.

The Ayurvedic Pharmacopoeia ofIn- dia recommends stem bark in haem- orrhagic diseases.

The fruit contains beta-amyrin, olea- nolic acid and amino acids—glycine, cystine, serine, alanine and leucine; polysaccharides are also present.

Aerial parts gave lignoceric acid, 24-methylenecycloartanone, stigmast- 4-en-3-one, beta-sitosterol and its glu- coside.

Dosage: Stem bark—5-10 g powder for decoction (API, Vol. II); 1-3 g powder (API, Vol. III).... spondias pinnata

Linn.f.

Family: Loganiaceae; Strychnaceae.

Habitat: Forests of West Bengal, Central and South India, up to 1,200 m.

English: Clearing Nut tree.

Ayurvedic: Kataka, Katakaphala, Payah-prasaadi, Chakshushya, Nirmali.

Unani: Nirmali.

Siddha/Tamil: Thettran, Thetrankot- tai.

Action: Seed—antidiabetic, antidysenteric, emetic.

Mannogalactan from seeds reduces cholesterol and triglycerides (one-tenth and one-fifth when compared to clofi- brate). Seeds are also applied to abscesses, and venereal sores (internally in gonorrhoea). Fruits—antidiabet- ic; antidysenteric, expectorant. (Pulp is used as a substitute for ipecacuanha.)

The Ayurvedic Pharmacopoeia ofIn- dia recommends the seed in dysuria, polyuria, urolithiasis, also in epilepsy.

The seeds, leaves and trunk bark gave diabolin (major alkaloid) and acetyldiabolin. Seeds also gavebrucine, strychnine, novacine, icajine, oleanolic acid and its glycoside. Leaves and bark gave isomotiol, stigmasterol, campes- terol and sitosterol. Diabolin exhibits hypotensive activity.

A decoction of seeds is given to treat stammering.

The seeds resemble those of Nux- vomica but are non-poisonous. The ripe seeds are used for clearing muddy water.

Dosage: Seed—3-6 g. (API, Vol. IV.)... strychnos potatorum

Linn.

Family: Labiatae, Lamiaceae.

Habitat: Native to Europe; found in Kashmir.

English: Water-Germander.

Action: Stimulant, antiseptic, sudorific. Given for phthisis and cough. An infusion is used as laxative in piles, as a gargle in sore throat and stomatitis. An extract of the herb is given in lupus and actinomycosis. Flower tops and leaves—astringent, diaphoretic, vermifuge.

The herb contains iridoids, including harpagide and acetyl harpagide; fu- ranoid diterpenes; also choline, rutin, quercetin, iso-quercetin, stigmasterol, beta-sitosterol, beta-amyrin, chloro- genic and ursolic acids.... teucrium scordium

Hook. f.

T. lucidum (D. Don) K.

Family: Apocynaceae.

Habitat: Temperate and subtropical Himalaya from Kumaon to Arunachal Pradesh and in Assam, Meghalaya up to 2,100 m.

Folk: Duudhi (Kumaon), Akhaahi- lataa (Assam).

Action: Used as a substitute for Alstonia scholaris.

T. jasminoides Lem. (Star-Jasmine), native to China and Japan, is cultivated all over India. Alkaline extracts of the leaf and stem show activity against yeast. The leaves and twigs contain dambonitol, cyclitol, arctiin, tracheloside, beta-amyrin and its acetate, lu- peol acetate, and a mixture of beta- stosterol, stigmasterol and campes- terol. A flavone glycoside was isolated from the butanol extract of dried leaves and several indole alkaloids from the alcoholic extract of dried leaves and twigs.

