Bibliography
Abbott (1925). A method of computing the effectiveness of an insecticide. Journal of
Economic Entomology. IS: 265 - 267.
Abraham, E. V. and Padmanabhan, M. D. (1968). Bionomics and control of the
diamondback moth (P/wre/Za xy/o.vre/Za L.). Indian J. Agric. Sci. 38: 613-619.
Abu, M., La], M. N. and Singh, S. S. (1998). Correlation between incidence of insect
pests on Brassica species and ecological parameters. Shaspa. 5: 2. 171-174.
Adachi, T. and Futai, K. (1992). Changes in insecticide susceptibility of the diamond
back moth in Hyoga, Japan. Japan Agril. Res. Quarterly. 26:144-151.
Adamczyk. J. J. and Sumerford. D. V. (2001). Potential factors impacting season-long
expression of Cry 1 Ac in 13 commercial varieties of Bollgard® cotton.
Journal of Insect Science 1:13. Available online: http://insectscience.0rg/l.13.
Aggarwal, N., Rohilla, H. R., Singh, H. and Kumar, R. (1996). Influence of crop morpho-
phenological and meteorological parameters on the field infestation of
mustard aphid Lipaphis erysimi (Kalt.) in Brassica genotypes. Environ, ami
Ecol. 14(2): 268-272.
Ahmad, T. and Ansari, M. S. (2010). Studies on seasonal abundance of diamondback
moth Plutella xylostella (Lepidoptera: Yponomeutidae) on cauliflower crop. J.
Plant Prot. Res., 50(3): 280-287
Ajay, S., Harvir, S. and Thakur, H. L. (1995). Impact of abiotic factors on the population
dynamics of mustard aphid, Lipaphis erysimi (Kalt) (Homoptera: Aphididae).
J Oilseed. Res. 12(2): 197-202.
Alstad, D. N. and Andow. D. A. (1995). Managing the evolution of insect resistance to
transgenic plants. Science 268:1894-1896
Altmann. R. and Elbert, A. (1992). Imidacloprid-a new insecticide for seed treatmet in
cereal, maize and beets. Mitteilungen der Deutschen Gesellschft fur
77
AUgemiene und Angewandte Entomologie, 8:212-221.
Amin. A. H. and El-Defrawy, G. M. (1984). Seasonal fluctuations of populations of
different aphid species infesting cabbage plants in Egypt. Bulletin de la
societe Entomologigue d' Egypte, 63: 103-109.
Andalore, J. T., Shelton, A. M. and Echenrode, C. .1. (1982). Seasonal abundance o\'
Lepidopterous larvae in commercial cabbage fields. Environ. EntomoL. 11(1):
144-146.
Ansari, M. S., Hussain, B. and Qazi, N. A. (2007). Influence of abiotic environment on
the population dynamics of mustard aphid, Lipaphis erysimi (Kalt.) on
Brassica Germplasm. J. Biol. Sciences. 7(6): 993-996.
Anscombe, F. J. (1948). On estimating the population of aphids in a potato field. Ann.
Appl. Biol., 35: 567.
Aslam, M. and Ahmad, M. (2001). Effectiveness of some insecticides against mustard
aphid, Lipaphis erysimi (kalt.) (Aphididae: Homoptera) on three different
crops. Jowr of Res. (Scl). 12(1): 19-25.
Asokan, B.. Mohan, K. S. and Gopal Krishnan, C. (1996). Effect of commercial
formulations of Bacillus thuringiensis B on yield of cabbage. Insect Environ.
2(2); 58-59.
Aysheshim, S., Mengistu, F. and Dawd. M. (1996). Seasonal incidence and interspecific
compefition of two pests; diamond back moth and cabbage aphid at Ambo.
Ethiopia. TVIS- Newsletter, 1(2): 27.
Babu, B. R. and Krishnayyah. P. V. (1998). Bioinsecticides to mitigate the load of
quinalphos against cauliflower caterpillars. Pesticide Res. J. 10(2): 231 -234.
Bath, D. S. and Singh, D. (1989). Studies on the economic threshold level of mustard
aphid Lipaphis erysimi (Kalt.) on the radish seed crop in India. Tropical Pest
Management 35. 154-156.
Bedford. I. D., Kelly, A. and Banks G. K. (1998). The effect of pymetrozine. a feeding
inhibitor of Homoptera, in preventing transmission of caulifiower mosaic
78
caulimovirus by the aphid species Myzus persicae (Suizer). Ann. App.l Biol.
132:453-62.
Bedford, I. D., Kelly, A., Seeker, A., Markham, P. G., Froggatt, P. and Wright. T. (1998).
The effect of lambda-cyhalothrin on the aphid. Myzu.s persicae. a vector of
turnip mosaic polyvirus and implications for its control. Proc. Brighton Crop
Prat. Con/., 1998, Brighton. UK, Nov. 16-19, 3, 1065-1070.
Bhatia, R. and Verma, A. (1994). Seasonal incidence of major insect pest associated with
winter crop of cabbage in Himachal Pradesh. Ann. Agric. Res. 15(2): 222-225.
Bhavani, B. and Punnaiah, K. C. (2004). Comparative efficacy of selected insecticides
against major pests of cabbage. Pestology, 28(8): 20-27.
Bhavani, B. and Punnaiah, K. C. (2006). Population dynamics of cabbage aphid. Lipaphis
erysimi (Kalt.) and its control with selected insecticides in cabbage. Pestology.
Mumbai, 30(11), 24-9.
Bliss, C. 1. and Fisher, R. A. (1953). Fitting the negative bionomial distribution to
biological data and note on the efficient of fitting of the negative bionomial.
Biometrics. 9: 176-200.
Breslin. W. .1.. Marty. M. S.. Vedula. U. V.. Liberacki. A. B. and Yano. B. I,. (2000).
Developmental toxicity of spinosad administered by gavage to CD rats and
New Zealand white rabbits. Food Chem. Toxicol. 38:1103-1112.
