��

�

Abbas, H. K., Vesaonder, R.F., Boyette, C.D. and Peterson, S.W. 1992.

Phytotoxicity of AAL-toxin and other compounds produced

by Alternaria alternate to jimson weed. Weed Tech. 6: 549-552.

Abdul-Rahman, A. A. and Habib, S.A.1989. Allelopathic effect of alfalfa

(Medicago sativa) on bladygrass (Imperata cylindrica). Journal of

Chemical Ecology. 15: 2289-2300.

Abugre, S. and Quashie-Sam, S. J. 2010. Evaluating the Allelopathic Effect of

Jatropha curcas Aqueous Extract on Germination, Radicle and

Plumule Length of Crops. International Journal of Agriculture&

Biology. 1560 – 8530.

Agaceta, L.M., Dumag, P.U. and Batolos, J.A. 1981. Studies on the control of

snail vectors of fascioliasis: Molluscicidal activity of some

indigenous plants. In: Bureau of Animal Industry, Manila,

Philippines, NSDB Technology Journal: Abstracts on Tropical

Agriculture 7. 38008; 6: 2: 30–34.

Akinpelu, D. A., Aiyegoro, O. A. and Okoh, A. I. 2009. The bioactive

potentials of two medicinal plants commonly used as folklore

������������

������ ����

���

�

remedies among some tribes in West Africa. African J. Biotechnol.

8: 1660 – 1664.

Akram, M. and Hussain, F. 1987. The possible role of allelopathy exhibited

by root extracts and exudates of Chinese cabbage in hydroponics.

Pakistan Journal of Science and Industrial Research. 30: 918 -

920.

Alderman, W.H. and Middleton, J.A. 1925. Toxic relations of other crops to

tomatoes. Proceeding. American Society of Horticultural

Science. 22: 307 - 308.

Aliotta, G. and Cafiero, G., 1999. Biological properties of Ruta graveolens and

its potential use in sustainable agricultural systems. 551-563, In:

Dakshiny K.M.M. and Foy C.L., (eds.), Principles and Practice in

Plant Ecology. CRC Press Boca Raton FL., 608p.

Alam, S. M. 1990. Effect of wild plant extracts on germination and seedling

growth of wheat. Journal Rachis 1990 Vol. 9 No. 2 Pp. 12-13.

An, M, Pratley.J. and Haig, T. 1996. Allelopathy: from concept to reality

Proc.8th

Aust. Agron. Conf., Toowoomba. Pp. 616.

Altieri, M.A. 1999. The ecological role of biodiversity in agroecosystems.

Agriculture, Ecosystems and Environment 74, 19–31. Agriculture,

Ecosystems and Environment .74 (1999): 19–31.

����

�

Al-Saadawi, I.S. and Rice, E.L. 1982. Allelopathic effects of Polygonum

aviculare L. Vegetational pattering. Journal of Chemical Ecology.

8: 993-1010.

Al-Saadawi, I.S., Al-Ugaili, J.K., Al-Hadithy, S.A.M. and Al-Rubeaa, J.

1985. Effect of gamma irradiation of allelopathic potential of

Sorghum bicolor against weds and nitrification. Journal of

Chemical Ecology. 11: 1732-1745.

Anjum, T. and R. Bajwa. 2005. Allelopathic potential of sunflower (Helianthus

annuus L.) as natural herbicide. Second Intl.’ Weed Sci. Conf.

WSSP Absts. Pp. 17.

Anya,A.L.,M.M.Rubaleava,R.C.Ortega,C.G.Santana,P.N.S.Monterrubio

,.E.H.Bautista.and R. Mata, 2005. Allelochemicals from

Staurantus perforates, a Rutaceae tree of the Yuctan Pensula,

Mexico. Phytochemistry. 66: 487-494.

Ashrafi, Z.Y., Mashhadi, H.R. and Sadeghi, S. 2007. Allelopathic effects of

barley (Hordeum vulgare) on germination and growth of wild

barley (Hordeum spontaneum). Pakistan Journal of Weed Science

Research. 13(1–2): 99 – 112.

Ashri, A., 1989. Sesame In: Oil Crops of the World, Robselen, G., R. Downey

and A. Ashri (Eds.). McGraw-Hill, New York. pp: 375 - 387.

���

�

Bagchi, G. D., D. C. Jain. and S. Kumar 1997. Arteether: a potent plant

growth inhibitor from Artemisia annua. Phytochemistry. 45

(6):1131-1133.

Bais,H.P.,Walker,T.S.,Stermitz,F.R.,Hufbauer,R.A.andVivanco,J.M.2002.

Enantiomericdependent phytotoxic and antimicrobial activity of

(±)-catechin. A rhizosecreted racemic mixture from spotted

knapweed (Centaurea maculosa). Plant Physiol. 128:1173 – 1179.

Bhumibhamon, S., Turakka, A. and Atipanumpai, L. 1980. Effect of biocides

extracted from Imperata cylindrica grass on the germination of

local seeds. Faculty of Forestry, Kasetsart University, Thailand,

Research Note No. 33: 1- 8.

Bako, S.P. and Aguh, B.I. 2007. Qualitative evaluation of phytochemical

profiles in Loranthacean mistletoes (Tapinanthus sp.) as related to

their hosts. Nig. J. Bot. 20: 297 - 305.

Baldev, B .1988. Cropping patterns. In Pulse Crop (Grain Legumes), .Eds

Baldev B, Ramanujam S, Jain HK. Oxford & IBH Publishing

Co.Pvt. Ltd. p. 513 - 557.

Benge, M. 2006. Assessment of the potential of Jatropha curcas, (biodiesel

tree,) for energy production and other uses in developing countries.

USAID. [Online] available www.echotech.org/mambo/index.php?

option= com_docman&task=doc_view&gid.

��

�

Bentley, W.R. 1985. Agroforestry-a strategy for research and action in India.

In: Sasikarnar, K., C. Vijayaleksshimi and K.T. Parthiban (eds.),

Allelopathic effects of four Eucalyptus species on Redgram

(Cajanus cajan L.). J. Trop. Agric. 39: 134 – 138

Bhatnagar CP, Chandola RP, Saxena DK, Sethi, S .1974. Cytotaxonomic

studies on genus phaseolus. Indian J. Genet. and Plant Breed. 34:

800-84.