The leaves, stem and twigs are used for treating rheumatic arthritis, nervous disorders, urine retention and as a tonic for weak muscles or nerves.... trachelospermum fragrans

The previous subject is obviously an endless one, but as this is the glossary of an herbal nature, let me assure you, virtually no plants have a direct steroid hormone-mimicking effect. There are a few notable exceptions with limited application, like Cimicifuga and Licorice. Plant steroids are usually called phytosterols, and, when they have any hormonal effect at all, it is usually to interfere with human hormone functions. Beta sitosterol, found in lots of food, interferes with the ability to absorb cholesterol from the diet. Corn oil and legumes are two well-endowed sources that can help lower cholesterol absorption. This is of only limited value, however, since cholesterol is readily manufactured in the body, and elevated cholesterol in the blood is often the result of internal hormone and neurologic stimulus, not the diet. Cannabis can act to interfere with androgenic hormones, and Taraxacum phytosterols can both block the synthesis of some new cholesterol by the liver and increase the excretion of cholesterol as bile acids; but other than that, plants offer little direct hormonal implication. The first method discovered for synthesizing pharmaceutical hormones used a saponin, diosgenin, and a five-step chemical degradation, to get to progesterone, and another, using stigmasterol and bacterial culturing, to get to cortisol. These were chemical procedures that have nothing to do with human synthesis of such hormones, and the plants used for the starting materials-Mexican Wild Yam, Agave, and Soy were nothing more than commercially feasible sources of compounds widely distributed in the plant kingdom. A clever biochemist could obtain testosterone from potato sterols, but no one would be likely to make the leap of faith that eating potatoes makes you manly (or less womanly), and there is no reason to presume that Wild Yam (Dioscorea) has any progesterone effects in humans. First, the method of synthesis from diosgenin to progesterone has nothing to do with human synthesis of the corpus luteum hormone; second, oral progesterone has virtually no effect since it is rapidly digested; and third, orally active synthetic progesterones such as norethindrone are test-tube born, and never saw a Wild Yam. The only “precursor” the ovaries, testes and adrenal cortices EVER need (and the ONLY one that they can use if synthesizing from scratch) is something almost NONE of us ever run out of...Low Density Cholesterol. Unless you are grimly fasting, anorectic, alcoholic, seriously ill or training for a triathlon, you only need blood to make steroid hormones from. If hormones are off, it isn’t from any lack of building materials...and any product claiming to supply “precursors” better contain lard or butter (they don’t)...or they are profoundly mistaken, or worse. The recent gaggle of “Wild Yam” creams actually do contain some Wild Yam. (Dioscorea villosa, NOT even the old plant source of diosgenin, D. mexicana...if you are going to make these mistakes, at least get the PLANT right) This is a useful and once widely used antispasmodic herb...I have had great success using it for my three separate bouts with kidney stones...until I learned to drink more water and alkalizing teas and NEVER stay in a hot tub for three hours. What these various Wild Yam creams DO contain, is Natural Progesterone. Although this is inactive orally (oral progesterone is really a synthetic relative of testosterone), it IS active when injected...or, to a lesser degree, when applied topically. This is pharmaceutical progesterone, synthesized from stigmasterol, an inexpensive (soy-bean oil) starting substance, and, although it is identical to ovarian progesterone, it is a completely manufactured pharmaceutical. Taking advantage of an FDA loophole (to them this is only a cosmetic use...they have the misguided belief that it is not bioactive topically), coupled with some rather convincing (if irregular) studies showing the anti-osteoporotic value of topical progesterone for SOME women, a dozen or so manufacturers are marketing synthetic Natural Progesterone for topical use, yet inferring that Wild Yam is what’s doing good. I am not taking issue with the use of topical progesterone. It takes advantage of the natural slow release into the bloodstream of ANY steroid hormones that have been absorbed into subcutaneous adipose tissue. It enters the blood from general circulation the same way normal extra-ovarian estradiol is released, and this is philosophically (and physiologically) preferable to oral steroids, cagily constructed to blast on through the liver before it can break them down. This causes the liver to react FIRST to the hormones, instead of, if the source is general circulation, LAST. My objection is both moral and herbal: the user may believe hormonal effects are “natural”, the Wild Yam somehow supplying “precursors” her body can use if needed, rejected if not. This implies self-empowerment, the honoring of a woman’s metabolic choice...something often lacking in medicine. This is a cheat. The creams supply a steady source of pharmaceutical hormone (no precursor here) , but they are being SOLD as if the benefits alone come from the Wild Yam extract, seemingly formulated with the intent of having Wild Yam the most abundant substance so it can be listed first in the list of constituents. I have even seen the pharmaceutical Natural Progesterone labeled as “Wild Yam Progesterone” or “Wild Yam Estrogen precursor” or, with utter fraud, “Wild Yam Hormone”. To my knowledge, the use of Mexican Yam for its saponins ceased to be important by the early 1960’s, with other processes for synthesizing steroids proving to be cheaper and more reliable. I have been unable to find ANY manufacturer of progesterone that has used the old Marker Degradation Method and/or diosgenin (from whatever Dioscorea) within the last twenty years. Just think of it as a low-tech, non invasive and non-prescription source of progesterone, applied topically and having a slow release of moderate amounts of the hormone. Read some of the reputable monographs on its use, make your choice based solely on the presence of the synthetic hormone, and use it or don’t. It has helped some women indefinitely, for others it helped various symptoms for a month or two and then stopped working, for still other women I have spoken with it caused unpleasant symptoms until they ceased its use. Since marketing a product means selling as much as possible and (understandably) presenting only the product’s positive aspects, it would be better to try and find the parameters of “use” or “don’t use” from articles, monographs, and best of all, other women who have used it. Then ask them again in a month or two and see if their personal evaluation has changed. If you have some bad uterine cramps, however, feel free to try some Wild Yam itself...it often helps. Unless there is organic disease, hormones are off is because the whole body is making the wrong choices in the hormones it does or doesn’t make. It’s a constitutional or metabolic or dietary or life-stress problem, not something akin to a lack of essential amino acids or essential fatty acids that will clear up if only you supply some mythic plant-derived “precursor”. End of tirade.... steroids, plant