Cao, J., Shelton, A. M. and Earle, E. D. (2005). Development of transgenic coUards
{Brassica oleracea L., var. acephala) expressing a cry 1 Ac or crylC gene as a
possible trap crop for cabbage. Crop Prot. 24:804-813
Cao, J., Zhao, J. Z., Tang, J. D., Shelton, A. M. and Earle. E. D. (2002). Broccoli plants
with pyramided cry 1 Ac and crylC Bt genes control diamondback moths
resistant to Cryl A and CrylC proteins. Theor. Appl. Genet., 105:258-264
Capinera, J. L. (2001). Handbook of Vegetable Pests. Academic Press. New York. 729 pp.
Carriere. Y. and Tabashnik. B. E. (2001). Reversing insect adaptation to transgenic
insecticidal plants. Proceedings of the Royal Society of London B 268: 1475-
1480.
79
Chandra, S. and Kushwaha, K. S. (1987). Impact of environmental resistance in aphid
complex of cruciferous crops under the agroclimatic conditions of Udaipur II.
Biotic components. Indian J. Ent.. 49(1): 86-113.
Chandramohan, N. (1995). Seasonal variation of diamond back moth catch in pheromone
trap. Madras Agric. J. 82 (9, 10): 503-505.
Chattopadhyay, C , Agrawal, R., Amrender Kumar., Singh, Y. P.. Roy. S. K., Khan, S.
A., Bhar, L. M., Chakravarthy, N. V. K., Srivastava. A., Patel. B. S..
Srivastava, B., Singh, C. P. and Mehta, S. C. (2005). Forecasting o\' Lipaphis
erysimi on oilseed Brassicas in India—a case study. Crop Prot. 24(12): 1042-
1053.
Chaudhary, S. K. and Ghosh, M. R. (1982). Influence of some modern insecticides on the
incidence of Coccinella transversalis'Fab. A predator of Lipaphis erysimi
Kalt. Science and Culture. 48: 214-216.
Chen, C. N. and Su, W. Y. (1986). Spatial pattern and transformation of Plutellu
xylostella (L.) larvae on cauliflower. PI. Prot. Bull. Taiwan, 28(3): 323-333.
Chin. T. (1974). Studies on seasonal appearance of diamond back moth in relation to
environment factors. Taiwan Agric. Q.. 10(4): 81-84.
Choi, I. H., Yoo, J. K. and Na, S. Y. (1992). Studies on the ecological characterstics and
effect of chemical control on diamondback moth, Piute Ha xylostella (L.).
Research Reports of the Rural Development administration. Crop Prot. 34:
40-47
Choi, J. S., Hwang, C. Y., Goh, H. G., Kim, I. S. and Lee, S. G. (1996). Insect pest fauna
and their spatial distribution pattern of Kale {Brassica oleracea \ar.
acephala). RDA J. Agril. Sci. Crop Prot. 38(1): 489-494.
80
Chowdhury, A. G., Das, C , Kole, R. K., Banerjee, H. and Bhattacharyya, A. (2006).
Residual fate and persistence of endosulfan (50 WDG) in Bengal gram (Cicer
arietinum). Environ. Monit. and Assess. 132(1-3): 467-473.
Chowla, S. C. and Baruah, B. P. (1990). Effect of turnip mosaic virus and its vector on
growth parameters and yield of cauliflower. Plant Dis. Res. 5: 229-231.
Chua, T. H. and Lim, B. H. (1977). Effect of interplant distance on the distribution
pattern of diamondback moth, Plutella xylostella (L.) among host plants. Mai.
Appl.Biol. 6:19-23.
Chua, T. H. and Lim, B. H. (1979). Distribution pattern of diamondback moth, Plutella
xylostella (L.) (Lepidoptera: PluteJlidae) on choy-sum plants. Zeitschrift-fur-
Angewandte-Entomologie, 88(2): 170-175.
Cleary, A. and Scholz, B. (2002). Evaluating the toxicity of insecticides on immature and
adult Trichogramma pretiosum. In Proceedings 11th Australian Cotton
Conference, 13/15 August, Brisbane, Queensland, Australia.
Deivendran, A., Kumari, B. and Yadav, G. S. (2006). Dissipation of Endosulfan and
Dichlorvos Residues In/On Cauliflower Curds. Environ. Monit. and Assess.
116 (1-3): 307-313.
Devi, N. and Raj. D. (1991). Seasonal abundance of diamond back moth. Plutella
maculipennis Curtis in Palampur area. Himachal . ./. .igric.Res. 17(1-2): 17-
20.
Devi, N., Raj, D. and Chandel, Y. S. (1995). Population dynamics of Lipaphis erusimi
(Kalt) on rapeseed in mild hill zone of Himachal Pradesh. J. Ent.Res. 49: 495-
514.
Dhura, M. S. and Hameed, S. F. (1990). Evaluation of toxicity and persistence of
residues of some insecticides on cabbage against Brevicoryne hrassicae L.
Indian.]. Ent. 52(1): 146-154.
Downard, P., Thompson, G., Pavan, P.. Dutton, R., Kaneshi, K., Samsudin, A. and
Vergoulas, P. (2000). A global perspective on the biology and field
performance of spinosad. In: Proceedings of the XXI International Congress
of Entomology, Foz do Iguassu, Brazil. 20-26 August 2000, pp 321.
Endersby, M. N. and Morgan, W. C. (1991). Alternatives to Synthetic Chemical
Insecticides for Use in Crucifer Crops. Biol. Agric. Hortic. 8: 33-52.
Ester, A., Putter, H. and Van Bilson, P. M. (2003). Film coating the seed of cabbage and
cauliflower with imidacloprid and spinosad to control insect pests. Crop Prol
24: 761-768.
Finney, D. J. (1971). Probit analysis. (Third revised edition), S. Chand and Compan\
Ltd., New Delhi.
Fisher, R. A., Corbet, A. S. and Williams, C. B. (1943). The relation between the number
of species and the number of individuals in a random sample of an animal
population. J. Anim. Ecol., 12; 42-58.
Flemming, R. and Retnakaran, A. (1985). Evaluating single treatment data using Abbot's
formula with references to insecticides. J. Econ. Entomol., 78: 1179-1181.
Gajbhiye. V. T. Gupta, S. and Gupta. R. K. (2004). Persistence of imidacloprid in'on
cabbage and cauliflower. Bulletin of Environmental Contamination and
Toxicology, 72(2):283-288
Gruda, N (2005). "Impact of Environmental Factors on Product Quality of Greenhouse
Vegetables for Fresh Consumption". Crit. Rev. Plant Sci. 24(3): Taylor &
Francis Group, pp. 227-247.