Biswas, T.K., N.K. Sana, R.K. Badal and E.M. Huque, 2001. Biochemical

study of some oil seeds (Brassica, Sesame and Linseed). Pak. J.

Biol. Sci. 4: 1002 - 1005.

Blum, V. and Rice E. L. 1969. Inhibition of symbiotic nitrogen fixation by

gallic and tannic acids and possible roles in old field

successions. Bulletin of the Torrey Botanical Club. 96: 531 -

544.

Bonner, J. 1960. Liberation of organic substances from higher plants and their

role in soil sickness problem. Botanical Review. 26: 393 - 424.

Bose,R.D.1932. Studies in Indian pulses. No. 4. Mung or greengram

(PhaseolusradiatusLinn.). Indian J. Agric. Sci. 2: 607- 624.

Breazeale, J.F. 1924. The injurious after-effects of sorghum. Agronomy Journal.

16 (11): 689-700.

Burkill, H.M. 1994. The Useful Plants of West Tropical Africa. Vol. 2. Royal

Botanical Gardens, Kew. pp: 87- 94.

���

�

Caamal-Maldonado, J.A., J.J. Jimenez-Osornio, A. Torres-Barragan, and

A.L. Anaya. 2001. The use of allelopathic legume cover crops and

mulch species for weed control in cropping systems. Agron. J. 93:

27 – 36.

Cheema, Z. A. 1988. Weed control in wheat through sorghum allelochemicals.

Ph.D. Thesis. Dept. of Agronomy, Univ. of Agriculture,

Faisalabad.

Chon, S.U. 2005. Allelopathic potential in lettuce (Lactuca sativa L.) plants. Sci.

Horicult. 106: 309 - 317.

Coder Kim D. 1999. Potential Allelopathy in different tree species. University

of Georgia Daniel B. Warnell School of Forest Resources

Extension publication . 99: 3- 5.

Dahmardeh, M., A. Ghanbari, B.A. Syahsar and M. Ramrodi, 2010. The role

of intercropping maize (Zea mays L.) and Cowpea (Vigna

unguiculata L.) on yield and soil chemical properties. Afr. J. Agric.

Res. 5: 631- 636.

Dayan, F.E., Romagni, J.G, Duke, S.O. 2000. Investigating the mode of action

of natural phytotoxins. J. Chem. Ecol. 26: 2079 – 2094.

De Candolle, M.A.P. 1832. Physiologie Vegetale. Tome III, Bechet Jeune, Paris.

1474 - 1475.

Demuner, A. J., Dealmeida Barbosa, L. C., Veloso, D. P., Alvez, D. L. F.,

and Howarth, O. W. 1996. Structure and plant growth regulatory

����

�

activity of new diterpenes from Pterodon polygalaeflorus. J. Nat.

Prod. 59: 770 –772.

Dhole , J.A, Bodke, S.S and Dhole, N.A.2011. Allelopathic effect of aqueous

extract of five selected weed species on seed mycoflora, seed

germination and seedling growth of Sorghum vulgare Pers.

(Jawar). Research Journal of Pharmaceutical, Biological and

Chemical Sciences.2 (3): 142.

Dubenko, N.N. and Petrenko, N.I. 1971. On biochemical interactions of

cultivated plants and weeds. In: Physiological and Biochemical

Interactions Between the Plants in Phytocenosis (Ed., A.M.

Grodzinsky) 2: 60-66. Naukova Dumka, Kiev, USSR .

Duke, J. A. 1983. Jatropha curcas L. Handbook of Energy Crops.

http://www.hort.purdue.edu/newcrop/duke_energy/Jatropha_curca

s.html.

Duke, J.A. and Wain, K.K. 1981. Medicinal plants of the world. Computer

index with more than 85,000 entries. 3 vols. Edition. Pearson

International Edition. New Jersey.

Dzyubenko, N.N. and Petrenko, N.I. 1971. On biochemical interactions of

cultivated plants and weeds. In: Physiological and Biochemical

Interactions Between the Plants in Phytocenosis (Ed., A.M.

Grodzinsky) Vol. 2: 60-66. Naukova Dumka, Kiev, USSR .

�����

�

Ebrahim Gholamlipour Alamdari and Deokule, S.S. 2009. Allelopathic

effects of some some weeds on growth and yield pf paddy rice (

Tarom variety ) in Northern Iran. Pak. J. Weed Sci. Res. 15 (2-3):

123-129.

Edeoga, H.O., D.E. Okwu and B.O. Mbaebie, 2005. Phytochemical

constituents of some Nigerian medicinal plants. Afr. J. Biotechnol.

4: 685 - 688.

Einhellig, F.A. 1996. Interactions involving allelopathy in cropping systems.

Agronomy Journal. 88: 886 – 893.

Einhelling, F. A., G. R. Leather and L. L. Hobbs. 1985. Use of Lemna miinor

L. as a bioassay in allelopathy. J. Chem. Ecol. 11: 65-72.

Ercisli, S., Esitken, A., Turkkal, C. and Orhan, E. 2005. The allelopathic

effects of juglone and walnut leaf extracts on yield, growth,

chemical and PNE compositions of strawberry cv. Fern. Plant Soil

Environ. 6: 283 - 287.

El-Khatib , A.A and Hegazy, A.k.1999. Growth and physiological responses

of wild oats allelopathic potential of whaet. Acta Agro. Hung.

47(1): 11–18.

Eyini, M., Jayakumar, H., Panniselvam, S. 1989. Allelopathic effect of

bamboo leaf extract on the seedlings of groundnut. Trop. Ecol. 30:

138 – 141.

���

�

Faraz, M., K Mohammed, K., Narysanna, G and Hamid, R.V. 2003.

Phytochemical Screening of Some Species of Iranian plants.

Iranian J Pharm Res. 3: 77- 82.

Fay, P.K. and Duke, W.B. 1977. An Assessment of allelopathic potential of

Avena germplasm. Weed Science 25: 224-228.