Strychnos nux-vomica

Loganiaceae

San: Karaskara;

Hin: Kajra, Kuchila;

Mal: Kanjiram; ;

Tam: Itti, Kagodi, Kanjirai Mar:Jharkhatchura;

Kan: Hemmushti, Ittangi;

Tel: Mushti, Mushidi; Ori: Kora, Kachila

Importance: It is a large deciduous tree, with simple leaves and white fragrant flowers.

Strychnos is highly toxic to man and animals producing stiffness of muscles and convulsions, ultimately leading to death. However, in small doses it can also serve as efficacious cure forms of paralysis and other nervous disorders. The seeds are used as a remedy in intermittent fever, dyspepsia, chronic dysentery, paralytic and neuralgic affections, worms, epilepsy, chronic rheumatism, insomnia and colic. It is also useful in impotence, neuralgia of face, heart disease, spermatorrhoea, skin diseases, toxins, wounds, emaciation, cough and cholera. Leaves are applied as poultice in the treatment of chronic wounds and ulcers and the leaf decoction is useful in paralytic complaints. Root and root bark used in fever and dysentery (Nadkarni, 1982; Kurup et al, 1979).

Distribution: The plant is distributed throughout India in deciduous forests up to 1200m. It is also found in Sri Lanka, Siam, Indochina and Malaysia.

Botany: Strychnos nux-vomica Linn. is a large tree belonging to the family Loganiaceae. Leaves are simple, opposite, orbicular to ovate, 6-11.5x6-9.5cm, coriaceous, glabrous, 5 nerved, apex obtuse, acute or apiculate, transverse nerves irregular and inconspicuous. Inflorescence is many flowered terminal cymes, 2.5-5cm across. Bracts (5mm) and bracteoles (1.5mm) small. Flowers are white or greenish white and fragrant. Calyx 5 lobed, pubescent and small (2mm). Corolla salver shaped, tube cylindrical slightly hairy near the base within and greenish white, tube much elongate than the lobes. Tube 7mm and lobes 2.5mm long. Lobes 5 and valvate. Stamens 5, filaments short, 0.1mm long. Anthers 1.5mm subexerted, linear oblong. Ovary 1.5 mm, pubescent, 2 celled, ovules one to many. Style 9mm, stigma capitate. Fruit is a berry, 5-6cm diameter, globose, indehiscent, thick shelled, orange red when ripe with fleshy pulp enclosing the seeds. Seeds 1-many, discoid, compressed, coin like, concave on one side and convex on the other, covered with fine grey silky hairs.

