BIBLIOGRAPHY

Abbott, W.S. (1925) A method of computing the effectiveness of insecticides.

J. Econ. Entomol., 18: 265-267.

Abirami Dhandapani and Murugan Kadarkarai. (2011) HPTLC quantification

of flavonoids, larvicidal and smoke repellent activities of cassia

occidentalis L. (Caesalpiniaceae) against malarial vector Anopheles

stephensi (Diptera: Culicidae). J. Pytol. Phytopharmacol., 3(2): 60-72.

Adesina, B.T. and Omitoyin, B.O. (2011) Potential of moringa olifera (lam)

fresh root bark extract is and organic piscicidae in aquaculture pond

management. Egyptian J. Biol., 13: 8-13.

Ahmed, A.H., Kamal, I.H. and Ramzy, R.M.R. (2001) Studies on the

Molluscicidal and larvicidal properties of Solanum nigrum L. leaves

ethanol extract. J. Egyp. Soci. Parasitol., 31(3): 843-852.

Ahn, Y.J., Kwon, M., Park, H.M. and Han, C.G. (1997) Potential insecticidal

activity of Ginkgo biloba-derived trilactone terpenes against

Nilaparvata lugens. In Phytochemicals for Pest Control. Hedin, P.A.,

Hollingworth, R.M., Masler, E.P., Miyamoto, J., Thompson, D.G. Eds.

ACS Symposium Series 658: American Chemical Society, Washington,

DC. pp 90-105.

Al-Sharook, Z., Balan, K., Jiang, Y. and Rembold, H. (1991) Insect growth

inhibitors from two tropical Meliaceae. Effect of crude seed extracts on

mosquito larvae. J. Appl. Entomol., 111: 425-430.

Angus, T.A. (1956) Association of toxicity with protein-crystalline inclusions

of Bacillus sotto Ishiwata. Can. J. Microbiol., 2: 122-131.

Anuradha, V., Sakthivadivel, M., Rao, D.R. and Daniel, T. (1995) Larvicidal

effect of leaf extracts of Andrographis paniculata (Brum. F.) and

Swietenia mahagoni (L.) Jaq. On Culex quinquefasciatus say. (Diptera;

Culicidae). Paper presented at the symposium on Biological and cultural

control of Agriculture and Medical Pests, Palayamkottai, Tamil Nadu.

Arnason, J.T., Swain, T., Wat, C.K., Graham, E.A., Partington, S. and Towers,

G.H.N. (1981) Mosquito larvicides from polyacetylenes occurring

naturally in the Asreraceae. Biochem. Syst & Ecol. 9: 63-68.

Ascher, K.R.S. and Meisner, J. (1989) The effect of neem on insects affecting

amn and animals. In Martin Jacobson, Focus on phytochemical

pesticides, Vol. 1, The Neem Tree, CRC Press, Florida, 113-131.

Assabgui, R., Lorenzetti, F., Terradot, L., Regnualt-Roger, C., Malo, N.,

Wiriyachitra, P., Sanchez-Vindas, P.E., San-Roman, L., Isman, M.B.,

Durst, T. and Arnason, J.T. (1997) Efficacy of botanicals from the

Meliaceae and Piperaceae. In phytochemicals for pest control, Hedin,

P.A., Hollingworth, R.M., Masler, E.P., Miyamoto, J. and Thompson,

D.G. (eds.). ACS Symp. Ser. No. 658, pp. 38 -48, Am. Chem. Soc.,

Washington D.C., USA.

Babu, R. and Murugan, K. (1998) Interactive effect of neem seed kernel and

neem gum extracts on the control of Culex quinquefasciatus Say. Neem

News Lett., 15(2): 9-11.

Babu, R. and Murugan, K. (2000) Larvicidal effect of resinous exudates from

the tender leaves of Azadirachta indica. Neem News Lett., 17(1): 2000.

Bernays, E.A., Chamberlanin, D. and Mecarthy, P. (1980) The differential effects

of ingested tannic acid on different species of Acridoidea. Entomol. Exp.

Appl., 28: 158-166.