Gopal, M., Irani. M. and shrivastava, K. P. (1997). Efficacy of imidacloprid and its
comparison with other insecticides for controlling whitefly in pulses. Ann.
Plant Protec. Sci. 5 (l):29-33.
Gopalakrishnan, C. (2001). Field evaluation of commercial formulations of Bacillus
thuringiensis var. kurstaki against Plulella xylostella. Peslolog}\ 25(6): 7-10.
Gould, F., Follett, B., Nault, B. and Kennedy, G. (1994). "Resistance management
strategies for transgenic potato plants." pages 255-277 in G.W. Zehnder et al.
Editors. Advances in Potato Pest Biology and Management. APS Press. St.
Paul, Minnesota.
82
Gourmet, C , Kolb, F. L., Smyth. C. A. and Pederson, W. L. (1996). Use of imidacloprid
as seed treatment to control barely dwarf virus in oat and wheat. Plant Di.s.,
80(2);136-141.
Gruda, N. (2005). "Impact of Environmental Factors on Product Quality of Greenhouse
Vegetables for Fresh Consumption". Crit. Rev. Plant Sci. 24(3): Taylor &
Francis Group, pp. 227-247.
Grzywacz, D., Rossbach, A., Rauf, A., Russell, D. A., Srinivasan, R. and Shelton. A. M.
(2010). Current control methods for diamondback moth and other brassica
insect pests and the prospects for improved management with lepidopteran-
resistant Bt vegetable brassicas in Asia and Africa Original Research Article.
Crop ProL, 29(1): 6S-79.
Gupta, S., Sharma, R. K., Gupta, R. K., Sinha, S., and Singh, R. (2005). Persistence of
new insecticides and their efficacy against insect pests of okra, 243-247.
Harcourt, D. G. (1960). Distribution of the immature stages of the diamondback moth.
Plutella maculpipennis (Lepidoptera: Plutelliadae) on cabbage. Can.
EntomoL, 92: 517-521.
Harcourt, D. G. (1965). Spatial pattern of the cabbage looper Triphoplusiani on crucifer.
Ann. Em. Soc. America. 58(1): 89-94.
Harcourt, D. G. (1986). Population dynamics of the diamondback moth in southern
Ontario. Diamondback Moth Management: Proceedings of the First
International Workshop (ed. by NS Talekar & TD Griggs), pp. 3-15. Asian
Vegetable Research and Development Center. Tainan. Taiwan.
Harris, B. M. and Maclean. B. (1999). Spinosad: control of lepidopterous pests in
vegetable brassicas. Proc. 52nd N.Z. Plant Protection Conf., 65-69.
Haseeb, M., Kobori, Y., Amano, H. and Nemoto. H. (2001). Population density of
Plutella xylostella (Lepidoptera: Pluteilidae) and its parasitoid Cotesia
plutellae (Hymenoptera: Braconidae) on two varieties of cabbage in an urban
environment. Applied Entomology and Zoology.. 36(3): 353-360.
83
Haynes, C , Everhart, E., Jauron, R., Nelson, D. and Lenahan. J. (2009). Cole Crops. Iowa
State University Extension. http.V/www.extension. iastate.edu/ Publications/
PM1896. pdf (20 December 2009).
Herakly. F. A. and El-Ezz, A. A. (1970). Seasonal abundance and natural enemies of the
cabbage aphid, Brevicoryne brassicae (L.) in VAR. Agric. Res. Rev. 48 (1):
119-122.
Hill, T. A. and Foster, R. E. (2000). Effect of insecticides on the diamondback moth
(Lepidoptera: Plutellidae) and its parasitoid, Diadegma insulare
(Hymenoptera: Ichneumonidae). J. Econ. Enfomol., 93:763-768.
Hodgson, C. (1991). Dispersal of apterous aphid (Homoptera: Aphididae) from their host
plant and its significance. Bull. Entomol. Res., 81: 417-427.
Idris, A. B. and Grafius, E. (1996). Effects of wild and cultivated host plants on
oviposition, survival, and development of diamondback moth (Lepidoptera:
Plutellidae) and its parasitoid Diadegma insulare (Hymenoptera:
Ichneumonidae). Environ. Ent. 25: 825-833.
Iga, M. (1985). The seasonal incidence and life tables of the diamondback moth. Phitella
xylostella (L.) (Lepidoptera: Yponomeutidae). Japan J. Appl. Em. ZooL.
29(2): 119-125.
Indie, D., Smit, Z. K., Strbac, P., Jovanovic, S. and Krco, S. (I997).Translocation of
imidacloprid in potato plants. Proc. 49"' Int. Sym. Crop Prat. Belgium.
62:595-598.
Ishaaya, I., Kontsedalov. S. and Horowitz. A. R. (2002). Emamectin, a biorational
insecticide for controlling agricultural insect pests. Pest Management Science.
58: 1091-1095.
Ishi, T. (1938). Important insect pests of vegetables 1-3 (In Japanese). Agric. Horlic.
13:1237-1244.
84
Ishi, Y., Koberi, I., Araki, Y., Kurgochi, S., Iwaya, K. and Kagabu, S. (1994). HPLC
determination of new insecticide and its behaviour in rice and cucumber.,/.
Aric. Food chem. 42( 12): 2917-2921.
Jainulabdeen, S. and Prasad, S. K. (2004). Severe infection of cabbage butterfly. Pieris
brassicae (L.) on six species of brassica and effect of abiotic factor on its
population dynamics. J. Enl. Res., 28:193-197
Jamadar, N. (1991). On the migration of cabbage butterfly, Pieris brassicae (L.) in
Kashmir. Journal of the Bombay Natural History Society. 88( 1); 128-129.
Jansson, R. K., Peterson, R. F., Mookerjee, P. K., Halliday, W. R.. Argentine. .1. A. and
Dybas, R. A. (1997). Development of a novel soluble granule formulation of
emamectin benzoate for control of lepidopterous pests. Florida Enlomologisi.
80(4): 425- 423.
Jansson, R. K., Peterson, R. F.. Halliday, W. R., Mookerjee, P. K. and Dybas. R. A.