Flávia Tavares Colpas, Elizabeth Orika Ono2, João Domingos Rodrigues2

and José Raimundo de Souza Passos. 2003. Effects of some

phenolic compounds on soybean seed germination and on seed-

borne fungi. Brazilian archives of biology and technology, An

International Journal. .46 (2): 155-161

Fletcher, F. 1912. Toxic Excreta of Plants. Journal of Agricultural Science. 4

(3): pp 245-247

Forney, R.D., Roy, C.L. and Wolf, D.D. 1983. In: Proceedings, South West

Science Society 36: 358.

Forouzmand, M.A., Ghorbani, G.R. and Alikhani, M. 2005. Influence of

Hybrid and Maturity on the Nutritional Value of Corn Silage for

Lactating Dairy Cows 1: Intake, Milk Production and Component

Yield. Pakistan J. Nutr. 4: 435-441.

Ganesh, S. and Vennila., J.J. 2011. Phytochemical analysis of Acanthus

ilififolius and Avicennia officinalis by GC-MS. Res. J. Phytochem.

��

�

Gliessman, S .R. 2002. Agroecología: Procesos Ecológicos en Agricultura

Sostenible. CATIE, Turrialba, C. R. pp: 3-16.

George Buta, J and William R. Lurby. 1985. Catechins as germination and

growth inhibitors in Lepedeza seeds. Phytochemistry. 25 (1): 93 -

95.

Ghanbari, A and Lee, H.C.2003. Intercropped wheat (Triticum aestivum.) and

bean (Vicia faba.) as whole-crop forage: Effect of harvest time on

forage yield and quality. Grass Forage Sci. 1: 28 - 36.

González, L., X.C. Souto and M.J. Reigosa 1997. Weed control by Capsicum

annuum. Allelopathy. J. 4: 101-110.

Gour, Y.D., 1993. Microbiology, physiology and agronomy of nitrogen fixation:

Legume-Rhizobium symbiosis. Proc. Indian Nat. Sci. Acad. 59:

333-358.

Goswami . A, 2006. Long-run marginal-cost based economic evaluation of

biodiesel production from jatropha. Biofuel TERI.

Gübitz, G.M., M. Mittelbach and M. Trabi, 1997. Biofuels and Industrial

Products from Jatropha curcas, pp: 98–109. Dbv-Verlag fur die

Technische Universitat Graz, Graz, Austria.

Gubitz, G.M., Mittelbach, M. and Trabi, M., 1999. Exploitation of tropical oil

seed plant Jatropha curcas L. Bioresource Technology. 67: 73 – 82.

Haq, I.U. and Husssain, F. 1979. Effect of root exudates of tobacco (Nicotiana

rustica L.) on some cultivated plants. Pak. Tobacco 3: 17-19.

���

�

Harborne, J.B. 1973. Phytochemical methods. Chapman and Hall Ltd., London,

pp.49-188.

Harborne, J. B. 1993. Introduction to Ecological Biochemistry (Fourth Edition).

Academic Press, London. pp.318

Harrison, H.F. and Peterson, J.K. 1986. Evidence that sweet potato (Ipomea

batatas) is allelopathic to yellow nutsedge (Cyperus esculentus).

Weed Science. 39: 308 -312.

Hartwell, J.L. 1967-1971. Plants used against cancer. A survey. Lloydia. 30 - 34.

Hassan, S.W., M.J. Ladan, R.A. Dogondaji, R.A. Umar and L.S. Bilbis et al.,

2007. Phytochemical and toxicological studies of aqueous leaves

extracts of Erythrophleum africanum. Pak. J. Biol. Sci. 10: 3815 -

3821.

Hawkins, R.S. 1925. The Deleterious Effect of Sorghum on the Soil and on the

Succeeding Crops. Agronomy Journal. 17: 91-91.

Hegazy, A. K. And E. M. Fadl-Allah. 1995. Inhibition of seed germination and

seedling growth by Cleome droserifolia and allelopathic effect on

rhizosphere fungi in Egypt. J. Arid Env. 29: 3 - 11.

Heisey, R.M. 1990. Allelopathic and herbicidal effects of extracts from tree of

heaven (Ailanthus altissima). Amer. J. Bot. 77: 662 - 670.

Heller, J. 1996. Physic nut Jatropha curcas L. Promoting the conservation and

use of underutilized and neglected crops. Institute of Plant Genetics

����

�

and Crop Plant Research, Gatersleben. Inter. Plant Gene. Res.

Instit. Rome Italy. p. 66.

Henning., R. K. 2004. The Jatropha system” Integrated Rural Development by

Utilization of Jatropha curcas L. (JCL) as Raw material and as

Renewable Energy. Accessed at http://www.jatropha.de/journal/

The%20jatropha%20paper%june%202004.pdf. 19/6/09

Hethelyi, E., Danos B., Teteny P. 1986. GC-MS analysis of the essential oils of

four Tagetes species and the anti-microbial activity of Tagetes

minuta. Flav. Fragrance J. 1: 169–173.

Hicks, S.K., Wendt, C.W. and Gannaway, J.R. 1988. Allelopathic Effects of

Wheat Straw on Cotton Germination and Seedling Development.

The Texas Agricultural Experiment Station. The Texas A&M

University, College Station. Texas. Bulletin pp. 1-5.

Hirsch, A.M. 1992. Developmental biology of legume nodulation. New Phytol.

122: 211 – 237.

Ibrahim, H., F.S. Sani, B.H. Danladi and A.A. Ahmadu, 2007. Phytochemical

and antisickling studies of the leaves of Hymenocardia acida Tul.

(Euphorbiaceae). Pak. J. Biol. Sci. 10: 788 -791.

Igbinosa, O.O., E.O. Igbinosa and O.A. Aiyegoro, 2009. Antimicrobial

activity and phytochemical screening of stem bark extracts from

Jatropha curccas (Linn). African J. Pharmacy Pharmacol.

3: 58 – 62.

�����

�

Inderjit & Mallik, A.U.1996. The nature of interference potential of Kalmia

angustifolia. Canadian Journal of Forest Research. 26: 1899 –

1904.

