Inflorescence: From 1 Different Sources
flowering structure above the last stem leaves (including bracts and flowers).
Nees.
Synonym: A. zeylanica Medic. Justicia adhatoda Linn.
Family: Acanthaceae.
Habitat: Throughout India, up to an altitude of 1,300 m.
English: Malabar Nut, Vasaca.
Ayurvedic: Vaasaa, Vaasaka, Vaasikaa, Simhaasya, Simhaparni, Simhavadanaa, Vaajidanta, Vrisha, Aataruushaka.
Unani: Arusaa.
Siddha/Tamil: Aadaathodai.
Folk: Vasaakaa.
Action: Expectorant (used in bronchial, asthmatic and pulmonary affections), antispasmodic, febrifuge.
Key application: As bronchodilatory, expectorant. (Indian Herbal Pharmacopoeia.) The Ayurvedic Pharmacopoeia of India indicates its use in dyspnoea.The chief quinazoline alkaloid vas- icine is reported in all parts of the plant, the highest being in inflorescence. It is a bitter bronchodilator, respiratory stimulant, hypotensive, cardiac depressant, uterotonic and aborti- facient. An aqueous solution of va- sicinone hydrochloride, when studied in mice and dogs, was found to potentiate the bronchodilatory activity of aminophylline, also that of isopre- naline. Vasicinone exhibited smooth- muscle-relaxant properties of airways.Alkaloids present in the plant showed significant protection against allergin-induced bronchial obstruction in guinea pigs.The leaves are found to activate the digestive enzyme trypsin.An extract of the leaves showed significant antifungal activity against ringworm.Adhatoda beddomei C.B. Clarke, found in Kerala, is considered to be more powerful and active than A. vasi- ca. Fresh leaf juice is used in haemoptysis and menorrhagia, also as an antiasthmatic.Jacobinia tinctoria Henl. is equated with the red-flowered var. of Vaasaa.
Dosage: Leaf—10-20 ml juice. Dried leaves—10-20 g for deoction. Root—3-6 g powder. (API Vols. I, IV)... adhatoda vasica
Reduced or modified leaflets that are usually parts of flowers or an inflorescence, generally subtending or beneath the floral parts.... bracts
Holostemma ada-kodienAsclepiadaceaeSan: Jivanti;Hin: Chirvel, Charivel;Mal: Atapathiyan, Atapotiyan, Atakotiyan;Tam: Palaikkirai;Tel: Palagurugu; Mar: Dudurli, Shidodi;Guj: Kharner, KhiravelImportance: 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 AmaryllidaceaeSan: Musali;Hin: Kalimusali, Mushali;Ben: Talamuli;Mal: Nilappana;Guj: MusalikandTam: Nilapanai;Tel: Nelatadi Kelangu;Kan: NeladaliImportance: 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
Piper longumPiperaceae: San: Pippali;Hin, Ben, Pun: Piplamul; Kan, Mal:Thippali ;Tam: Thippili; Mar: Pimpli;Tel: Pipppaloo; Ass: Piplu.Introduction: Long pepper is a slender aromatic climber whose spike is widely used in ayurvedic and unani systems of medicine particularly for diseases of respiratory tract. Pipalarishta, Pippalyasava, Panchakola, Pippalayadilauha, and Lavana bhaskar churan are common ayurvedic preparations made out of the dry spikes of female types. Ittrifal fauladi, Angaruya-i-kabir and Majun khadar are well known unani preparations of long pepper. Its roots also have several medicinal uses. The root is useful in bronchitis, stomach ache, diseases of spleen and tumours. Fruit is useful in vata and kapha, asthma, bronchitis, abdominal complaints, fever, leucoderma, urinary discharges, tumours, piles, insomnia and tuberculosis. Root and fruit are used in gout and lumbago. The infusion of root is prescribed after parturition to induce the expulsion of placenta. The root and fruit decoction are used in acute and chronic bronchitis and cough. It contains the alkaloid piperine which has diverse pharmacological activities, including nerve depressant and antagonistic effect on electro- shock and chemo -shock seizures as well as muscular incoordination.Distribution: The plant is a native of Indo-Malaya region. It was very early introduced to Europe and was highly regarded as a flavour ingredient by the Romans. The Greek name “Peperi”, the Latin “Piper” and the English “Pepper” were derived from the Sanskrit name “Pippali”. It grows wild in the tropical rain forests of India, Nepal, Indonesia, Malaysia, Sri lanka, Rhio, Timor and the Philippines. In India, it is seen in Assam, West Bengal, Uttar Pradesh, Madhya Pradesh, Maharashtra, Kerala, Karnataka.and Tamil Nadu. It is also cultivated in Bengal, Chirapunchi area of Assam, Akola-Amravati region of Maharashtra, Anamalai hills of Tamil Nadu, Orissa, Uduppi and Mangalore regions of Karnataka. Bulk