(1996). Efficacy of solid formulations of emamectin benzoate at controlling
lepidopterous pests. Florida Entomol. 79: 434-449.
Jarende, N. T. and Dethe. M. D. (1994). Effective control of brinjal sucking pests by
imidacloprid. Plant Prot. Bull. 46:43-44.
Jayarathnam, K. (1977). Studies on the Population Dynamics of the Diamondback Moth.
Plutella xylostella (L.) (Lepidoptera: Yponomeutidae) and Crop Loss Due to
the Pest in Cabbage. Ph.D. thesis. Univ. Agric. Sci. Bangalore. 215 pp.
Katoh, S. and Hamasaki, S. (1988). Seasonal prevalence of the cabbage aphid
Brevicoryne brassicae (L.). Bull. Fac. Agric. Yamag. Univ.. 36: 49-57.
Kennedy, G. G. (2008). Integration of Insect-resistant Genetically Modified Crops within
IPM Programs, In: Integration of Insect-resistant Genetically Modified Crops
Within IPM Programs, J. Romeis., A.M. Shelton & G.G. Kennedy (Eds.), 1-
26, Springer Science + Business Media B.V., ISBN 978-1-4020-8372-3
Khaire, V. A., Lawande, K. E. and Ajri. D. S. (1987). Population dynamics of insect pests
of cabbage. Current Res. 3(1): 27-31.
85
Kim, Y. S., Roh, J. Y., Kang, J. N., Wanga, H., Shim, H. J., Li, M. S., Choi. j . Y. and .le.
Y. H. (2008). Mutagenesis of Bacillus thuringiensis cry 1 Ac gene and its
insecticidal activity against Plutella xylostella and Ostrinia furnacalis.
Biologic. ContAl•222-121
Kotwal, D. R. and Bhalla, O. P. (1985). Prediction of cabbage aphid population peak on
cauliflower seed crop. Indian J. PI. Prot. 11(1/2): 76-77
Krishnamoorthy, A. and Mani, M. (2000). Innovative pest management approaches in
Vegetable crops: With special reference to tomato and cabbage in Indo - UK
workshop on innovative Pest and Disease management in Horticultural and
Plantation Crops: Technology Improvement, Validation and Transfer, SPIC
Science Foundation, Chennai, March 10-11, 2000, p. 147
Krishnamoorthy, A., Rama. N. and Mani. M. (2002). Biological control of Diamondback
moth, Plutella xylostella L on cabbage using egg parasitoid.
Trichogrammatoideu hactrae and mustard as trap crop. J. Biol. Control.
Kulat, S. S., Radke, S. G., Thambe, V. J. and Wankhede, D. K. (1997). Role of abiotic
components on the development of mustard aphid. Liaphis erysimi (Kalt). PKV
/?e.9. J 21(1): 53-56.
Kumar, N. K. K.. Krishna Moorthy. P. N. and Eswara Reddy, SO. (2001). Imidacloprid
and thiamethoxam for the control of okra leafhopper. Anirasca higuttulu
higuttula (Ishida). Pest Mgml. Hort. Ecosys., 7: 117-123.
Kuo, M. H. (1997). Influence of meterological factors on population fluctuation o\' Myziis
persicae (Sulzer) in radish and cabbage fields. Chinese J. .igromelerol. 4(2): 105-
109.
Kwon, S. and Kim, Y. (2007). Immunosuppressive action of pyriproxyfen, a juvenile
hormone analog, enhances pathogenicity of Bacillus thuringiensis var.
kurstaki against diamondback moth, Plutella xylostella (Lepidoptera:
Yponomeutidae). Biologic. Conl.. 42: 12-16
86
Lai, K. B. (1939). Natural and biological control of Plutella maculipennis (Curt.) in
England. Indian J. Ent., 1: 117.
Lai, O. P. (1975). A compendium of vegetable insect in India. Bull. Ent. 16: 52-88.
Lee, H. S. (1986). Seasonal occurrence of the important insect pests on cabbage in
Southern Taiwan. J. Agric. Res. China, 35 (4): 530-542.
Lim, G. S. (1986). Biological control of the diamondback moth. In Proceedings of the
First International Workshop on Diamondback Moth Management (N. S.
Talekar and T.D. Griggs (eds.). AVRDC, Tainan, Taiwan, pp. 159-171.
Liu, S. S., Li, Z. M. and Liu, Y. Q. (2007). Feng and Z.H. Tang, Promoting selection of
resistance to spinosad in the parasitoid Cotesia plutellae by integrating
resistance of hosts to the insecticide into the selection process. Biol. Cont.. 41:
246-255.
Liu. S. S., Wang, X. G., Wu. X. J., Shi, Z. H., Chen, Q. H. and Hu. H. X. (1997).
Population fluctuation of aphid on crucifer vegetables in Hangzhou suburbs.
Chin Acta. Appl. EcoL, 8:510-514.
Liu. X., Chen, M.. Onstad, D., Roush, R. and Shelton, A. M. (2011). Effect of Bi broccoli
and resistant genotype of Plutella xylostella (Lepidoptera: Plutellidae) on
development and host acceptance of the parasitoid Diadegma insulare
(Hymenoptera: Ichneumonidae). Transgenic Res. 20:887-897
Llyod, M. (1967). Mean crowding. J. Anim. Ecol. 26: 1-30.
Lumbierres, B., Petrstary. P. and Pons. X. (2011). Effect of/?/ maize on the plant-aphid-
parasitoid tritrophic relationships. BioControL, 56:133-143
Maggioni, L., Von Bothmer, R., Poulsen, G. and Branca, F. (2010). Origin and
Domestication of Cole Crops (Brassica oleracea L.): Linguistic and Literar\
Considerations. Econ. 5o/.. 64(2): 109-123.
Malathi, S., Sriramulu, M. and Babu, T. R. (1999). Evaluation of certain eco-friendly
insecticides against lepidopterous pests of cabbage. Indian .1. Ent., 61(2): 127
-133.
Malik, K.. Kumari, B. and Kath pal. T. S. (1998). Persistence and decontamination of
alphamethrin at two different temperatures. Pesti. Res../., 10(2):246-250.