Irshad, M., I. Ahmad, H.C. Goel and M.M.A. Rizvi, 2010. Phytochemical

screening and high performance TLC analysis of some cucurbits.

Res. J. Phytochem. 4: 242 - 247.

Jadhar, B.B. and D.G. Gayanar. 1992. Allelopathic effects of Acacia

auriculiformis on germination of rice and cowpea. Int. J. Plant

Physiol. 1: 86-89.

Jayakumar, M., Eyini, M and Pannirselvam, S. 1990. Allelopathic effects of

Eucalyptus globules labill. in groundnut and corn. Comparative

Physiology and Ecology 15, 109-113.

Jefferson, L. V., Pennachio, M., 2003. Allelopathic effects of foliage extracts

from four Chenopodiacae species on seed germination. J Arid

Environ. 55:275-285.

Jing Quan Yu. 1999. Allelopathic suppression of pseudomonas Solanacearum

infection of tomato (lycopersicon Esculentum) in a tomato-chinese

chive (allium tuberosum) intercropping system. Journal of

Chemical Ecology. 25: 11

Kaletha, M.S., B.P. Bhatt and N.P. Todaria. 1996. Tree-crop interaction in

traditional agroforestry systems of Garhwal Himalaya.

����

�

1.Phytotoxic effects of farm trees on food crops. Allelopathy J.3

(2): 247-50.

Khan, M.A., K.B. Marwat, G. Hassan and Z. Hussain. 2005. Bioherbicidal

effects of tree extracts on seed germination and growth of crops

and weeds. Pak. J. Weed Sci. Res. 11(3- 4): 179 - 184.

Kimber, R. W. L. 1973. Phytotoxicity from plant residues III. The relative

effect of toxins and nitrogen immobilization on the germination

and growth of wheat. Plant and Soil 38: 543-555.

Kocacaliskan, I., Terzi, I., 2001. Allelopathic effects of walnut leaf extracts and

juglone on seed germination and seedling growth. J Hort Sci &

Biotech. 76: 436-440.

Lakshmi Nandakumar and N. S. Rangaswamy.1985. Effect of some

Flavonoids and Phenolic Acids on Seed Germination and Rooting.

Journal of Experimental Botany. 36 (8): 1313 - 1319.

Leather, G.R. 1983. Sunflowers (Helianthus annuus L.) are allelopathic to

weeds. Weed Science 31: 37- 42.

Lele. S, 2006. India's BioDiesel Scene, The Latest Biodiesel Developments In A

Nation Determined To Achieve Energy Independence “Ethanol

Blending To Reduce Emissions from Heavy-Duty Diesel Engines”,

www.ornl.gov/sci/eeree/PDFs/sci_tech_hilights/No_1_2001p9.pdf.

Levin, D.A .1976. The chemical defenses of plants to pathogens and

herbivorous. Annual Review of Ecological Systematics. 7: 121 -

159.

���

�

List, P.H. and Horhammer, L. 1969–1979. Hager's handbuch der

pharmazeutischen praxis. vols 2–6. Springer-Verlag, Berlin.

Little, E.L., Jr., Woodbury, R.O., and Wadsworth, F.H. 1974. Trees of

Puerto Rico and the Virgin Islands, vol. 2. Ag. Handbook 449.

USDA, Washington, DC.

Liu, L., Sporer F., Wink, M., Jourdane, J., Hennig. R., Li, Y.L and Ruppel,

A. 1997. Anthraquinones in Rheum palmatum and Rumex dentatus

(Polygonaceae) and phorbolesters from J. curcas (Euphorbiaceae)

with molluscicidal activity against schistosomias vector snails

Oncomelania, Biomphalaria and Bulinus. Tropical Med. Int.

Health. 2: 179 – 188.

Loannis, V., Dhima, K. and Eleftherohorinos, I. 2005. Allelopathic potential

of Bermuda grass and Johnson grass and their interference with

Cotton and Corn. Allelopathy J. 97: 303-313.

Lodhi, M.A.K. 1981. Accelerated soil mineralization, nitrification and

revegetation of abandoned fields due to the removal of crop-soil

phytotoxicity. Journal of Chemical Ecology 7: 685 - 693.

Macías, F.A., Castellano, D., Molinill, J. M. G. 2000. Search for a standard

phytotoxic biossay for allelochemicals. Selection of standard target

species. J Agric Food Chem 48: 2512-2521

����

�

Macías, F.A., Torres, A., Galindo, L.G., Varela, R.M., Jose´, A.A. and

Molinillo, M.G. 2002. Bioactive terpenoids from sunflower leaves

cv. Peredovick. Phytochemistry. 61: 687- 692.

Mahmood, A. and Athar, M. 2008. Cross inoculation studies: Response of

Vigna mungo to inoculation with rhizobia from tree legumes

growing under arid Environment. Int. J. Environ. Sci. Technol. 5:

135-139.

Mallikharjunah, P.B., L.N. Rajanna, Y.N. Seetharam and G.K.

Sharanabasappa, 2007. Phytochemical studies of Strychnos

potatorum L.f.-A medicinal plant. E-J. Phytochemistry. 4: 510-518.

Makkar, H.P.S., Becker, K., Sporer, F. and Wink, M. 1997. Studies on

nutritive potential and toxic constituents of different provenances

of J. curcas. J. Agric. Food Chem. 45: 3152–3157.

Maldonado, J.A.C., Osornio, J.J., Barragan, T.A. and Anaya, A.L. 2001. The

use of allelopathic legume cover and mulch spocies for weed

control in cropping system. Agron. J. 93: 27-36.

Mandal. S., Mandal. M and Das, A.2009. Stimulation of indoleacetic acid

production in a Rhizobium isolate of Vigna mungo by root nodule

phenolic acids. Arch. Microbiol. 191: 389-393.

Manikandan , M. 2000. Allelopathy and Herbicidal Potential of Some Selected

Tree Species in Srivilliputhure Reserve Forest, Tamilnadu. A thesis

�����

�

Submitted to Madurai Kamarajar University, Madurai. Tamilnadu,

India.

Manikandan , M. and Jayakumar, M. 2012. Herbicidal Effect of Ficus

bengalensis Aqueous Extract on Ipomoea pentaphylla.