Bowers, W. S., Sener, B., Evans, P. H., Bingol, F. and Erdogan, I. (1995)

Activity of Turkish medicinal plants against mosquitoes Aedes aegypti

and Anopheles gambiae. Insect Sci. Applic., 16: 339-342.

Briskin, D.P. (2000) Plant Physiol., 124: 507-514.

Caceres, A., Cano, O., Samayoa, B., Aguilar, L. (1999) Plants used in

Guatemala for the treatment of gastrointestinal disorders. L. Screening

of 84 plants against enterobacteria. J. Ethnopharmacol., 30: 55-73.

Choochote, W. Kanjanapothi, D. Panthong, A., Taesotikul, T. Jitpakdi, A.,

Chaithong, U. and Pitasawat, B. (1999) Larvicidal adulticidal and

repellent effects of Kaempferia galanga. South East Asian J. Trop. Med.

Heal., 30(3): 470-476.

Ciccia, G., Coussio, J. and Mongelli, E. (2000) Insecticidal activity against

Aedes aegypti larvae of some medicinal South American plants. J.

Ethnopharmacol., 72 (1-2): 185-189.

Coomber, L.E., Baldwin, K.F., Meisch, M.V., Mount, G.A., Pierce, N.W. and

Thompson, G.D. (1977) Toxicity of Pyrethroid insecticide aerosols to

Anopheles quadrimaculatus Say and Psorophora columbiae Knabum

arkansas. Mosq. News., 37: 267-270.

Das, M.K., Ansari M.A., Evaluation of repellent action of Cymbopogan

martinii martini Stapf var Sofia oil against Anopheles sundiacus in tribal

villages of Car Nicobar Island, Andaman & Nicobar Island, India. J

Vect Borne Dis 2003; 40: 101-4

Duncan, J. (1963) Post-treatment effects of sublethal doses of dieldrin on the

mosquito Aedes aegypti. Ann. App. Biol., 52: 1-6.

El Hag, E.A., El Nadi, A.H. and Zaitoon, A.A. (2001) Effects of methanolic

extracts of neem seeds on egg hatchability and larval development of

Culex pipiens mosquitoes. Ind. Veter. J., 78(3): 199-201.

Emmanuelviana pontual, T.A. (2012) Effect of moringa olifera flower extract

on larval trypsin and acethylcholines terase activities on Aedes aegypti.

Insect Bioche and Physiol., 3: 9-11.

Finney, D.J. (1971) In: ‘Statistical Methods in Biological Assay’, 3rd ed.,

Griffin Press, London, U.K. p.508.

Gardner, D.R., Pfister, J.A. (2007) Rangeland Ecol Manag., 60: 44d1-446.

Green, M., Singer, J.M., SutherLand, D.J. and Hibben, C.R. (1991) Larvicidal

activity of Tagetus minuta (marigold) towards Aedes aegypti. J. Am.

Mosq. Cont. Assoc., 7: 282-286.

Hosterttmann, K. and Potterat, O. (1997) Stragery for the isolation and analysis

antifungal mollusicidal, and Larvicidal agents from tropical plants. In

phytochemicals for Pest Control: hedin, P. A., Hollingworth, R.M.,

Masler, E.P., Miyamoto, J., Thompson, D.G., Eds,; ACS Symposium

Series 658; American Chemical Society; Washington, DC., pp 14-26.

ICMR Bulletin. (2003) Prospects of using herbal products in the control of

mosquito vectors. 33: 1.

Isman, M.B. (2006) Annu. Rev. Entomol., 51: 45-66.

Juksanthi, K.A. (2012) Tridax procumbens (L). A weed with immunese

medical importance., Int. J. Pharma Biosci., 3: 63-68.

Jang, Y.S., Jeon, J.H. and Lee, H.S. (2005) Mosquito larvicidal activity of

active constituent derived from Chamaecyparis obtusa leaves against 3

mosquito species. J. Am. Mosq. Control Assoc., 21(4): 400-403.