87
Mandic, A. I., Lazic, S. D., Okresz. S. N. and Gaal, F. F. (2005). Determination of the
Insecticide Imidacloprid in Potato {Solanum tuberosum L.) and Onion {Allium
cepa) by High-Performance Liquid Chromatography with Diode-Array
Detection. J. Analyt. Chem., 60(12): 1134 - 1138.
Masood Khan, M. A., Reddy, D. J. and Rao, S. V. (1999). 'Dissipation of cypermethrin
residue in okra fruits'. Pesticide Res. J., 11(1). 84-85.
Mathur, K. C. (1983). Aphids of agricultural importance and their natural enemies of
Jullunder Punjab, p. 229-233. In: B.K. Behura (ed). The Aphids. The
Zoological Society of Orissa, Utkal University, Bhubneshwar, India.
Maxwell, E. M. and Fadamiro, H. Y. (2006). Evaluation of several reduced-risk
insecticides in combination with an action threshold for managing
lepidopteran pests of cole crops in Alabama. Florida Entomol., 89(2):117-
126.
Medina, P., Budia, F.. Tirry. L., Smagghe, G. and Vinuela, E. (2001). Compatibility of
spinosad, tebufenozide and azadirachtin with eggs and pupae of the predator
Chrysoperla carnea (Stephens) under laboratory conditions. Biocontrol
Science and Technology. 11: 597- 610.
Meena, R. K. and Lai, O. P. (2004). Bioefficacy of certain synthetic insecticides against
mustard aphid, Lipaphis erysimi Kalt on cabbage../. Ent. Res. 28(1): 87-91.
Metz. T. D.. Roush, R. T., Tang, J. D.. Shelton. A. M. and Earle. E. D. (1995).
Transgenic broccoli expressing a Bacillus thuringiensis insecticidal crystal
protein: implications for pest resistance management strategies. Mot. Breed..
1:309-317
Milne, A. (1957). The natural control of insect populations. Can. Entomol, 89: 193- 213.
Milne, A. (1962). On a theory of natural control of insect population. J. Theoret. Biol.. 3:
19-20.
Milne, A. (1962). On a theory of natural control of insect population../. theoret. Bio.. 3.
19-50.
Mitchell, E. R., Ho, G. G. and Johanowicz, D. (2000). Management of diamondback moth
(Lepidoptera: Plutellidae) in cabbage using collard as a trap crop. Hort. Sci. 35:
875-879.
88
Morishita, M., Azuma, K. and Yahoo, S. (1992). Changes in insect susceptibility of the
diamondback moth in Wakayama. Japa«y..4./?.5. 26(2): 139-143.
Mote, J. N., Mobile, A. P. and Lolage, G. R. (1995). Effect of imidacloprid as seed
dresser and foiar sprays against sorghum shootfly. Pestology, 19:24-29.
Nagarkatti, S. and Jayanth, K. P. (1982). Population dynamics of major insect pests of
cabbage and of their natural enemies in Bangalore district (India), p. 325-347.
In: Proc. Int. Conf. Plant Protec. Tropics. Malaysian Plant Protec. Soc.
Malaysia, 1 ^ March 1982.
Nagesh, M. and Verma, S. (1997). Bioefficacy of certain insecticides against diamonback
moth {Plutella xylostella) on cabbage. Indian J. Ent., 59(4): 411-414.
Nasir, A. B., Javed, H., Aslam, M. and Khan, A. A. (1998). Influence of abiotic factors
on the population of mustard aphid. Liaphis erysimi Kalt. Sarahad J Agric.
14(5): 453-455.
Nayar, J. K. and Thorsteinson, A. J. (1963). Further investigation into the chemical basis
of insect host plant relationship in an oligophagous insect {Plutella
maculipennis (Curt.) Lepidoptera: Plutellidae). Can. J. Zool. 41:923-929.
Nicholson, A. J. (1957). The self adjustment of populations to change cold sprig. Harbour
Symp. Quant. Biol, 22: 153-173.
Nowack, J. T., Mccravy, K. W., Petting, C. J. and Berisford, C. W. (2001). Susceptibility
of adult Hymenopteran parasitoids of the Nantucket pine tip moth
(Lepidoptera: Tortricidae) to broad-spectrum and biorational insecticides in a
laboratory study. J. Econ. Ent., 94: 1122-1129.
Ojha, P. K. and Singh, P. (2003). Effect of intercropping on the incidence of insect pests
of cauliflower and its economics under agroclimatic zone-1 Bihar. Pestology,
27(10): 22-25.
Omkar and Srivastava, S. (2003). Influence of six aphid prey species on development
and reproduction of a ladybird beetle, Coccinella septempimctaiu.
BioControL, 48: 379-393.
89
Omkar and Srivastava, S. (2002). The reproductive behaviour of an aphidophagous
ladybeetle, Coccinella septempimctata (Coleoptera: CoccinelHdae). Eur. J
Entomol. 99(4): 465-470.
Ong, K. H. and Soon, S. C. (1989). Seasonal abundance and distribution patterns among
host plants of diamondback moth Plutella xylostella (L.). Singapore J. Prim
Inds. 17(1): 29-40.
Pandit, G. K., Bhattacharya, A., Bose. A. K., Bandyopadhyay, D., Das, A. K. and
Chaudhury, A. (1996). Persistence of a-cypermethrin in cabbage and
monocrotophos in three soils of westbegal. Pestic. Res.J. 8(2): 132-138.
Panse, V. G. and Sukhatme, P. V. (1978). Statistical Methods for Agricultural Workers.
(Third revised edition). ICAR. New Delhi.
Patel, J. J., Patel, N. C, Jayani, D. B. and Patel, J. R. (1996). Bioefficacy of synthetic and
botanical insecticides against aphid and diamond back moth infesting
cabbage. Guj. Agric. Univ. Res. J. 22: 69-71.
Paul, A., Sharma. S. R., Sresty. T. V. S., Devi, S.. Bala, S.. Kumar. P. S.. Saradhi. P. P..
Frutos. S., Altosar, I. and Kumar, P. A. (2005). Transgenic cabbage {Brassica
oleracea var. capitata) resistant to diamond back moth (j)hilella xylostella).
Indian J. Biotech., 4:72-77
Peter, C. and Sundararajan, R. (1991). Field tests with two new growth regulators for the
control of diamondback moth, Plutella xylostella L. Indian J. PI. Prot.. 19:
161-166.