The leaf fall is during December (do not shed all the leaves at a time) and new foliage appears in February. Flowering is during March - April and fruiting during May - December. Fruits take about 8-9 months to mature.

Properties and activity: Strychnine and brucine are the most important and toxic alkaloids present in the plant. They occur not only in the seeds but also in roots, wood, bark, fruit pulp and hard fruit shells. The minor alkaloids present in the plant are vomicine, -colubrine, -colubrine, pseudostrychnine and N-methyl-sec-pseudobrucine (novacine). Loganin a glycoside is also present (Warnat, 1932; Martin et al, 1953; Guggisberg et al, 1966; Bisset and Chaudhary, 1974). Chatterji and Basa (1967) reported vomicine as the major constituent alkaloid along with unidentified alkaloid in leaves and identified another alkaloid kajine (N-methyl pseudostrychnine) from the leaves of very young plants.

Root bark of S. nux-vomica yeilded 4-hydroxy-3-methoxy strychnine, 4 hydroxy strychine, nor-macusine, a new alkaloid 12 , 13 dihydro-12 -hydroxy isostrychnine named protostrychnine (Baser et al, 1979) methoxy strychnine, and mavacurine (Guggisberg et al, 1966). Leaves and root bark also yeilded 11 new alkaloids. 10-hydroxy strychnine, 3-12-dihydroxystrychnine, 12-hydroxy–11- methoxy strychnine, 3-12-dihydroxy- 11-methoxy strychnine,12-hydroxy strychnine-N- oxide 12-hydroxy-11-methoxy strychnine- N-oxide-19,20–dihydro isostrychnine, 16 , 17 dihydro-17 -hydroxy isostrychnine, O- methyl-macusine B, 16-epi-o-methyl–macusine B and normelinone B (Baser and Bisset, 1982).

De and Datta (1988) isolated 5 tertiary indole alkaloids viz. strychnine, brucine, vomicine, icajine and novacine from S.nux-vomica flowers. Bisset et al (1989) isolated and identified two phenolic glycosides salidroside and cuchiloside – a compound consisting of salidroside and an attached xylose unit, from the fruit of S.nux-vomica.

Rodriguez et al (1979) isolated an indole alkaloid from the seeds of S. nux- vomica and identified as a 3-methoxy icajine. A new alkaloid 15-hydroxy strychnine has been isolated from the seeds and the structure of the alkaloid established by spectroscopic data (Galeffi et al, 1979). Cai et al (1990a) isolated 4 new alkaloids isobrucine, isobrucine N-oxide, isostrychnine N-oxide and 2 hydroxy–3-methoxy strychnine from the heat treated seeds of S. nuxvomica and the structure of the alkaloids were determined by 13 CNMR (Cai et al, 1994). Cai et al (1990 b) studied the changes in the alkaloid composition of the seeds during drug processing. Saily et al (1994) determined the mineral elements in Strychnos nux-vomica. Corsaro et al (1995) reported polysaccharides from the seeds of Strychnos species.

Seeger and Neumann (1986) reviewed the physico-chemical characteristics, occurrence, identification, utilisation, poisoning, toxicity, kinetics, differential diagnosis and therapeutic uses of strychnine and brucine. Aspergillus niger, A. flavus and Pencillium citrinum showed regular association with Strychnos seeds and effectively deteriorated the alkaloid content of the seeds (Dutta, 1988; Dutta and Roy, 1992). Nicholson (1993) described the history, structure and synthesis of strychnine which occur in the seeds of S. nux-vomica. Rawal and Michoud (1991) developed a general solution for the synthesis of 2- azabicyclo (3.3.1) nonane substructure of Strychnos alkaloids.

Villar et al (1984) and Hayakawa et al (1984) developed HPLC method for the analysis of strychnine and brucine. Graf and Wittliner (1985), Kostennikova (1986) and Gaitonde and Joshi (1986) suggested different methods for the assay of strychnine and brucine. Biala et al, (1996) developed new method for the assay of alkaloids in S. nux- vomica.

