Journal of Mosquito Research 2015, Vol.5, No.18, 1-8
8
Raveen R., Kamakshi K.T., Deepa M., Arivoli S., and Samuel T., 2014,
Larvicidal activity of
Nerium
oleander
L. (Apocynaceae) flower
extracts against
Culex quinquefasciatus
Say (Diptera: Culicidae). International
Journal of Mosquito Research, 1(1): 36-40
Raveen R., Samuel T., Arivoli S., and Madhanagopal R., 2015, Evaluation
of mosquito larvicidal activity of
Jasminum
species (Oleaceae) crude
extracts against the filarial vector
Culex
quinquefasciatus
Say (Diptera:
Culicidae). American Journal of Essential Oils and Natural Products,
2(5): 24-28
Sakthivadivel M., and Daniel T., 2008, Evaluation of certain insecticidal
plants for the control of vector mosquitoes,
viz
.,
Culex
quinquefasciatus
,
Anopheles
stephensi
and
Aedes
aegypti
. Applied Entomology and
Zoology, 43(1): 57-63
Samuel T., Ravindran K.J., and Arivoli S., 2012a, Bioefficacy of botanical
insecticides against the dengue and chikungunya vector
Aedes
aegypti
(L.) (Diptera: Culicidae). Asian Pacific Journal of Tropical Biomedicine, 2:
S1842-S1844
Samuel T., Ravindran K.J., and Arivoli S., 2012b, Screening of twenty five
plant extracts for larvicidal activity against
Culex
quinquefasciatus
Say
(Diptera: Culicidae). Asian Pacific Journal of Tropical Biomedicine, 2:
S1130-S1134
Samuel T., and William S.J., 2014, Potentiality of botanicals in sustainable
control of mosquitoes (Diptera: Culicidae). In: Achieving Sustainable
Development: Our Vision and Mission, Ed. William, S.J., Loyola
College, Chennai, Tamil Nadu, India, pp. 204-227
Satyavati G.V., Gupta A.K., and Tandon N., 1987, Medicinal plants of India
Vol 2, New Delhi, Indian Council of Medical Research, India, pp.
289-299
Senthilkumar A., Kannathasan K., and Venkatesalu V., 2008, Chemical
constituents and larvicidal property of the essential oil of
Blumea
mollis
(D. Don) Merr. against
Culex
quinquefasciatus
. Parasitology
Research, 103: 959-962
Shaalan E.A.S., Canyon D., Younes M.W.F., Abdel-Wahab H., and Mansour
A.H., 2005, A review of botanical phytochemicals with mosquitocidal
potential. Environment International, 31: 1149-1166
Sharma U.S., Sharma U.K., Singh A., Sutar N., and Singh P.J., 2010,
In
vitro
anthelminthic activity of
Murraya koenigii
Linn. leaves extracts.
International Journal of Pharma and Bio Sciences, 1(3): 1-4
S.P.S.S., 2007, SPSS for windows, Version 11.5. SPSS, Chicago, Illinois, USA.
Srivastava S.K., and Srivastava S.D., 1993, Herbal composition for
treatment of infections caused by dermatophytes. Journal of Indian
Chemical Society
,
70(7): 655-659
Suganya A., Murugan K., Kovendan K., Kumar M.P., and Hwang J.S., 2013,
Green synthesis of silver nanoparticles using
Murraya
koenigii
leaf
extract against
Anopheles
stephensi
and
Aedes
aegypti
. Parasitology
Research, 112(4): 1385-97
Sukumar K., Perich M.J., and Boobar L.R., 1991, Botanical derivatives in
mosquito control: A review. Journal of the American Mosquito Control
Association, 7: 210-237
Tehri K., and Singh N., 2015, The role of botanicals as green pesticides in
integrated mosquito management – A review. International Journal of
Mosquito Research, 2(1): 18-23
Thomas E., Shanmugham J., and Raf M.M., 1999,
In
vitro
antibacterial
activity of certain medicinal plants. Biomedicine, 19(3): 185-190
Thomas J., Govindan M.S., and Kurup G.M., 2014, Isolation and
characterisation of mosquito larvicidal compound from
Gliricidia
sepium
Jacq. International Journal of Pharma Research and Health
Sciences, 2(2): 173-178
Tripathi A.K., Upadhayay S., Bhuiyan M., and Bhattacharya P.R., 2009, A
review on prospects of essential oils as biopesticide in insect-pest
management. Journal of Pharmacognosy and Phytotherapy, 1: 52-63.
Vargas M.V., 2012, An update on published literature (period 1992-2010)
and botanical categories on plant essential oils with effects on
mosquitoes (Diptera: Culicidae). Boletín de Malariología y Salud
Ambiental, 2(2): 143-193
Wachira S., Omar S., Jacob J., Wahome M., Alborn H., Spring D., Masiga
D., and Torto B., 2014, Toxicity of six plant extracts and two pyridone
alkaloids from
Ricinus communis
against the malaria vector
Anopheles
gambiae
. Parasites & Vectors, 7: 312-320
W.H.O., 2005, Guidelines for laboratory and field testing of mosquito
larvicides, Geneva.
W.H.O., 2014, A global brief on vector-borne diseases. WHO/DCO/
WHD/2014.1