of Indian long pepper comes from its wild growth in Assam, Shillong and West Bengal, supplemented by imports from Sri Lanka and Indonesia (Viswanathan,1995)Botany: Piper longum Linn. is a member of Piperaceae family. The plant is a glabrous perennial under-shrub with erect or sub-scandent nodose stem and slender branches, the latter are often creeping or trailing and rooting below or rarely scandent reaching a few metres height. Leaves are simple, alternate, stipulate, and petiolate or nearly sessile; lower ones broadly ovate, cordate; upper ones oblong, oval, all entire, smooth, thin with reticulate venation; veins raised beneath. It flowers nearly throughout the year. Inflorescence is spike with unisexual small achlamydeous densely packed flowers and form very close clusters of small greyish green or darker grey berries. Female spikes with short thick stalk varying from 1.5 to2.5 cm in length and 0.5 to 0.7 cm in thickness.A number of geographical races are available in different agroclimatic regions of India; the most popular being Assam, West Bengal and Nepal races. Piper officinarum DC; syn. Chavica officinarum Miquel, Piper pepuloides and Piper chaba Hunter are the other related species of importance.Agrotechnology: Long pepper is a tropical plant adapted to high rainfall areas with high humidity. An elevation of 100-1000 m is ideal. It needs partial shade to the tune of 20-30% for best growth. The natural habitat of the plant is on the borders of streams. It is successfully cultivated in well drained forest soils rich in organic matter. Laterite soils with high organic matter content and moisture holding capacity are also suitable for cultivation.Long pepper is propagated by suckers or rooted vine cuttings.15-20 cm long 3-5 nodded rooted vine cuttings establishes very well in polybags. The best time for raising nursery is March-April. Normal irrigation is given on alternate days. The rooted cuttings will be ready for transplanting in 2 months time. With the onset of monsoon in June the field is ploughed well and brought to good tilth. 15-20 cm raised beds of convenient length and breadth are taken. On these beds, pits are dug at 60 x 60 cm spacing and well decomposed organic manure at 100 g/pit is applied and mixed with the soil. Rooted vine cuttings from polybags are transplanted to these pits. Gap filling can be done after one month of planting.The crop needs heavy manuring at the rate of 20 t FYM/ha every year. Application of heavy dose organic matter and mulching increase water retention in the soil and control weeds. Small doses of chemical fertilisers can also be used. The crop needs irrigation once a week. Sprinkler irrigation is ideal. With irrigation the crop continues to produce spikes and off-season produce will be available. However, it is reported that unirrigated crop after the onset of monsoon grows vigorously and shows much hardiness than the irrigated crop.Crop losses can be heavy due to pests and diseases. Mealy bugs and root grubs, attack the plant particularly during summer. Infested plants show yellowing and stunted growth. Application of systemic insecticides like nuvacron or dimecron will control the pests. Adults and nymphs of Helopeltis theivora severely feeds on the foliage which can be controlled by 0.25% neem kernel suspension. Rotting of leaves and vines during monsoon season is caused by Colletotrichum glorosporiodes and necrotic lesions and blights on the leaves during summer is caused by Colletotrichum and Cercospora spp. These diseases can be controlled by spraying of 1% Bordeaux mixture repeatedly. A virus like disease characterised by yellowing and crinkling of leaves, stunted growth and production of spikes of smaller size and inferior quality was also recently reported.The vines start flowering six months after planting and flowers are produced almost throughout the year. The spikes mature in 2 months time. The optimum stage of harvest is when the spikes are blackish green. The pungency is highest at this stage. Spikes are hand picked when they become mature and then dried. The yield of dry spike is 400 kg /ha during first year, increases to 1000kg during third year and thereafter it decreases. Therefore, after 3 years the whole plant is harvested. The stem is cut close to the ground and roots are dug up. Average yield is 500 kg dry roots/ha (Viswanathan,1995).Piper longum can also be cultivated as an