The seeds are bitter, acrid, alexeteric, aphrodisiac, appetiser, antiperiodic, anthelmintic, digestive, febrifuge, emmenagogue, purgative, spinal, respiratory and cardiac stimulant and stomachic. The bark is bitter, and tonic and febrifuge (Nadkarni, 1954; Kurup et al, 1979; Warrier et al, 1996).

The quarternery alkaloid from the root bark of the Sri Lankan plant exhibited muscle-relaxant activity (Baser and Bisset, 1982). Antimicrobial activity of indole alkaloid isolated from the Strychnos nux-vomica was studied by Verpoorte et al, 1983. Shukla et al (1985) evaluated the efficacy of Rasnadigugglu compound consisting of S. nux-vomica, on rheumatoid arthritis and found to be effective in reducing inflammatory oedoma and rheumatoid arthritis. It also exhibited analgesic activity. A compound Unani formulation containing S. nux-vomica significantly attenuated withdrawal intensity in morphine dependent rats (Zatar et al, 1991). Shahana et al (1994) studied the effect of Unani drug combination (UDC) having Strychnos nux-vomica on the abstinence syndrome in moderately and severely morphine dependent rats. The UDC strikingly suppressed the abstinence syndrome was seen to possess central depressant and analgesic action.

Melone et al (1992) reported brucine-lethality in mice. Panda and Panda (1993) and Satyanarayanan et al (1994) reported antigastric ulcer activity of nux vomica in Shay rats. Banerjee and Pal (1994) reported the medicinal plants used by the tribals of plain land in India for hair and scalp preparation and S. nux-vomica being used to cure alopecia (baldness) by the tribals. Tripathi and Chaurasia (1996) studied the effect of S. nux-vomica alcohol extract on lipid peroxidation in rat liver.... strychnine tree

Buch.-Ham ex G. Don.

Synonym: T. pentandra auct. non Linn.

Family: Aizoaceae.

Habitat: The plains from Punjab to Bihar, extending southwards to Karnataka.

Ayurvedic: Varshaabhu (related species).

Action: Plant—astringent in stomach diseases, deobstruent, abortifacient.

The root and stems contain hentri- acontane, hentriacontanol, beta-sitos- terol glucoside, stigmasterol glucoside and nonacos-1-en-4-one.... trianthema govindia

Delile.

Family: Zygophyllaceae.

Habitat: Rajasthan, Gujarat, Punjab and Haryana.

English: Winged Caltrops.

Ayurvedic: Gokshura (related species).

Unani: Gokharu-kalaan.

Folk: Desi Gokharu, Aakharaa., Hasaka.

Action: Fruits—diuretic, antiinflammatory, emmenagogue. Used for uterine and genitourinary disorders.

Seed—astringent, diuretic; given to women to ensure fecundity.

The fruit gave sterols—stigmasterol, campesterol and beta-sitosterol; flavo- noids—luteolin, kaempferol-3-gluco- side and rutin; sapogenins—diosge- nin, gitogenin and chlorogenin. Root, stems, leaves and seeds contain sa- pogenins—diosgenin, gitogenin and chlorogenin; sterols—beta-sitosterol and stigmasterol.... tribulus alatus

(Burm. f.) Merrill.

Synonym: T. asthamatica Wight & Arn.

Family: Asclepiadaceae.

Habitat: Assam, West Bengal, Orissa and Peninsular India.

English: Emetic Swallow Wort, Indian or Country Ipecacuanha.

Ayurvedic: Antamuula, Muulini, Arkaparni.

Siddha/Tamil: Nay Palai, Nangilaip- piratti.

Action: Leaves—used for bronchial asthma and allergic rhinitis.

The whole plant yielded alkaloids including tylophorine, tylphorinine, desmethyltylophorine and desmethyl- tylophorinine, and a flavonoid kaem- pferol. The root yielded alkaloids, tylophorinidine and gamma-fagarine. The leaves gave tylophorinidine, d- septicine, d-iso-tylocrebrine; triterpe- noids alpha-and beta-amyrin; beta- sitosterol, stigmasterol and campes- terol; phenylalanine; and quercetin. Ceryl alcohol has also been reported from the plant.