Jang, Y.S., Klim, M.K., Ahn, Y.J. and Lee, H.S. (2002) Larvicidal activity of

Brazilian plants against Aedes aegypti and Culex pipiens pallens

(Diptera: Culicidae). Agric. Chem. Boitechnol., 45(3): 131-134.

Jaswanth, A., Ramanathan, P. and Ruckmani, K. (2002) Evaluation of

mosquitocidal activity of Annona squamosa leaves against filarial vector

mosquito, Culex quinquefasciatus Say. Indian J. Exp. Biol., 40: 363-365.

Jeyabalan, D. and Rajkumar, M. (2003) Biological activity of some Indian

medicinal plants against mosquito Anopheles stephensi. Abs., January

22–24. National Conference on Recent Trends in Insect Control.

Kabaru, J. M. and Gichia, L. (2001) Insecticidal activity of extracts Rhizophora

mucuronata (Rhizophoraceae) Lam. Against three arthopods. AJST.,

2(2): 44-49.

Kelm, M.A., Nair, M.G. and Schuzki, R.A. (1997) Mosquitocidal compounds

from Magnolia salicifolia. Inter. J. Pharmacog., 35: 84-90.

Kuganathan, N., Saminathan, S. and Muttukrishna, S. (2008) Internet J

Toxicol., 5: 2.

Minijas, J. N. and Sarda, R. K. (1986) Laboratory observations on the toxicity

of Swartzia madagascariensis (Leguminosae) extract to mosquito

larvae. Tans. R. Soc. Trop. Med. Hug., 80: 460-461.

Miyakado, M., Nakayama and Ohno, O. (1989) Insecticidal unsaturated

isobutylamides from natural products to agrochemical leads. In:

Insecticides of plant origin, Eds., J. T. Arnason, B.J.R. Philogene and P.

Morand. Am. Chem. Symp. Ser. 387. American Chemical Society,

Wsahington, DC. pp. 173-187.

Mohanty, U. L., Dash, A. P., Mohapatra, N., Ranjit, M. R. and Goel, S. C. (1994)

Bioefficacy of Anacardium occidentale L. against mosquitoes. Biological

control of insect pests. Proceedings, Sanatan Dharm College,

Muzaffarnagar, India. 21: 139-142.

Mulla, M.S. and Su, T.Y. (1999) Activity and biological effects of neem

products against arthropods of medical and veterinary importance. J.

Am. Mosq. Cont. Assoc., 15(2): 133-152.

Murugan, K. and Jeyabalan, D. (1999) Effect of certain plants extracts against

the mosquito, Anopheles stephensi Liston. Curr. Sci., 76: 631-633.

Murugan, K., Jeyabalan, D., Senthil Kumar, N., Babu, R., Sivaramakrishnan, S.

and Senthil Nathan, S. (1998) Antifeedant and growth inhibitory

properties of neem limonoids against the Cotton Bollworm, Helicoverpa

armigera (Hubner). Insect Sci. and its appl., 18(2): 157-162.

Murugan, K., Murugan, P. and Noortheen, A. (2006) Larvicidal and repellent

potential of Albizzia amara Boivin and Ocimum basilicum Linn against

dengue vector, Aedes aegypti (Insecta: Diptera: Culicidae). Bioresour

Technol., 98 (1):198-201.

Murugan, K., Thangamathi, P. and Jeyabalan, D. (2003) Interactive effect of

botanicals and Bacillus thuringiensis subsp. israelensis on Culex

quinquefasciatus say. J. Sci. Indus. Res. 61: 1068-1076.

Muthukrishnan, J., Pushpalatha, E. and Kasthuribhai, A. (1998) Biological

effect of four plant extracts on Culex quinquefasciatus Say. Larval

stages. Insect Sci. Appli., 17: 389-394.

Nirmal Sharma, Qadry, J. S. and Subramanium, B. (1998) Larvicidal activity of

Gliricidia sepium against mosquito larvae of Anopheles stephensi, Aedes

aegypti and Culex quinquefasciatus. Pharmaceutical Biol., 36(1): 3-7.

Pandian, R.S., Dwarakanath, S.K. and Martin, P. (1989) Repellent activity of

herbal smoke on the biting activity of mosquitoes. J. of Ecobiol., 1(2):

87-89.