intercrop in plantations of coconut, subabul and eucalyptus.Post harvest technology: The harvested spikes are dried in sun for 4-5 days until they are perfectly dry. The green to dry spike ratio is 10:1.5 by weight. The dried spikes have to be stored in moisture proof containers. Stem and roots are cleaned, cut into pieces of 2.5-5 cm length, dried in shade and marketed as piplamool. There are three grades of piplamool, based on the thickness. The commercial drug consists 0.5-2.5 cm long ,0.5-2.5 mm thick, cylindrical pieces dirty light brown in colour and peculiar odour with a pungent bitter taste, producing numbness to the tongue.Properties and activity: The spike of long pepper contains 4-5% piperine, piplartin, piperolactam, N-isobutyl deca trans-2-trans-4-dienamide and piporadione alkaloides, besides 0.7 % essential oil. Roots gave the alkaloids piperine, piperlongumine (piplartine) and piperlonguminine; sesamine, methyl 3, 4, 5-trimethoxy cinnamate. Stem gave triacoutane 22, 23 - dihydrostigmasterol. Fruit essential oil contains piperidine, caryophyllene and sesquiterpene alcohol (Atal et al, 1975).The root is plungent, hot, stomachic, laxative, anthelmintic and carminative. The fruit is sweetish, pungent, hot, stomachic, aphrodisiac, alterative, laxative, antidysenteric, emmenagogue, abortifacient, diuretic and tonic. The essential oil is antimicrobial and anthelmintic.N-isobutyl-deca-trans-2-trans-4-dienamide is antitubercular.Piperine is hypotensive, antipyretic, analeptic, and nerve stimulant (Warrier et al, 1995).... long pepper
Dioscorea spp.DioscoreaceaeThe 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. esculentaD. 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 & BurkillD. deltoidea Wall. var. sikkimensis PrainD. sikkimensis Prain & BurkillAmong 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
Azadirachta indicaMeliaceaeSan: Nimbah, Prabhadrah Hin,Ben: Nim, Nim Mal: AryaveppuTel: Vepa Ori: NimbaTam: Vembu, Veppu Pun: Bakam,BukhainGuj: LimbaKan: Bevu Mar: LimbuImportance: Neem or margose tree, also known as Indian lilac is a highly exploited medicinal plant of Indian origin, widely grown and cultivated throughout India. Every part of the tree, namely root, bark, wood, twig, leaf, flower, fruit, seed, kernel and oil has been in use from time immemorial in the Ayurvedic and Unani systems of medicine. Nimbarishta, nimbadi churna and nimbharidra khand are well known preparations. It is valuable as an antiseptic, used in the treatment of small pox. Small twigs are used as tooth brushes and as a prophylactic for mouth and teeth complaints. Extract from the leaves are useful for sores, eczema and skin diseases. Boiled and smashed leaves serve as excellent antiseptic. Decoction of leaves is used for purifying blood. Neem oil is used in soaps, toothpaste and as a hair tonic to kill lice. Seed is used in snake bite. The fruits and leaves being renewable, provide sustainable returns. Different parts of the fruit are separated into components and each one produces derivatives of varying chemical nature and utility. Neem derivatives are now used in agriculture, public health, human and veterinary medicines, toiletries, cosmetics and livestock production. Applications as pesticides, allied agrochemicals, plant nutrients and adjuvants for improving nitrogen use efficiency are of much importance. Neem kernel suspension (1%) is a house hold insecticide. Pesticide formulations containing azadirachtin are now commercially available in India, USA, Canada, Australia and Germany. Neem cake is rich in N, P, K, Ca and S. Neem Meliacins like epinimbin and nimbidin are commercially exploited for the preparation of slow and extended release of nutrients including nitrification inhibitors (Eg. Nimin). Extracts of neem seed oil and bark check the activity of male reproductive cells and prevents sperm production. Neem seed oil is more effective than the bark for birth control. Neem based commercial products are also available for diabetes treatment (Nimbola, JK-22), contraceptive effect (Sensal, Nim-76) and mosquito/ insect repelling (Srivastava, 1989; Tewari, 1992; Parmer and Katkar, 1993; Pushpangadan et al, 1993; Mariappan, 1995).Distribution: Neem is a native of the Siwalik deccan parts of South India. It grows wild in the dry forests of Andra Pradesh, Tamil Nadu and Karnataka. It has spread to Pakistan, Bangladesh , Sri Lanka, Malaysia, Indonesia, Thailand, Middle