International Journal of Agriculture: Research and Review. 2 (1),

35-38, 2012.

Martin, P. and Rademacher, B. 1960. Studies on the mutual influences of

weeds and crops. Symposium of British Ecological Society. 1: 143-

152.

Marzena Blazewicz-Wozniak and Dariusz Wach. 2011. The effect of

intercropping on yielding of root vegetables of Apiaceae family.

Acta Sci. Pol., Hortorum Cultus. 10(4) 2011, 233-243

Massantini, F., Caporali, F. and Zellini, G. 1977. EWRS Symposium on

Different Methods of Weed Control and their Integration 1: 23-30.

Mehri Saffari and Torabi-Sirchi,M.H. 2011. Allelopathic Effects of Straw

Extract from Two Native Iranian Wheat Varieties on the Growth of

Two Corn Varieties (Single Cross 647, 704). American-Eurasian J.

Agric. & Environ. Sci. 10 (2): 133-139, 2011

Mitchell, J.C. and Rook, A. 1979. Botanical dermatology. Greenglass Ltd,

Vancouver, B.C., Canada. pp. 787

������

�

Ming Dao Wang, Hongge Chen, Xinyu Liu, Yuqian Gao, Kun Wu and

Xincheng Jia. 2010. Lauric acid and 2, 6-ditertbutyl phenol, two

major allelochemicals from Rehmannia glutinosa inhibiting the

germination of succeeding crop, Sesamum indicum. African

Journal of Biotechnology. 9 (50): 8672-8678.

Muhammad Naseem, Muhammad Aslam, Muhammad Ansar and

Muhammad Azhar. 2009. Allelopathic effects of sunflower water

extract on Weed control and wheat productivity. Pak. J. Weed Sci.

Res. 15(1): 107-116

Muhammad Shahid, Bashir Ahmad, Riaz Ahmad Khattak, Gul Hassa and

Haroon Khan. 2006. Response of Wheat and its Weeds to

Different Alleopathic Plant Water Extracts. Pak J. Weed Sci. Res.

12 (1-2): 61-68.

Molish, H. 1937. Der Einfluss einer pflanze auf die andere. Allelopathy. Gustav

Fischer Verlag, Jena. Pp. 106

Moreland, D.E.and Novitzky, W.P.1987. Interference by luteolin, quercetin,

and taxifolin with chloroplast-mediated electron transport and

phosphorylation. Plant and Soil. 98: 145–159.

Moreland, D. E. and Novitzky, W. P. 1987. Effects of phenolic acids,

coumarins, and flavonoids on isolated chloroplasts and

����

�

mitochondria. In: Waller, G. R. (ed.). Allelochemicals: role in

agriculture and forestry. Washington, DC : American Chemical

Society. pp. 247-261.

Morris, J.B., 2002. Food, Industrial Nutraceutical and Pharmaceutical Uses of

Sesame Genetic Resources. In: Trends in New Crops and New

Uses, Janick, J. and A. Whipkey (Eds.). ASHS Press, Alexandria,

VA. pp: 153-156.

Morton, J.F .1981. Atlas of medicinal plants of Middle America. Bahamas to

Yucatan. Charles C. Thomas Springfield USA: 1420.

Morton, J.F. 1977. Major medicinal plants. C.C. Thomas, Springfield, IL

Morton, J.F. 1981. Atlas of medicinal plants of middle America. Bahamas to

Yucatan. C.C. Thomas, Springfield, IL.

Muthukumar, G., Sivaramakrishnan R. and Mahadevan, A. 1985. Effect

on tannins on plants and on their productivity. Proceedings of

the Indian National Science Academy. B51: 270-281.

Naengchomnong, W., Thebtaramonth, Y., Wiriyachitra, P., Okamoto, K.T

and Clardy, J .1986. Isolation and Structure Determination of

Two Novel Lathyrane from Jatropha curcas. Retrahedron Lett. 27:

5675-5678.

Narwal, S.S. 1999. Allelopathy Update. Basic and Applied Aspects. Sci Pub.

Enfield.

���

�

Narwal, S.S. 1994. Allelopathy in crop production. Jodhpur, India: Scientific

Publishers.

Nasim, G., A.Shabbir, R. Bajwa and S. Bano. 2005. Allelopathic effects of

Neem (Azadirachta indica) on germination, growth and mycorhizal

status of Parthenium hysterophorus. Second Intl.’ Weed Sci.

Conf. Absts. p29.

Nasira Jabeen and Moinuddin Ahmed, 2009. Possible Allelopathic Effects of

three Different Weeds on Germination and growth of Maize ( Zeya

mays ) Cultivars. Pak. J. Bot. 41(4): 1677-1683.

Nazir, T., A.K. Uniyal, N.P. and Todaria. 2007. Allelopathic behavior of three

medicinal plant species on traditional agriculture crops of Garhwal

Himalaya, India. Agroforest. Sys. 69: 183 –187.

Netzy, D.H., Riopel, J.L., Ejeta, G. and Butler, L.G. 1988. Weed Science. 36:

441-446.

Nyananyo, B.L., S.I. Mensah and C. Achama, 2010. Phytochemical

investigations of some tropical plants from Niger Delta Area of

Nigeria. Sci. Afr. 9: 176 -180.

Nwokocha , A. Blessing, I.O. Agbagwa and Okoli, B.E. 2011. Comparative

Phytochemical Screening of Jatropha L. Species in the Niger

Delta. Research Journal of Phytochemistry. 5: 107-114.

Ochse, J.J. 1980. Vegetables of the Dutch East Indies. A. Asher & Co., B.V.

Amsterdam.

����

�

Oleszek, W. 1987. Allelopathic effects of volatiles from some cruciferae species

on lettuce, barnyard grass and wheat growth. Plant and Soil 102:

271-273.

Oleszek, W., and M. Jurzysta. 1987. An allelopathic potential of alfalfa root

medicagenic acid glycosides and their fate in soil environments.

Plant and Soil. 98:67-80.