Peter, C , David, B. V., Sundararajan, R. and Govindarajalu, V. (1989). Evaluation of
cartap for the control of diamondback moth Plutella xylostella (L.) on
cabbage. Pestology. 13 (12): 21-24.
Pradhan, S. (1971). In tropics, protection research more needed than production research.
Indian J. Ent., 33(3): 233-259.
90
Pramanik, P. and Chatterjee, M. L. (2004). Effect of novaluron in the population of
Plutella xylostella and Spodoptera litura on cabbage. Ann. PI. Prot. Sci.
12(1), 204-205.
Prasad, S. K. (1963). Quantitative estimation of damage to cruciferous caused by cabbage
worm, cabbage lopper, diamond back moth and cabbage aphid. Indian J. Em.
25(3): 242-259.
Prasad, S. K. and Pradhan, S. (1952). Studies on distribution and sampling of mustard
aphid Lipathis erysimi Kalt. On mustard. Thesis for Associateship submitted
to the faculty of P.G. School. lARI. New Delhi.
Rai, S., Saxena, J. D., Srivastava, K. M. and Sinha, S. R. (1992). Chemical control of
diamond back moth. Pesticide Res. J. 4(1): 63-64.
Rai, S., Srivastava, K. M., Saxena, J. D. and Sinha, S. R. (1992). Distribution pattern of
diamondback moth {Plutella xylostella) on cabbage and cauliflower. Indian J
Ent., 54(3): 262-265.
Rajavel, D. S. and Babu, P. C. S. (1989). Studies on moult inhibitor and synthetic
pyrethroids for the control of cabbage diamondback moth Plutella xylostella
(L.) on cabbage. Veg. Sci. 16 (2): 201-204.
Rajendra. K. and Dikshit, A. K. (2001). Assessment of imidacloprid in Brassica
environment. J. Environ. Science and Health, 36(5): 619-629.
Raju, S. V. S. (1996). An overview of insecticides resistance in Plutella xylostella (L.) in
India. Resist. Pest Manag., 8: 23 -24.
Ram, S. and Pathak, K. A. (1992). Insecticidal control of cabbage butterfly./'/(?r/.v
brassicae (Pieridae : Lepidoptera) in Manipur. Indian J. Ent. 54: 353-355.
Raouchaud, J., Gustin, F. and Wauters, A. (1996). Imidacloprid insecticide metabolism
in sugarbeet field crops. Bull. Environ. Contam. Toxicol, 56:29-36.
Rawat. R. R., Rathore, Y. S. and Saxena, D. K. (1968). Bionomics of Hellula undalis
(F.) the cabbage borer (Pyralidae: Lepidoptera) at Jabalpur. Indian J. Ent.. 30
(3): 235-237.
Reddy, C. N., Singh, T. V. K., Reddy, D. D. R. and Goud, T. R. (1996). Distribution
pattern of diamondback moth {Plutella xylostella) on cabbage at Hyderabad.
Ind. J. Ent., 54(4): 306-309.
Reddy, G. V. P. and Guerreo, A. (2002). Pheromone based integrated pest management
to control the diamond backmoth in cabbage fields. Pest. Mnag. Scio. 56:
882-888.
Regupathy, A. (1996). Insecticide resistance in diamondback moth (DBM), Plutella
xylostella (L.): Status and prospects for its management in India. In
Diamondback moth and other crucifer pests: Proceedings of third international
workshop, kualalumpur. pp 233-239.
Reid, W. J. and Baire, C. D. (1952). Seasonal population of cabbage caterpillars in
Charleston S.C. area. J. Econ. Ent., 45: 695-699.
Rike, K. S., Reed, G. L., Craf, G. T. and Allison, D. (1993). Compatibility of imidaclopri
with fungicides as a seed treatment control of Russian wheat aphid
(Homoptera, AphididaeO and effect on germiation, growth and yield of wheat
and barely. J. Econ. Entomol, 86: 586-593.
Rohilla, H. R.. Singh, H., Yadava, T. P., and Singh H (1996). Seasonal abundance of
aphid pests on rapeseed-mustard crops in Haryana. Ann. Agri. Bio. Res. I: 75-
78.
Rouchaud. J., Gustin, F. and Wauters, A. (1994). Soil biodegradation and leaf transfer of
insecticide imidacloprid applied in seed dressing in sugar beet crops. Bull
Environ. Contain. Toxicol., 53(3), 344-350.
Roy. D. C. and Pande, Y. D. (1991). Biology and seasonal incidence of Lipaphis erysimi
(Kalt.) (Aphididae: Homoptera) on cabbage in Tripura. Bioved, 2(1): 37-42.
Sachan, J. N. and Gangwar, S. K. (1980). Vertical distribution of important pests of cole
crops in Meghalaya as influenced by the environmental factors. Indian J. Ent..
42(3): 414-421.
Sachan, J. N. and Gangwar, S. K. (1990). Seasonal incidence of insect pests of cabbage,
cauliflower and knol-khol. Indian J. Ent.. 52 (1): 1 II-124.
92
Sachan, J. N. and Srivastava, B. P. (1972). Studies on the seasonal incidence of insect
pest of cabbage. Indian J. Ent. 34 92): 123-129.
Sakai, M. (1971). The chemistry and action of cartap. Japan Pest. Inf.. 6: 15-19.
Salgado, V. L. (1997). The mode of action of spinosad and other insect control products.
Down to Earth. 52(1): 35-44.
Salgado, V. L. (1998). Studies on the mode of action of spinosad: Insect symptoms and
physiology correlates. Pesti. Biochem. Physiol. 60(2): 91-102.
Samsudin, A., Sunindyo. D. and Shieh. J. N. (1999). Success 25 SC Naturalyte Insect
Control - Novel Natural Chemistry for Insect Resistance Management. In:
Proceedings of the 5' International Conference on Plant Protection in the
Tropics (eds) A. Sivaprasagam et al.). MAPPS, Kuala Lumpur 1999. pp 239-
250.
Sandur, S. (2004). Implications of Diamondback Moth Control for Indian Farmers.
Consultant Report for the Centre for Environmental Stress and Adaptation
Research, La Trobe University. Victoria, Australia, 31 pp.