East Sudan and Niger. It is now grown in Australia, Africa, Fiji, Mauritious, Central and South America, the Carribeans, Puerto Rico and Haiti. The largest known plantation of nearly 50,000 trees is at Arafat plains en route to Mecca in Saudi Arabia for providing shade to Haj pilgrims (Ahmed, 1988).Botany: The genus Azadirachta of family Meliaceae comprises two species: A. indica A. Juss syn. Melia azadirachta Linn. and A. excelsa (Jack) Jacobs syn. A. integrifolia Mers., the latter being found in Philippines, Sumatra, Malaya, Borneo and New Guinea. Neem is a hardy medium to large, mostly evergreen tree attaining 20m height and 2.5m girth. It has a short bole with wide spreading branches and glabrous twigs forming a round to oval crown. The bark is thick, dark-gray with numerous longitudinal furrows and transverse cracks. Leaves are imparipinnately compound, alternate, exstipulate and 20-38cm long. Inflorescence is long, slender, axillary or terminal panicle. Flowers are white or pale yellow, small, bisexual, pentamerous and bracteate. Stamens 10; filaments unite to form a moniliform tube. Gynoecium is tricarpellary and syncarpous, ovary superior, trilocular. Each carpel bears two collateral ovules on parietal placentation. Fruit is one seeded drupe with woody endocarp, greenish yellow when ripe. Seed ellipsoid, cotyledons thick fleshy and oily. Neem has chromosome number 2n = 28. Neem trees tend to become deciduous for a brief period in dry ecology. Ecotypes, exhibiting morphological variation in root growth, leaf size, contents, bole length , canopy, inflorescence, fruit bearing, seed size, shape and quality exist in natural populations.Agrotechnology: Neem grows in tropical arid regions with high temperatures, altitudes between 50m and 1000m, as little rainfall as 130mm/yr and long stretches of drought. Well drained sunny hill places are ideal. It grows on most kinds of soils including dry, stony, shallow, nutrient deficient soils with scanty vegetation, moderately saline and alkali soils, black cotton, compact clays and laterite crusts. However, silty flats, clayey depressions and land prone to inundation are not conducive for its growth (Chaturvedi, 1993). Soil pH of 5.0 to 10.0 is ideal. It brings surface soil to neutral pH by its leaf litter. It has extensive and deeply penetrating root system capable of extracting moisture and nutrients even from highly leached poor sandy soils.Neem propagates easily by seed without any pretreatment, though it can be regenerated by vegetative means like root and shoot cuttings. Seeds are collected from June to August. These remain viable for 3-5 weeks only which necessitates sowing within this short time. Seeds may be depulped and soaked in water for 6 hours before sowing. Seeds are sown on nursery beds at 15x5cm spacing, covered with rotten straw and irrigated. Germination takes 15-30 days. Seedlings can be transplanted after two months of growth onwards either to polybags or to mainfield. Neem can be grown along with agricultural crops like groundnut, bean, millets, sorghum and wheat. It is also suitable for planting in roadsides, for afforestation of wastelands and under agroforestry system. For field planting, pits of size 50-75 cm cube are dug 5-6m apart, filled with top soil and well rotten manure, formed into a heap, and seedling is planted at the centre of the heap. FYM is applied at 10-20 kg/plant every year. Chemical fertilizers are not generally applied. Irrigation and weeding are required during the first year for quick establishment.More than 38 insect pests are reported on Neem which may become serious at times. The important ones are seed and flower insect (Scirtothrips dorsalis Hood), defoliators (Boarmia variegata Moore and Eurema sp.), sap suckers (Helopeltes antonii Signoret and Pulvinaria maxima Green) , root feeders (Hototrichia consanguinea Blanchard), mealy bug (Pseudococus gilbertensis), scale insect (Parlatoria orientalis) and a leaf webber (Loboschiza Koenigiana)(Beeson, 1941, Bhasin et al, 1958, Parmar, 1995). They can be controlled by the application of 0.01-0.02% monocrotophos or dimethoate. No serious diseases are reported in Neem. Flowering starts after 5 years. In India flowering is during January-May and fruits mature from May-August. The leaves are shed during February- March and a full grown tree produces about 350 kg dry leaves and 40-50 kg berries per annum. Fresh