Olga Gómez-Rodríguez, Emma Zavaleta-Mejía, Víctor A. González-

Hernández, Manuel Livera-Muñoz and Elizabeth Cárdenas-

Soriano. 2007. Physiological and morphological adaptations in

tomato intercropped with Tagetes erecta and amaranthus

hypochondriacus. Rev. Fitotec. Mex. 30 (4): 421 – 428

Olofsdotter, M., Navarez, D., Rebulanan, M. and Streibig, J.C. 1999. Weed

suppressing rice cultivars-Does allelopathy play a role. Weed

Res.39: 441- 454.

Overland, L. 1966. The role of allelopathic substances in the barley crop.

American Journal of Botany. 53: 423-432.

Panasuik, O., Bills, D. D. and Leather, G. R. 1986. Allelopathic influence of

Sorghum bicolor on weeds during germination and early

development of seedlings. Journal of Chemical Ecology

12:1533 - 44.

�����

�

Perrin, D. R. and Cruickshank, I. A. M. 1969. The antifungal activity of

pterocarpans towards Monilinia fructicola. Phytochemistry, 8, 971-

978.

Perry, L.M. 1980. Medicinal plants of east and Southeast Asia. MIT Press,

Cambridge.

Petroski, R. J., Dornbos, D.L. and R.G. Powel .1990. Germination and growth

inhibition of annual rye grass (Lolium multiflorum L.) and alfalfa

(Medicago sativa L.) by loline alkaloids and synthetic N-acyl

loline derivatives. J. Agric. Food Chem., 38: 17 I61718.

Peter EW. 2005. Thin layer chromatography: A modern practical approach. UK:

The royalsociety of chemistry, p. 6-154.

Peterson, G.L.1979. Review of the folin protein quantitation method of Lowery,

Rose brough. Farr and Randall. Anal. Biochem.100, 201-220

Purvis, C. E., R. S. Jessop and J. V. Lovett. 1985. Selective regulation of

germination and growth of annual weeds by crop residues. Weed

Res. 25(6): 415-421.

Putnam, A.R. and Tang, C.S. 1986. The Science of Allelopathy. John Wiley

and Sons, New York.

Putnam, A. R. and Defrank, J.1983. Use of phytotoxic plant residues for

selective weed control. Crop Protection. 2: 173-181.

������

�

Putnam, A.R., Nair, M.G. and Barnes, J.B.1989. Allelopathy: a viable weed

control strategy. In: New Directions in Biological Control. Alan R.

Liss.Inc. 317-322

Putnam, A.R.1989. Volatalization of leachates. Weed physiology (Ed., S.O.

Duke). 1:131-135.

Putnam, A.R. and W.B. Duke, 1978. Allelopathy in agroecosystems. Ann. Rev.

Phytopathol. 16: 431-451.

Qasem, J. R and Foy, C.L. 2001.Weed allelopathy, its ecological impacts and

future prospects a review. J Crop Prod. 4: 43 -92.

Radich, A. 2004. Biodiesel Performance Cost and Use, Energy Information

Administration,http://www.eia.doe.gov/oiaf/analysispaper/biodiese

l/index.html.

Rahimi A, Mashhadi HRR, Jahansoz MR, Sharifzade F, Postini K .2006.

Allelopathic effect of Plantago psyllium on germination and

growth stages of four weed species. Iranian J Weed Sci 2: 13-30.

Rasool, R., B.A. Ganai, S. Akbar, A.N. Kamili and A. Masood, 2010.

Phytochemical screening of Prunella vulgaris L.: An important

medicinal plant of Kashmir. Pak. J. Pharm. Sci. 23: 399-402.

Razavi, S.M., Imanzadeh, G.H and Davari, M. 2010. Coumarins from Zosima

absinthifolia seeds with allelopathic effects. Eur. Asia J.Biosci.4:

17-22.

�����

�

Rice, E. L. 1974. Allelopathy. Academic Press, New York.

Rice, E.L. 1984. Allelopathy. 2nd Ed. Academic 17 Publishers, New York, p.

424.

Rice, E. L. 1987. Allelopathy: an overview. In: Allelochemicals: role in

agriculture and forestry, ed. G.R. Waller. American Chemical

Society, Washington, DC. 8 - 22.

Rice, E.L. 1964. Inhibition of nitrogen-fixing and nitrifying bacteria by seed

plants. Ecology. 45: 824- 837

Rice, E.L. 1971. Inhibition of nodulation of inoculated legumes by leaf leachates

of pioneer plant species from abandoned fields. American Journal

of Botany. 58: 368-371.

Rietweld, W. J., 1983. Allelopathic effects of juglone on germination and

growth of several herbaceous and woody species. J Chem Ecol. 9:

295 - 308.

Robinson, T. 1983. The organic constituents of higher plants. 5th ed. North

Amherst, Cordus Press, Massachusetts, USA.

Rose, S.J., Burnside, O.C. Specht, J.E. and Swisher, B.A. 1984. Competition

and allelopathy between soybeans and weeds. Agronomy Journal.

76: 523-528.

Rosenblum. J. L, 2000. Feasibility of biodiesel for rural electrification in India.

Tellus Institute, Carnegie Mellon University. Draft. 2000; 1-15 p.

����

�

Sadaphal, M.N .1988. Agronomy of pulses. In Pulse Crops (Grain Legumes),

Eds Baldev B, Ramanujam S, Jain HK. Oxford & IBH Publishing

Co., Pvt Ltd. p. 456-512.

Sadhu, M. K. and Das, T. M. 1971. Root exudates of rice seedlings. The

Influence of one variety on another. Plant and Soil. 34: 541 - 546.

Sampietro, D.A. and Vattuone, M.A. 2006. Sugarcane straw and its

phytochemicals as growth regulators of weed and crop plants.

Plant Growth Regul. 48: 21 – 27.

Sampietro, D.A., Vattuone, M.A. and Isla, M.I. 2005. Plant growth inhibitors

isolated from sugarcane (Saccharum officinarum L.) straw. J. Plant

Physiol. 163: 837 – 846.

Sazada Siddiqui, Shilpa Bhardwaj, Shoukat Saeed Khan and Mukesh

Kumar Meghvanshi.2009. Allelopathic Effect of Different

Concentration of Water Extract of Prosopsis Juliflora Leaf on Seed

Germination and Radicle Length of Wheat (Triticum aestivum Var-

Lok-1). American-Eurasian Journal of Scientific Research 4 (2):

81-84.