Pandian, R.S., Abraham, M.G. and Manoharan, A.C. (1994) Susceptilibity of

the larvae of Culex quinquefasciatus Say to extracts of medicinal plants.

Environ. Pollut., 1(3&4): 109-112.

Patil, D.D., Wadhawa, G.C., Pathade, K.B., Shinde, P.B., Deshmukh, A.K.

(2009) Natural Products: An Indian Journal., 5(4): 220-222.

Park, I.K., Lee, S.G., Shin, S.C., Park, J.D. and Ahn, Y.J. (2002) Larvicidal

activity of isobutylamides identified in Piper nigrum fruits against three

mosquito species. J. Agric. Food Chem., 50(7): 1866-1870.

Perich, M.J., Wells, C., Bertsch, W. and Tredway, K.E. (1994) Toxicity of

extracts form three Tagetes species against adults and larvae of yellow

fever mosquito and Anopheles stephensi (Diptera : Culicidae). J. Med.

Entomol., 31: 833-837.

Prabhu, K., Murugan, K., Nareshkumar, A., Ramasubramanian, N. and

Bragadeswaran, S. (2011) Larvicidal and repellent potential of moringa

olifera against malarial vector, Anopheles stephensi Liston. Asian

Pacific J. Trop. Biomed., 2:124-129.

Pushpalatha, E. and Muthukrishnan, J. (1995) Larvicidal activity of a few

plant extracts against Culex quinquefasciatus and Anopheles stephensi.

Indian J. Malaria Res., 32: 14-23.

Pushpalatha, E. and Muthukrishnan, J. (1999) Efficacy of two tropical plant

extracts for the control of mosquitoes. J. Appl. Entomol., 123 (6): 369.

Rahuman, A.A., Bagavan, A., Kamaraj, C., Saravanan, E., Zahir, A.A. and

Elango, G. (2009) Efficacy of larvicidal botanical extracts against

Culex quinquefasciatus say (Diptera: Culicidae). Parasitol Res.., 104:

1365-1372.

Raina, R. Prawez, S., Verma, P.K. and Pankaj, N.K. (2008) Medicinal plants

and their Role in Wound Healing, Vet Scan., 3(1): 221-224.

Rathi, V., Rathi, J.C., Tamizharasia, S. and Pathak, A.K. (2009) Pharmacognosy

Review., 2(3): 185-186.

Rajkumar, S. and Jebanesan, A. (2005) Larvicidal and Adult Emergence

inhibition effect of Centella asiatica Brahmi (Umbelliferae) against

mosquito Culex quinquefasciatus Say (Diptera : Culicidae). African J.

Biomed. Res., 8:12-14.

Roth, G.N., Chandre, A. and Nair, M.G. (1998) Novel bioactivities of Curcuma

slonga constituents. J. Nat. Prod., 61(4): 542-545.

Sakthivadivel, M., Anuradha, V., Rao, D.R. and Daniel, T. (1996) Larvicidal

properties of Melia azedarach L. Azadirachta indica A. Juss and

Pongamia glabra (L.) Vent seed on Culex quinquefasciatus. Biol. Cont.

Insect. Pests., pp. 201-203.

Salama, H.S. and Sharaby, A. (1985) Histopathological changes in Heliothis

armigera infected with Bacillus thuringiensis as detected by electron

microscopy. Insect. Sci. Applic., 6: 503-511.

Saxena, R.C., Liquido, N.J. and Justo, H.D. (1981a) Neem seed oil, a potential

antifeedant for the control of the rice brown planthopper Nilaparvata

lugens. In: Natual Pesticides from the Neem Tree (Azadirachta indica

A. Juss). (Eds. Schmutterer, H., Ascher, K.R.S. and Rembold, H.) Proc.

1st Int. Neem Conf., W. Germany, pp. 171-188.

Saxena, R.C., Dixit, O.P. and Sugumaran, P. (1992) Laboratory assessment of

indigenous plant extracts for antijuvenile hormone activity in Culex

quinquefasciatus. Indian J. Med. Res., 95: 204-206.