Sannaveerappanavar, V. T. and Viraktamath. C. A. (1997). Management of insecticide
resistant back moth, Plutella xylostella (L.) (Yponomeutidae: Lepidoptera) on
cabbage using some navel insecticides. My.sore J. Agric. Sci. 31(3); 230-235
Sansone, C. G. and Minzenmayer, R. R. (2000). Impact of new bollworm insecticides on
natural enemies in the southern rolling plains of Texas, in Proceedings
Beltwide Cotton Conference. National Cotton Council of America, Memphis.
TN,pp. 1104- 1108.
Sarfraz, M., and Keddie, B. A. (2005). Conserving the efficacy of insecticides against
plutella xylostella (L.) (Lepidoptera: Plutellidae). J. Appl. Entomol. 129; 49-
157.
Scholz, B.. Parker, N. and Lloyd. R. (2002). An evaluation of unsprayed INGARD cotton
strips as nurseries for beneficials in dryland cotton on the Darling Downs, in
93
Proceedings 11th Australian Cotton Conference, 13-15 August 2002.
Brisbane, Queensland, Australia.
Shapiro, V. A. (1975). Ecological behavioral aspects of consistence in six crucit'er
feeding pierid butterflies in the central Sierra Nevada. Midland Naturalist. 93:
424-433.
Sharma, A., Kumar, K. J. and Nagarajan, S. (1998). Effect of rainfall and temperature on
mustard aphid, Lipaphis erysimi. Indian J. Ent. 45(2): 202-205.
Sharma, H. C. and Adlakha, R. L. (1986). Toxicity of some insecticides lo the adults of
CoccineUa sepJiimpimclalu after predating upon poisoned cabbage aphid.
Indian J. £«/. 48: 204-211.
Shaw, M. N. (1959). The diamondback moth, Plutella macuUpennis (Curtis). A
historical review withits special rference of its occurrence in Scotland in 1958.
Trans. R. High!. Agric. Soc. 6: 56-80.
Shekh, A. M., Patel, J. R. and Ratanapara, H. C. (1993). Effect of temperature, \apour
pressure and thermal time on populations of cabbage aphid. Lipaphis erysimi
Kalt infesting cabbage. Gujarat Agric. Univ. Res. J. 18(2): 56-61.
Shelton, A. M. and Nault, B.A. (2004). Dead-end trap cropping: a technique to improve
management of the diamondback moth. Crop Prot.. 23:497-503
Shelton. A. M.. Sances. F. V.. Hawle\-. .1.. Tang. .1. D.. Boune. M.. .lungers. D . Collins
H. L. and Farias, J. (2000). Assessment of insecticide resistance after the
outbreak of diamondback moth (Lepidoptera: Plutellidae) in California in
1997. J. Econ. EntomoL, 93: 931-936.
Shiyomi, M. and Nakamura, K. (1964). Experimental studies on the distribution of the
aphid count. Res. Popn. Ecol., 6: 72-87.
Singh G., Mann, R., Singh, D., Joia and Mahale, (2005). Current status of insecticide
resistence in Diamond back moth, Plutella xylostella (Linnaeus). J. Insect Sci.
18: 1-16.
Singh, D. and Singh, H. (1994). Correlation coefficients between abiotic and biotic
factors (predators and parasitoids) and mustard aphid. Lipaphis erysimi (Kalt.)
population on rapeseed mustard. J. AphidoL. 8( 1 &2): 102-109.
94
Singh, H. and Singh, Z. (1989). Population dynamics of green peach aphid Myzus
persicae (Sulz.) on rapeseed cv. BSH 1. Crop Res.. 2(2): 194-199.
Singh, R., Rai, S. and Singh, V. S. (1993). Spatial distribution of aphids infesting
cabbage and cauliflower. Indian J. Ent., 55(92): 178-183.
Singh, S. V. and Malik, Y. P. (1998). Population dynamics and economic threshold of
Lipaphis erysimi Kalt., on mustard. Indian J. Ent. 60(1): 43-49
Sivapragasam, A., Ito, Y., Saito, T. and Iwao, S. (1986). Distribution patterns of
immatures of the diamondback moth. Plutella xylostella (L.) (Lepidoptera:
Yponomeutidae) and its larval parasitoid on cabbage. Appl. Entomol. ZooL.
21(4): 546-552.
Snedecor, G. W. and Cochran, W. G. (1968). Statistical Methods (Sixth edition). Oxford
and IBH Publ. Co., New Delhi.
Sood, A. K. and Bhalla, O. P. (1996). Ecological studies on cabbage white butterfly
Pieris brassicae in the mid hills of Himachal Pradesh. J. Insect Sci. 9(2): 122-
125.
Sood, A. K., Bhalla, O. P. and Verma, A. K. (1993). Effect of cabbage white butterfly
Pieris brassicaei feeding on seed yield in cauliflower. Indian J. PI. Prot.
21(2): 121-125.
Southwood, T. R. E. (1978). Ecological methods. ELBS and Chapman and Hall. London.
Sparks, T. C, Thompson, G. D., Kirst, H. A.. Hertlein. M. B., Mynderse. J. S., Turner. J
R. and Worden, T. V. (1998). Fermentation-Derived Insect Control Agents
The Spinosyns. In: Methods in Biotechnology. Biopesticides: Use and
Delivery. (Eds.) F. R. Hall and J. J. Menn). 5: 171-188. Humana Press.
Totowa, NJ
Sreekanth, M. and Babu, R. (2001). Evaluation of certain new insecticides against the
aphid Lipaphis erysimi (Kalt.) on cabbage. Int. Pest. Control, 43(6): 242-244.
Srinivasan, K. and Krishnamoorthy, P. N. (1991). Indian mustard as a trap crop for
mmanagement of major lepidopterous pests of cabbage. Prop. Pest Manage.,
37 : 26-32.
95
Srinivasan, K. and Rao, G. S. P. (1987). Distribution patterns of diamondbaclc moth and
cabbage leaf-webber larvae on cabbage. Intl. J. Trop. Agri., 5(3-5): 203-208.
Srivastava, A. and Guleria, S. (2003). Evaluation of botanicals for mustard aphid.
Lipaphis erysimi (Kalt.) control in Brassica. Himachal J. Agril Research.. 29
(1&2): 116-118.