Seigler, D.S. 1996. Chemistry and mechanisms of allelopathic interactions.

Agron. J. 88: 876–885.

Seyed Mehdi Razavi., Gholamhassan Imanzadeh. and Mahdi Davari. 2010.

Coumarins from Zosima absinthifolia seeds, with allelopatic

effects. EurAsian Journal of BioSciences . 4: 17-22.

�����

�

Shapla T.L, Parvin R, Amin, M.H.A, Rayhan, S.M. 2011. Allelopathic

effects of multipurpose tree species Melia azedarach with

emphasis on agricultural crops. J. Innov. Dev. Strategy 5(1): 70-77.

Shekoofeh Enteshari and Farzaneh Ahrabi. 2012. Effect of coumarin on some

biochemical and physiological responses of canola, Hyola 401

cultivar. Inranian Journal of Plant Biology. 3(10): 23-36.

Sherma J, Fried B. 2003. Handbook of thin layer chromatography.

3rd ed. New York: MarcelDekker, Inc., p. 3 - 4.

Singh, H.P., Batish, D.R. and Kohil., R.K. 2001. Allelopathy in agro

ecosystems an overview .J.Crop Prod. 4: 1- 23.

Singh, R. A., Kumar, M. and Haider, E. 2007. Synergistic cropping of summer

groundnut with Jatropha curcas – A new two-tier cropping system

for Uttar Pradesh. Journal of SAT Agricultural Research. 5: 1.

Singh, M. K., Bangarwa, K. S., Manisha., Nandal, D. P. S., Ravi Kumar.,

Ary, R. K., Tokey, O. P., Bisla, S. S. 2010. Allelopathic effect of

Jatropha curcas leaf litter on winter crops. Journal Environment

and Ecology . 28 (3) pp. 1481-1484.

Sisodia, S. and Siddiqui, M.B.2008. Allelopathic effect of Lantana camara on

Bidens pilosa VEGTOS. 20(1): 29-32.

Sisodia, S. and Siddiqui, M.B.2009. Allelopathic potential of rhizosphere soil

of Croton bonplandianum on growth and establishment of some

crop and weed plants. Afr. J. Agric. Res. 4(5): 461-467.

������

�

Sisodia S., Siddiqui, M. B. and Singh, G. P. 2010. Allelopathic Exploitation of

Croton bonplandianum on various growth parameters of garlic.

Research Journal of Agricultural Sciences 1(3): 215-218.

Sundramoorthy, S and Kalra, A.1991. Allelopathic potentiall of Acacia tortilis

plantation in Indian desert. Annals of Arid Zone 30, 259-266.

Staden, J.V., Grobbelaar, N. and Van S. T. 1995. The effect of sesbanimide

and Sesbania seed extracts on germination and seedling growth of

a number of plant species. Environ. Exp. Bot.35 (3):321 - 329.

Sukumarn Lertmongkol1, Sarobol. and Cha-um Premasthira. 2011.

Allelopathic Effects of Mungbean (Vigna radiata) on Subsequent

Crops. Kasetsart J. Nat. Sci. 45: 773 – 779.

Swaminathan, C., R.S. Vinayrai and Suresh, K.K. 1989. Allelopathic

proctivities of Acacia nilotica. J. Trop. For. Sci. 2: 56–60.

Swapnal Sisodia, M., Badruzzaman Siddiqui and Singh ,G. P. 2010.

Allelopathic Exploitation of Croton bonplandianum on Various

Growth Parameters of Garlic. Research Journal of Agricultural

Sciences. 1(3): 215-218

Taiz, L. and Zeiger, E.1998. Plant defense. Plant Physiology. Sinauer

Associates, Sunderland, 347-376.

Tateishi,Y. 1996. Systematics of the species of Vigna subgenus Ceratotropis. In

Mungbean Germplasm: Collection, Evaluation and Utilization for

Breeding Program JIRCAS Working Report No.2. Pp. 9-24. Japan

�������

�

International Research Center for Agricultural Science (JIRCAS),

Japan.

Tewari, J.P. and Shukla, I.K. 1982. Inhibition of infectivity of 2 strains of

watermelon mosaic virus by latex of some angiosperms. Geobios.

Jodhpur, India. 9(3):124 – 126.

Thapar R. and Singh, N.B. 2003. Allelopathic effects of Amaranthus viridis on

Parthenium hysterophorus. J.Ind.Bot.Soc. 82: 93-96.

Tmaszewski, M. and Thimann, K. V. 1966. Interactions of phenolic acids,

metabolic ions and che1ating agents on auxin-induced growth.

Plant Physiol. 41: 1433-1454.

Tomaszewski, M. and Thimann, K. V. 1966. Interactions of phenolic acids,

metallic inos and chelating agents on auxIn: induced growth. Plant

Physiol. 41: 1443-1454.

Trease, G.E. and Evans, W.C. 1989. Pharmacognosy. 13th (ed).

ELBS/Bailliere Tindall, London. Pp. 345-6, 535-6, 772-3.

Tseng, M. H., Kuo,Y. H., Chen, Y.M. and Chou,C.H. 2003. Allelopathic

potential of Macraranga tanarius (L.). J. Chemical Ecolog. 29(5):

1269-1286.

Tsuzuki, E.1980. Studies on the allelopathy in buckwheat plants. Buckwheat

Symposium, Ljublajana, Yugoslavia. Supplementary . 13 - 23.

�����

�

Vaughan, D. and Ord, B. 2006. Influence of phenolic acids on morphological

changes in roots of Pisum sativum. Journal of the Science of Food

and Agriculture. 52 (3): 289-299.

Vavilov N. I. 1926. Studies on the origin of cultivated plants. Trudy Byuro Prikl.

Bot. 16: 139-248. Bull. Appl. Bot. Pl. Breeding. 16: 1 - 245

Venkatesh, A., Tapasya, S., Kumar, R.V.and Gurunathan N..2011.

Allelopathic effect of different accessions of Jatropha curcas on

field crops. Allelopathy Journal. 32, (1): 40-44.