fruits give 60% dry fruits which yield 10% kernel which contains 45% fixed oil, on an average. After 10 years of growth the wood can be cut and used as timber.Properties and Activity: Dry Neem leaves contain carbohydrates 47-51%, crude protein 14-19%, crude fiber 11-24%, fat 2-7%, ash 7-9%, Ca 0.8-2.5% and P 0.1-0.2%. Leaves also contain the flavanoid quercetin, nimbosterol (-sitosterol), kaempferol and myricetin. Seed and oil contains desacetylnimbin, azadirachtin (C35H44O16), nimbidol, meliantriol ,tannic acid, S and amino acids. Neem cake contain the highest sulphur content of 1.07% among all the oil cakes. Trunk bark contains nimbin 0.04%, nimbinin 0.001%, nimbidin 0.4%, nimbosterol 0.03%, essential oil 0.02%, tannins 6.0 %, margosine and desacetylnimbin (Atal and Kapur, 1982; Thakur et al 1989).Neem bark is bitter, astringent, acrid, refrigerant, depurative, antiperiodic, vulnerary, demulcent, insecticidal, liver tonic, expectorant and anthelmintic. Leaves are bitter, astringent, acrid, depurative, antiseptic, ophthalmic, anthelmintic, alexeteric, appetizer, insecticidal, demulcent and refrigerant. Seed and oil are bitter, acrid, thermogenic, purgative, emollient, anodyne, anthelmintic depurative, vulnerary, uterine stimulant, urinary astringent, pesticidal and antimicrobial (Warrier et al, 1993).... neem
an inflorescence, usually conical in outline in which the lowest flowers open first.... raceme
an inflorescence in which the sessile flowers are arranged in a raceme.... spike
Ammi majusApiaceaeImportance: Greater Ammi, also known as Bishop’s weed or Honey plant is an annual or biennial herb which is extensively used in the treatment of leucoderma (vitiligo) and psoriasis. The compounds responsible for this are reported to be furocoumarins like ammoidin (xanthotoxin), ammidin (imperatorin) and majudin (bergapten) present in the seed. Xanthotoxin is marketed under the trade name “Ox soralen” which is administered orally in doses of 50 mg t.d. or applied externally as 1% liniment followed by exposure of affected areas to sunlight or UV light for 2 hours. It is also used in “Suntan lotion”. Meladinine is a by-product of Ammi majus processing, containing both xanthotoxin and imperatorin sold in various formulations increases pigmentation of normal skin and induces repigmentation in vitiligo. Imperatorin has antitumour activity. Fruit or seed causes photosensitization in fouls and sheep.Distribution: The plant is indigenous to Egypt and it grows in the Nile Valley, especially in Behira and Fayoom. It is also found in the basin of the Mediterranean Sea, in Syria, Palestine, Abyssinia, West Africa, in some regions of Iran and the mountains of Kohaz (Ramadan, 1982). It grows wild in the wild state in Abbottabad, Mainwali, Mahran and is cultivated in Pakistan. The crop was introduced to India in the Forest Research Institute, Dehra Dun, in 1955 through the courtesy of UNESCO. Since then, the crop has been grown for its medicinal fruit in several places in Uttar Pradesh, Gujarat, Kashmir and Tamil Nadu.Botany: Ammi majus Linn. belongs to the family Apiaceae (Umbelliferae). A. visnaga is another related species of medicinal importance. A. majus is an annual or beinnial herb growing to a height of 80 to 120 cm. It has a long tap root, solid erect stem, decompound leaves, light green alternate, variously pinnately divided, having lanceolate to oval segments. Inflorescence is axillary and terminal compound umbels with white flowers. The fruits are ribbed, ellipsoid, green to greenish brown when immature, turning reddish brown at maturity and having a characteristic terebinthinate odour becoming strong on crushing with extremely pungent and slightly bitter taste.Agrotechnology: Ammi is relatively cold loving and it comes up well under subtropical and temperate conditions. It does not prefer heavy rainfall. Though the plant is biennial it behaves as an annual under cultivation in India. A mild cool climate in the early stages of crop growth and a warm dry weather at maturity is ideal. It is cultivated as a winter annual crop in rabi season. A wide variety of soils from sandy loam to clay loam are suitable. However, a well drained loamy soil is the best. Waterlogged soils are not good. Being a hardy crop, it thrives on poor and degraded soils.The plant is seed propagated. Seeds germinate within 10-12 days of sowing. The best time of sowing is October and the