The plant exhibited anti-amoebic activity against axenic and polyax- enic strains of Entamoeba histolytica. Tylophorine and 4-methoxy-14- hydroxytylophorine are 2 and 4 times more effective, respectively, than the standard drugs Emetine dihydrochlo- ride and Metroindazole. Tylophorine is found effective in intestinal as well as hepatic amoebiasis in test animals, but its gross toxicity excludes its potential use in humans.

Tylophorine also exhibits anti-inflammatory and anti-tumour properties.

Desmethyltylophorine gave promising results in leukaemia.

The drug irritates the digestive tract.... tylophora indica

Linn. Mast.

Family: Malvaceae.

Habitat: Throughout warmer parts of India, frequent in West Bengal.

Ayurvedic: Naagabalaa (Grewia hirsuta and Sida veronicaefolia are also equated with Naagabalaa). Used as Balaa in Kerala.

Siddha/Tamil: Ottatti.

Action: Root—diuretic, emollient, antispasmodic (roots and stem used in severe windy colic), antirheumatic. Flowers—used as a pectoral and expectorant in dry and inveterate coughs. An infusion is used as a gargle for aphthae amd sore throat.

The aerial parts gave magniferin and quercetin. Alkanes, stigmasterol and beta-sitosterol are reported from the whole plant. The seeds contain protein, pentosan and mucilage.... urena lobata

(Roxb.) Kunth.

Synonym: Drimia indica Roxb. non-(Wt.) Baker.

Family: Liliaceae.

Habitat: Western Himalayas, Bihar, Konkan and along the Coromandel Coast. U. maritima (L.) Baker is native to Mediterranean region.

English: Indian Squill, Sea Onion (red and white varieties).

Ayurvedic: Vana-palaandu, Kolakanda, Vajrakanda.

Unani: Unsul-e-Hindi, Isqueel- e-Hindi, Piyaaz-Dasti, Piyaaz- Sahraayi, Jangali Piyaaz.

Siddha/Tamil: Narivengayam.

Action: Used as a substitute for European Squill, Urginea maritima. Expectorant (in dry respiratory conditions, whooping cough and bronchial asthma), antispasmodic, emetic (in large doses), diuretic (promotes fluid elimination in heart disease), cardiac tonic (effect, non-cumulative). Used topically as a hair tonic for dandruff and seborrhoea (active constituent is thought to be scilliroside of the Red Squill.)

Key application: Urginea maritima—in milder cases of heart insufficiency, also for diminished kidney capacity. (German Commission E.)

Bulbs contain cardiac glycosides, scillarens A and B. Bulb, leaves and root contain stigmasterol, sitosterol and campesterol. Bulbs also contain hentriacontanol, octacosanoic acid. Defatted air-dried bulbs afforded 6- desacetoxyscillirosidin.

The plant exhibits cyanogenetic activity.

Urginea maritima (White Squill) is contraindicated in potassium deficiency or when digitalis glycosides are being used (Francis Brinker), in hyper- calcaemia and hyperkalaemia (Sharon M. Herr).

Urginea coromandeliana Hook. f. non-Wight, synonym U. wightiana Hook f. (Coromandel coast and in dry regions of Andhra Pradesh and Tamil Nadu up to 3,000 m) is used as a substitute for Indian Squill (U. indica).

Dosage: Bulb—120-200 mg powder. (CCRAS.)... urginea indica

(L.) Medik.

Synonym: Saponaria vaccaria L.

Family: Caryophyllaceae.

Habitat: Throughout India, as a weed.

English: Soapwort, Cow Herb.

Folk: Musna, Saabuni.

Action: Roots—used for cough, asthma and other respiratory disorders; for jaundice, liver and spleen diseases (increases bile flow). Mucilaginous sap—used in scabies.

Saponins of the root showed haemo- lytic activity. Lanostenol, stigmas- terol, beta-sitosterol and diosgenin have been isolated from the plant. Xanthones, vaccaxanthone and sapx- anthone, and a oligosaccharide, vac- carose, have also been isolated.... vaccaria pyramidata

Less.

Family: Compositae; Asteraceae.

Habitat: Distributed throughout India. Common in waste places and road side.

English: Ash coloured Fleabane, Purple Fleabane.