Ventura, W., Watanable, I., Komada, H., Nishio, M., Cruz, A.D. and

Castillo, M. 1984. IRRI Research Paper Series No. 99.

International Rice Research Institute, Los Banos, Philippines.

Walker, D.W. and Jenkins, D.D. 1986. Influence of sweet potato plant residue

on growth of sweet potato vine cuttings and cowpea plants. Hort

Science. 21: 426 - 428.

Waller, G.R. and Dermer,O.C.1981. Enzymology of alkaloids metabolism in

plants and microorganism. The biochemistry of plants. 7: 317 –

402.

Waller, G.R. and Nowacli, E.K. 1978. The role of alkaloids in plants. In:

Alkaloid Biology and Metabolism in Plants (Eds., G.R. Waller and

E.K. Nowacki). Pp. 143-181. Plenum Press, New York.

����

�

Waller, G.R., Kenzer, F.G. and Mcpherson, J.K., 1987. Allelopathic

compounds in soil from no tillage versus conventional tillage in

wheat production. Plant and Soil 98: 5-15

Waller, G.R. 1989. Allelochemicals action of some natural products, In: C, H,

Chou and G.R.Waller (Eds.) Phytochemical Ecology,

Allelochemicals, Mycotoxins, and Insect Pheromones and

Allolomones. Institute of Botany, Academia Sinica, Monography

No.9, Taipei, Taiwan, pp. 129-154

Wang ,J.C., Wu, Y., Wang, Q., Peng, Y.L., Pan, K.W., Luo P.and Wu, N.200

9. Allelopathic effects of Jatropha curcas on marigold (Tagetes

erecta L.). Allelopathy Journal .9, ( 24) : 123-130

Watt, J.M. and Breyer-Brandwijk, M.G. 1962. The medicinal and poisonous

plants of southern and eastern Africa. 2nd ed. E.&S. Livingstone,

Ltd., Edinburgh and London.

Weston, L.A. and S.O. Duke. 2003. Weed and crop allelopathy. Critical Rev.

Sci, 22:367-389.

White, R.H., Worsham, A.D. and Blum, O. 1989. Allelopathic potential of

legume debris and aqueous extracts. Weed Science 37: 674-679.

Wiesenhütter, J. 2003. Use of the Physic Nut (Jatropha curcas L.) to combat

desertification and reduce poverty. CCD Project Document. Bonn,

GTZ.

�����

�

Wilson, R.E. and E. L. Rice. 1968. Allelopathy as expressed by Helianthus

annuus and its role in old-field succession. Bull. Torrey Bot. Club.

95: 432-488.

Wilson, R.E. and Rice, E.L. 1968. Allelopathy as expressed by Helianthus

annuus and its role in old- field succession. Bulletin of the Torrey

Botanical Club. 95: 432-448.

Wink, M., Koschmieder, C., Sauerwein, M. and Sporer, F.1997. Phorbol

esters of J. curcas Biological activities and potential applications.

In Gubitz GM, Mittelbach M & Trabi M (eds). Biofuel and

Industrial Products from J. curcas. Graz: Dbv-Verlag Univ. pp.

160–166.

Wink, M., Schmeller, T., and Latz-Bruning, B.1998. Modes of action of

allelochemical alkaloids: Interaction with neuroreceptors, DNA,

and other molecular targets. J. Chem. Ecol. 24: 1881–1937.

Wolff, A. B., Streit, W., Kipe-Nolt, J. A., Vargas, H. and Werner D. 1993.

Competitiveness of Rhizobium leguminosarum bv. phaseoli strains

in relation to environmental stress and plant defense mechanisms.

Biology and Fertility of Soils. 12: 170-176.

Woodbury, R.O., and Wadsworth, F.H. 1974. Trees of Puerto Rico and the

Virgin Islands, vol. 2. Ag. Handbook 449. USDA, Washington,

DC.

������

�

Wright, R.T., 2008. Environmental Science Towards a Sustainable Future.

Pearson Prentice Hall; 10th Edition.

Wu, L., Guo, X. and Harivandi, M.A.1998. Allelopathic effect of phenolic

acids detected in buffalograss (Buchloe dactyloides) clippings on

growth of annual bluegrass (Poa annua) and buffalograss

seedlings. Environ Exp. Bot. 39: 159-167.

Wu, H.W., Haig, T. and Pratley, J.2001. Allelochemicals in wheat (Triticum

aestivvum L.): production and exudation of 2, 4-dihydroxy-7-

methoxy- 1, 4-benzoxazin-3-one, J. Chem. Ecol. 27: 188-194.

Xiang, Li., Margaret, Y., Gruber., Dwayne, D., Hegedus., Derek, J. Lydiate

and Ming-Jun Gao. 2011. Effects of a Coumarin Derivative, 4-

Methylumbelliferone, on Seed Germination and Seedling

Establishment in Arabidopsis. Journal of Chemical Ecology .

37 (8): 880-890.

Yuan Ma, Jun Chun, Shenghua Wang and Fang Chen.2011. Allelopathic

potential of Jatropha curcas. African Journal of Biotechnology.

10(56): 11932-11942.

Zakia ahmad, D, R.,Hassan, A. M., Mezori and Mosleh M.S. Duhoky. 2008.

Effect of intercropping systems and nitrogen fertilizer on yield,

yield Component of corn (Zea mays L.) and peanut (Arachis

hypogaea L.). J. Dohuk Univ. 11: 1.

�������

�

Zeng, R,S, Luo, S. and Shi, Y.H.2001. Physiological and Biochemical

Mechanism of Allelopathy of Secalonic Acid F on Higher Plants.

Agron. J. 93: 72-79.

Zeven, A. C. and De Wet, J. M. J., 1982. Dictionary of cultivated plants and

their regions of diversity. Centre for Agricultural Publication and

Documentation, Wageningen, the Netherlands, 263 pp.

Zukovskij, P.M. 1962. Cultivated Plants and their Wild Reatives Misc. Pub.

Commonw Bru.Pl. Breed and Genet. Cambridge Commonwealth

Agr.Bur., Farnham Royal, England.

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