crop duration is 160-170 days in north India. Crop sown later gives lower yield. The crop can be raised either by direct sowing of seed or by raising a nursery and then transplanting the crop. Seed rate is 2 kg/ha. The land is brought to a fine tilth by repeated ploughing and harrowing. Ridges and furrows are then formed at 45-60 cm spacing. Well decomposed FYM at 10-15 t/ha and basal fertilisers are incorporated in the furrows. Seeds being very small are mixed with fine sand or soil, sown in furrows and covered lightly with a thin layer of soil. A fertilizer dose of 80:30:30 kg N, P2O5 and K2O/ha is generally recommended for the crop while 150:40:40 kg/ha is suggested in poor soils for better yields. The furocoumarin content of Ammi majus is increased by N fertiliser and the N use efficiency increases with split application of N at sowing, branching and at flowering. For obtaining high yields it is essential to give one or two hoeings during November to February which keeps down the weeds. If winter rains fail, one irrigation is essential during November to January. As the harvesting season is spread over a long period of time, two irrigations during March and April meets the requirements of the crop (Chadha and Gupta, 1995).White ants and cut worms are reported to attack the crop which can be controlled by spraying the crop with 40g carbaryl in 10 l of water. Damping off and powdery mildew are the common diseases of the crop. Seed treatment with organomercuric compounds is recommended for damping off. To control powdery mildew the crop is to be sprayed with 30g wettable sulphur in 10 l of water whenever noticed.The crop flowers in February. Flowering and maturity of seed is spread over a long period of two months. The primary umbels and the early maturing secondary umbels are the major contributors to yield. A little delay in harvesting results in the shattering of the seed which is the main constraint in the commercial cultivation of the crop and the main reason for low yields in India. Sobti et al (1978) have reported increased yield by 50 - 60% by the application of planofix at 5 ppm at flower initiation and fruit formation stages. The optimum time of harvest is the mature green stage of the fruit in view of the reduced losses due to shattering and maximum contents of furocoumarins. The primary umbels mature first within 35-45 days. These are harvested at an interval of 2-4 days. Later, the early appearing secondary umbels are harvested. Afterwards, the entire crop is harvested, stored for a couple of days and then threshed to separate the seeds. The seed yield is 900-1200 kg/ha.Postharvest technology: The processing of seed involves solvent extraction of powdered seeds, followed by chilling and liquid extraction and chromatographic separation after treatment with alcoholic HCl. Bergapten, xanthotoxin and xanthotoxol can be separated. Xanthotoxol can be methylated and the total xanthotoxin can be purified by charcoal treatment in acetone or alcohol.Properties and activity: Ammi majus fruit contains amorphous glucoside 1%, tannin 0.45%, oleoresin 4.76%, acrid oil 3.2%, fixed oil 12.92%, proteins 13.83% and cellulose 22.4%. This is one of the richest sources of linear furocoumarins. Ivie (1978) evaluated the furocoumarin chemistry of taxa Ammi majus and reported the presence of xanthotoxin, bergapten, imperatorin, oxypencedanin, heraclenin, sexalin, pabulenol and many other compounds. Furocoumarins have bactericidal, fungicidal, insecticidal, larvicidal, moluscicidal, nematicidal, ovicidal, viricidal and herbicidal activities (Duke, 1988).... greater ammi
Plumbago spp.PlumbaginaceaeThe 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: YerracitramulamRosy-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:VellakotuveliTam: Sittragam, Chittiramoolam;Kan: Vahini; Mar: Chitraka;Tel: ChitramulamWhite 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. capensisEng: Blue flowered Leadwort;Mal: NeelakotuveliThe 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
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
Strychnos nux-vomicaLoganiaceaeSan: Karaskara;Hin: Kajra, Kuchila;Mal: Kanjiram; ;Tam: Itti, Kagodi, Kanjirai Mar:Jharkhatchura;Kan: Hemmushti, Ittangi;Tel: Mushti, Mushidi; Ori: Kora, KachilaImportance: 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
Agonis fragrans
FAMILY: Myrtaceae
SYNONYMS: Taxandria fragrans, coarse tea-tree.