Ayurvedic: Sahadevi, Uttamkanya- ka, Dandotpalaa.

Siddha/Tamil: Naichotte Poonde.

Action: Plant—febrifuge, diaphoretic (infusion of herb, combined with quinine, is used against malaria). Used as a specific herb for leucor- rhoea, dysuria, spasm of bladder, strangury and for haematological disorders, as a blood purifier and styptic. Also used in asthma. Seeds—anthelmintic, antiflatulent, antispasmodic; used in dysuria, leucoderma, psoriasis and other skin diseases. Roots—anthelmintic; decoction used for colic.

The Ayurvedic Pharmacopoeia ofIn- dia recommends the plant in inter mittent fever, filariasis, pityriasis versi- colour (tinea versicolor), blisters, boils, vaginal discharges and in cases of psy- choneurosis.

Aerial parts gave luteolin-7-mono- beta-D-glucopyranoside. Whole plant gave triterpene compounds—beta- amyrin acetate, lupeol acetate, beta- amyrin and lupeol; sterols—beta-sito- sterol, stigmasterol and alpha-spinaste- rol; phenolic resin and potassium chloride.

Dosage: Whole plant—10-20 ml juice; 5-10 g powder for external use. (API, Vol. III.)... vernonia cinerea

Linn.

Family: Verbenaceae.

Habitat: Throughout India in the warmer zones; ascending to 900 m in the North-western Himalaya.

English: Five-leaved Chaste tree.

Ayurvedic: Nirgundi, Shephaa- likaa, Sindhuka, Sindhuvaara, Suvahaa, Sugandhikaa. Nila, Nila- nirgundi, Shveta nirgundi (var.). White-flowered var. is known as Sinduvaara, blue-flowered as Nirgundi or Shephaali,

Unani: Sambhaalu, Fanjankisht.

Siddha/Tamil: Nochi, Nalla Nochi, Vellai Nochchi, Nirkundi.

Action: Seeds—prescribed in spermatorrhoea, and for promoting spermiogenesis (in Unani medicine). Also given as a rejuvenating tonic for retarding old age and for retaining and promoting virility. (in Ayurvedic medicine). Leaf—anti-inflammatory, analgesic; removes foetid discharges and worms from ulcers. Flowers—astringent, febrifuge, antidiarrhoeic; prescribed in liver complaint. Oil— applied to sinus, scrofulous sores.

The Ayurvedic Pharmacopoeia of India recommends the leaf (also the root) in excessive vaginal discharges, oedema, skin diseases, pruritus, helmin- thiasis, rheumatism, and puerperal fever.

A water extract of the leaves, when administered to rats, exhibited anti- inflammatory, analgesic, antihistami- nic and membrane stabilizing and an- tioxidant activities. (J. Ethnopharmo- col, 2003, (203), 199-206.) Methano- lic extract of leaves showed remarkable antihistaminic activity.

The leaves contain iridoid glyco- sides, isomeric flavanones and flavo- noids, besides casticin and the gluco- sides, luteolin-7-glucoside and alpha- D-glucoside of a tetrahydroxy mono- methoxy flavone.

Dried powder of roots contains hen- triacontane, beta-sitosterol and its aetat and stigmasterol. Alcoholic extract of the root showed 40-60% antiimplantation activity with no anti- ovulatory effect in rats.

Flavone vitexicarpin (1), isolated from the leaves, exhibited broad cyto- toxicity in human cancer cell line panel. Two pentacyclic triterpenoids, betulin- ic acid and ursolic acid, along with an aliphatic alcohol, n-hentriacontanol, beta-sitosterol and p-hydroxybenzoic acid have been isolated from leaves.

The seeds contain p-hydroxybenz- oic acid, 5-oxyisophthalic acid, glucose and the triterpene, vitextriter- pene. Several anti-inflammatory triter- penoids and flavonoids have also been isolated from the seeds. The flavanone, 5,7,3' trihydroxy-6, 8,4'-trimethoxy- flavone exhibited anti-androgenic activity in adult mice and dogs.

Dosage: Leaf—10-15 ml juice (API, Vol. III); root—10-12 ml juice (API, Vol. IV.)... vitex negundo

DC.