Steinmetz, K. A. and Potte, J. D. (1996). "Vegetables, fruit, and cancer prevention: a
review". J. Am. Diet. Assoc, 96 (10): 1027-39.
Sumalayha, V. (1990). Effect of diflubenzuron on the developmental stages of cabbage
borer {Hellula undalis Fab.) and chemical control of pest complex. M.Sc
(Ag.) Thesis. Andhra Pradesh Agricultural University, Hyderabad.
Syed, T. S., Abro, G. H. and Ahmed, S. (2004). Efficacy of different insecticides against
Plutella xylostella under field conditions. Pakistan J. Biol. Sci. 7( 1): 10-13
Sylvester, E. S. and Cox, E. L. (1961). Sequential plans for sampling aphids on
sugarbeets m kern country. California. J. Econ. EntomoL. 54(6): 1080-1085.
Tabashnik, B. E., Cubing, N. L. and Johnson, M. W. (1987). Diamondback moth
(Lepidoptera: Plutellidae) resistance to insecticides in Hawai intra-island
variation and cross resistance. J. Econ. EntomoL, 80: 1091-1099.
Talekar, N. S. and Shelton, A. S. (1993). Biology ecology and management of
diamondback moth. /̂?;iw. Rev. Entomol. 38: 275-301.
Talekar. N. S. and Yang, J. C. (1991). Characteristic of parasitism of diamondback moth
by two larval parasites. Entomophaga.. 36: 95-104
Talekear, N. S. and Shelton, A. M. (1993). Biology ecology and management of the
diamondback moth. Ann. Rev. Ent. 38: 275-301.
Tamilselvan. C. (1994). Residues of alphamethrin and its metabolites in cotton. Indian
J. Environ. Toxicol., 5{2):7\-72.
Tang, J. D., Collins. H. L., Metz, T. D., Earle, E. D., Zhao. J. Z.. Roush. R. T. and Shelton.
A. M. (2001). Green house tests on resistant management of Bt transgenic plant
using refuge strategies. J. Econ. Entomol., 94:240-247 .
96
Thakur, N. S. A. (1996). Relationship of cabbage butterfly larvae {Pieris brassicae L.)
population on the marketable yield of cabbage. J. of. Hill. Research. 9(2):
356-358.
Thakur, N. S. A. and Deka, T. C. (1997). Ecological studies on the cabbage butterfly.
Pieris brassicae L in north eastern India. Pest Manag. Horti. Ecosys. 3(1): IS
IS.
Thompson, G. D., Dutton, R. and Sparks, T. C. (2000). Spinosad—a case study: an
example from a natural products discovery programme. Pest Manag. Sci.. 56:
696-702.
Upadhyay, S. and Agarwal, R. K. (1993). Persistent toxicity of some insecticides against
Lipaphis erysimi on mustard. Indian J. PI. Prot., 21(1): 104-105.
Vasicek, A., Ricci, M., Rossa and La, F. R. (1998). Aspects of food preference of Pliitella
xylostella (L.) (Yponomeutidae: Lepidoptera) on same cultivated crucifers.
Revista de la Facultad de Agronomic Universidad de Buenos aires. 18(1'2):
1-5.
Vastard, A. S., Lingappa. S. and Basavanagoud, K. (2003). Management of insecticide
resistant populations of diamondback moth. Plutella .xylostella ([..)
(Yponomeutidae: Lepidoptera). Pest Manag. Horti. Eco.sys., 9(1): 33-40.
Verkerk, R. H. J. and Wright, D. J. (1996). Common cabbage resistance mechanisms
against the diamondback moth: Still an open book? Ann. Appl. Biol., 128:
571-577.
Vijaykumar, B., Fakrudin, K. B., Krishnareddy and Patil, B. V. (2004). New Molecules
in Insecticide Resistance Management. Resistant Pest Management
Newsletter. 14(1): 13-14.
Villas, B., Castelo, B. M. and Maria, A. D. (2004). Insecticide evaluation for control of
the diamondback moth and impact on natural populations of parasitoids
associated with diamondback moth. Hort. Brasileira., 22 (4): 113-130.
97
Voltukhov, V. A. (1975). Economic evaluation of the chemical and biological methods.
Zashchita Rastenii., 5: 29
Wang, X. G., Liu, S. S. and Wu, X. J. (1995). Spatial pattern and its time series dynamics
\r\dipop\x\di\\ox\oiLipaphis erysismi. J. Zhejiang-Agri. Univ., 21(5): 508-512.
Watanabe, T. (1927). A control method for Hellula unalia (Fab.) (Pyralidae) a pest of
vegetables (In Japanese). Agric. and Hort., 9: 987-992.
Westwood, F., Bean, K. M., Dewar, A. M., Bromilow, R. H. and Chamberlain, K..
(1998). Movement and persistence of (14 C) imidclopride in sugaarbeet
plants following application to pelleted sugarbeet seed. Pesicide 5c/., 52(2);
97-103.
White, A. J., Wratten, S. D., Berry, N. A. and Weigmann. U. (1995). Habitat
manipulation to enhance biological control of brassica pests by hovertlics
(Diptera: Syrphidae). J. Econ. EntomoL, 88: 1171-1176.
Williams, T., Valle, J. and Vinuela. E. (2003). Is the naturally derived insecticide
spinosad compatible with insect natural enemies. Biocont. Sci. Tech.. 13(5);
459-475.
Xu. Y.. Liu. T.. Leibee, G. L. and Jones. W. A. (2004). Effects of selected insecticides on
Diadegma insulare (Hymenoptera: Ichneumonidae), a parasitoid of Plutella
x>7o.yre//o (Lepidoptera: Plutellidae). Biocontrol Sci. Tech.. 14:713-723.
Zheng, B. Z., Gao, X. W., Zhao, G. Y. and Cao, B. J. (1997). Insecticide resistance in
turnip aphids, Lipaphis erysimi (Kaltenbach), from Beijing and suburbs. Resis.
Pest. Mngt., 9: 27-28.
Zhou. A. N. and Ma, X. L. (1993). Insecticide sensitivities of lepidopterous pests on
cabbage in the Shangai suburbs. Ada Agri. Shanghai., 9(3): 87-91.
98