GENERAL DESCRIPTION: Agonis is a genus comprising four species, all of which are native to Western Australia. The species generally have fibrous, brown bark, dull green leaves and inflorescences of small, white flowers. They are best known and most readily identified by the powerful peppermint or eucalyptus-like odour emitted when the leaves are crushed or torn. A. fragrans is a small shrub which grows up to 2.5 metres high, with narrow leaves and clusters of small white flowers, characteristic of the genus.
DISTRIBUTION: As a wild native species, fragonia (A. fragrans) has limited distribution in Western Australia, growing near the coast in the south-west region and being reliant on its winter rains and drier summers. For commercial purposes, A. fragrans is grown in large plantations in south-western Australia.
OTHER SPECIES: The Myrtaceae is a large family of plants with over 3,000 species. It is one of the most important families from an aromatherapy perspective, as it includes not only members of the Agonis genus (which includes trees such as A. flexuosa, the Western Australian peppermint) but also hundreds of aromatic plants from the Eucalyptus, Leptospermum, Melaleuca, Myrtus and Pimenta genera. There are several varying chemotypes of A. fragrans, but fragonia essential oil has a unique balance of primary constituents, which imparts its particular therapeutic qualities.
HERBAL/FOLK TRADITION: The name Agonis derives from the Greek agon, meaning ‘gathering’ or ‘collection’, in reference to the tightly clustered flowers. Traditional knowledge on A. fragrans has never been recorded, and there is no known use of the plant by early settlers. The species only came to the forefront at around the turn of the century when a husband-and-wife team heard about the local plant and began to explore its potential. Having selected superior genetic varieties, they established a small plantation of these shrubs on their property in south-west Western Australia in 2001. The essential oil distilled from this specific plant and chemotype is thus relatively new to the aromatherapy industry. Indeed it has only recently been given its common name ‘fragonia’ by its discoverer Chris Robinson, and has since been trademarked as FragoniaTM. In a series of tests, the University of Western Australia demonstrated that fragonia oil has anti-inflammatory properties and significant anti-microbial activity, similar to tea tree oil.
ACTIONS: Analgesic (mild), antibacterial, anti-inflammatory, antifungal, antimicrobial, anti-infectious, antiseptic, expectorant, immuno-tonic, nervine, regulating.
EXTRACTION: An essential oil by steam distillation from the stems, twigs and leaves.
CHARACTERISTICS: A pale, watery liquid with a pleasant slightly citrus, fresh-clean and faintly medicinal top note, mixed with a slight spicy, earthy and balsamic undertone: more pleasing than tea tree. It blends well with niaouli, eucalyptus, myrtle, lemon myrtle, rosemary and tea tree.
PRINCIPAL CONSTITUENTS: Primary constituents are 1,8-cineole, alpha-pinene and linalool. From a chemical perspective, it is an extremely well-balanced oil, with the oxides (1,8-cineole), monoterpenes (alpha-pinene) and monoterpenols (linalool, geraniol, terpineol and others) in a near perfect 1:1:1 ratio.
SAFETY DATA: Fragonia essential oil is non-toxic, non-irritant and non-sensitizing: an extremely mild oil when applied to the skin and safe for children.
AROMATHERAPY/HOME: USE:
Skin Care: Cuts, bites, stings and general skin care.
Circulation Muscles And Joints: Aching muscles and joints, arthritis, rheumatism.
Respiratory System: Asthma, bronchitis, coughs, colds, influenza, sinusitis, tonsillitis.
Genito-Urinary System: Candida (thrush), menstrual pain and breast tenderness, vaginitis.
Immune System: Powerful immune-system tonic and restorative.
Nervous System: Anxiety, depression, emotional blockages, grief, insomnia, nervous debility and tension, mood swings, stress.
OTHER USES: Many Agonis species are used as decorative garden plants while sprigs of the white flowers of A. fragrans are cut and used in the florist industry. Fragonia oil is now being used in the phyto-cosmetic industry, e.g. for soaps and skin care products. The oil can also be used as a natural, fresh-smelling disinfectant around the home, e.g. as a room fragrance, in the laundry and for cleaning bathroom and kitchen surfaces.... fragonia