Family: Compositae; Asteraceae.

Habitat: Near sea-coasts and the Andamans.

Ayurvedic: Bhringaraaja (yellow- flowered var).

Action: Leaves—used as poultice on ulcers, sores, varicose veins; paste applied to fungal infections. Leaf decction—vulnerary and antiscabious. The juice of leaf is also given internally with cow's milk as a tonic after child birth.

The dried leaves contain veratryli- dene hydrazide and quercetin derivatives. The stem contains stigmasterol and grandifloric acid. The leaves and stem showed antifungal activity.... wedelia biflora

Koen.

Synonym: Carapagranatum (Koen.) Alston.

Habitat: Coastal regions of India, especially in Tamil Nadu.

Siddha/Tamil: Somanthiri, Kan- lolanyey.

English: The Puzzle Fruit tree.

Folk: Pussur, Dhundul.

Action: Bark—astringent, an- tidysenteric, febrifuge.

The bark and leaves contain friede- lin, beta-sitosterol, stigmasterol; te- tranorterpenoids—oxomeliac derivatives. Bark, in addition, contains tri- acontanol. The heartwood contains beta-sitosterol and gedunin. Different parts of the plant contain tannins— fruit pulp 8.57, leaves 7.92, twig bark 14.82, branch bark 20.58, bole bark 23.73, branch wood 4.67 and bole wood 4.94%.

A closely related species X.gange- ticus Prain occurs in West Bengal and the Andamans.... xylocarpus granatum

Linn.

Family: Gramineae; Poaceae.

Habitat: Native to South America. Grown as a food crop mainly in Uttar Pradesh, Punjab, Madhya Pradesh, Bihar, Andhra Pradesh and Jammu and Kashmir.

English: Maize, Corn, Indian Corn.

Ayurvedic: Mahaa-Kaaya.

Unani: Makkaa, Zurraa Makkaa.

Action: Corn Silk—diuretic, urinary demulcent, antilithic. Used for cystitis, urethritis, prostatitis, irritation of the urinary tract by phosphatic and uric acids, nephritis, uncontrollable bladder, retention, pus in the urine, bed-wetting.

The corn silk gave saponins; alan- toin; sterols, especially beta-sitosterol and stigmasterol; alkaloid hordenine; polyphenols; mucilage; potassium; vitamin C and K; cryptoxanthin, antho- cyanins, plant acids, tannin.

The glycoproteins, seperated from corn silk, inhibited IgE antibody formation and enhanced IgG and IgM formation; they showed antiviral and antitumour activities.... zea mays

Stigmata maidis. Zea mays, L. German: Turkisches Korn. French: Mai?s. Arabian: Durah shami. Iranian: Kho?shahemakki. Chinese: Yu-kao-liang. Malayan: Jagung. Dried silky flower threads of maize. Constituents include: rutin, flavonoids.

Constituents: allantoin, saponins, Vitamin C and K.

Keynote: kidneys and bladder.

Action: antilithic, mild stimulant, soothing urinary demulcent, diuretic.

Uses: Kidney and bladder disorders. Cystitis, uncontrollable bladder, retention, pus in the urine, bed- wetting, prostate gland enlargement, irritation of the urinary tract by phosphatic and uric acids, urethritis, expulsion of gravel. Gonorrhoea, in combination with powerful alteratives: Yellow Dock, Burdock, Queen’s Delight.

Heart failure with oedema and scanty urine; used with success. (William Boericke MD) Chronic malaria – in strong infusion the shucks have been used with success. (Dr E.C. Lowe) Nephritis (with equal parts Marshmallow) for temporary relief. Its value is increased by adding to it (equal parts) Dandelion root and Shepherd’s Purse herb. (J.H. Greer MD) Of special value for bed-wetting: with Agrimony herb (equal parts). Diabetes. (Chinese medicine)

Preparations: It is a consensus of professional opinion that the infusion (tea) is the best form. 3-4 teaspoons to each cup boiling water; infuse 15 minutes; drink freely.

Liquid Extract: 1-2 teaspoons, in water.

Tincture: 1-3 teaspoons, in water. ... corn silk