Saxena, R.C., Waldbauer, G.P., Liquido, N.J. and Puma, R.C. (1981) Effect of

neem seed oil on the rice leaffolder Cnaphalocrosis medinalis (Eds.

Schmutterer, H., Ascher, K.R.S. and Rembold, H.) Proc. 1st Int. Conf.,

Rottach-Egern, pp.189-204.

Saxena, S.C. and Sumithra, L. (1989) Toxicity of a new plant extract against

mosquitoes. Ad. Bios., 8: 149-154.

Schmutterer, H. (1990) Properties of potential of natural pesticides from the

neem tree, Azadirachta indica. Annu. Rev. Entomol., 35: 271-297.

Senthilkumar, N., Varma, P., Gurusubramanian, G. (2009) Larvicidal and

adulticidal activities of Anopheles stephensi Liston. Parasitol Res.,

1042: 237-44.

Senthil Nathan, S., Kalaivani, K. and Murugan, K. (2005) Effects of neem

limonoids on the malarial vector Anopheles stephensi Liston (Diptera:

Culicidae). Acta Tropica., 96: 47-55.

Service, M.W. (1983) Management of vectors. Youdeowei, A., and Service,

M.W., (Eds.), In: Pest and Vectors Management in the tropics, pp. 265-

280.

Sharma, P., Mohan, L. and Srivastava, C.N. (2004) Larval susceptibility of

Ajuga remota against anopheline and culicine mosquitoes. Southeast

Asian J. Trop. Med. Public Health., 35(3): 608-610.

Steinly, B.A. and Berenbaum, M. (1985) Histopathological effects of tannins

on the midgut epithelium of Papilio polyxenes and Papilio glaucus.

Entomol. Appl., 39: 3-9.

Sujatha, C.H., Vasuki, V., Mariappan, T., Kalyanasundaram, M. and Das, P.K.

(1988) Evaluation of plant extracts for biological activity against

mosquitoes. Intl. Pest. Control., 30: 122-124.

Sukumar, K., Perich, M.J., Boobar, L.R. (1991) Botanical derivatives in

mosquito control: A review. J. Am. Mosq. Control Assoc., 7: 210-237.

Thilagavathy Daniel., Umarani and Sakthivadivel, M. (1995) Insecticidal

action of Ervatamia divaricata L. and Acalypha indica L. against Culex

quinquefasciatus say. Geobios., 14(2): 95-98.

Thomas, T.G., Rao, S. and Lal, S. (2004) Mosquito larvicidal properties of

essential oil of an indigenous plant, Ipomoea cairica Linn. Jpn. J. Infect

Dis., 57(4): 176-177.

Uma, R., Duraisamy, S., Vaitheeswaran, M. and Mohamed Ibrahim, S. (2003)

Larvicidal effect of an insecticide, plant extracts and their synergistic

activity against three mosquito species. Abs., January 22-24. National

Conference on Recent Trends in Insect Control.

Vahitha, R., Venkatachalam, M.R., Murugan, K. and Jebanesan, A. (2002)

Larvicidal efficacy of Pavonia zeylanica L. and Acacia ferruginea D.C.

against Culex quinquefasciatus Say. Bioresour. Technol., 82(2): 203-

204.

Venkatachalam, M.R. and Jebanesan, A. (2001a) Larvicidal activity of

Hydrocotyle javanica Thunb. (Apiaceae) extract against Culex

quinquefasciatus. J. Exp. Zool,. 4(1): 99-101.

WHO. (1975) Manual on practical entomology in malaria part 1. WHO

division of malaria and other parasitic diseases. pp. 160.

WHO. (1996) Report of the WHO in formal consultation on the evaluation on

the and testing of insecticides CTD/WHO PES/IC/ 96(1): 69.

Yang, Y.C., Lee, S.G., Lee, H.K., Kim, M.K., Lee, S.H. and Lee, H.S. (2002)

A piperidine amide extracted from Piper longum L. fruit shows activity

against Aedes aegypti mosquito larvae. J. Agric. Food Chem., 50(13):

3765-3767.

******