Refine your search
Co-Authors
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z All
Sajeev, T. V.
- A New Insect Rearing Container for in vivo Mass Multiplication of NPV of Hyblaea puera
Abstract Views :202 |
PDF Views:113
Authors
Affiliations
1 Division of Forest Protection, Kerala Forest Research Institute, Peechi - 680653, Thrissur, Kerala, IN
1 Division of Forest Protection, Kerala Forest Research Institute, Peechi - 680653, Thrissur, Kerala, IN
Source
Journal of Biological Control, Vol 22, No 1 (2008), Pagination: 217-219Abstract
To overcome the problems in rearing the teak defoliator, Hyblaea puera on artificial diet in a two-piece rearing tube for HpNPV mass multiplication, a new three-piece tube was designed and evaluated. The two-piece tube (Tube A) consists of two parts - a cylindrical main body with one end open (55mm x 23mm) and a perforated cap. The three-piece tube (Tube B) consists of a main body with both ends open (55mm % 23mm), a diet cup (20mm % 22mm) and a perforated cap. Comparative evaluation of two types of tubes (main body of Tube A vs Diet cup of Tube B) was made in terms of their virus capture efficiency during inoculation and also easiness in diet dispensing and general handling. The short length of the diet cup of tube B favored highest virus capturing (added 30%) and efficient diet dispensing. Tube B could be an excellent option for rearing H. puera larvae for NPV mass production and laboratory culture maintenance and also for rearing of other lepidopteran larvae of similar behavior and size.Keywords
HpNPV, Hyblaea puera, Rearing Tube.- An Improved Method of Extraction of Nucleopolyhedrovirus from Soil with Reference to Hyblaea puera NPV
Abstract Views :170 |
PDF Views:107
Authors
Affiliations
1 Forest Protection Division, Kerala Forest Research Institute, Peeehi, 680653, Kerala, IN
1 Forest Protection Division, Kerala Forest Research Institute, Peeehi, 680653, Kerala, IN
Source
Journal of Biological Control, Vol 22, No 2 (2008), Pagination: 479-481Abstract
An efficient method of extraction of the nucleopolyhedrovirus of the teak defoliator, Hyblaea puera (Cramer) (Lepidoptera: Hyblaeidae) (HpNPV) from soil has been standardized. This method ensures recovery of about 34 per cent of NPV from soil.Keywords
Extraction, Hyblaea puera, HpNPV, Nucleopolyhedrovirus, Persistence, Soil.- Economics of HpNPV Production Using Field Collected and Laboratory Reared Hyblaea puera (Cramer) (Lepidoptera: Hyblaeidae)
Abstract Views :277 |
PDF Views:125
Authors
Affiliations
1 Forest Protection Programme Division, Kerala Forest Research Institute, Peechi, 680 653, Trichur, Kerala, IN
1 Forest Protection Programme Division, Kerala Forest Research Institute, Peechi, 680 653, Trichur, Kerala, IN
Source
Journal of Biological Control, Vol 19, No 2 (2005), Pagination: 193-196Abstract
The economics of mass production of the nucleopolyhedrovirus of the teak defoliator, Hyblaea puera Cramer (Lepidoptera: Hyblaeidae) (HpNPV) using the laboratory-reared and field-collected (from teak plantations) host larvae was compared. The data were based on 7645 laboratory-reared (LR) larvae and 8925 field-collected (FC) larvae. The virus production was carried out using fifth instar larva inoculated with 1x106 OBs (Viral Occlusion Bodies)/larva. The virus yield/larva in LR and FC larvae was 4.8x108 and 3.6x108 OBs, respectively. The virus productivity ratio in LR and FC larvae was 241 ± 55 and 178 ± 100.85 OBs, respectively. The cost of production of HpNPV per larva was higher in the case of LR (Rs. 0.82/larva) in comparison with FC (Rs.0.72). However, the cost of HpNPV required for spraying in one hectare at the rate of 1.63 x 1011 OBs worked out to be Rs. 279 and Rs. 317 in the case of LR and FC, respectively. A marginal difference in the virus yield was found affecting the cost of the virus produced.Keywords
Hyblaea puera, HpNPV, Mass Production, Nucleopolyhedrovirus, Teak Defoliator.- Mass Production of Nucleopolyhedrovirus of the Teak Defoliator, Hyblaea puera Cramer Using Host Population in Teak Plantations
Abstract Views :227 |
PDF Views:147
Authors
Affiliations
1 Division of Entomology, Kerala Forest Research Institute, Peechi 680653, Kerala, IN
1 Division of Entomology, Kerala Forest Research Institute, Peechi 680653, Kerala, IN
Source
Journal of Biological Control, Vol 18, No 1 (2004), Pagination: 81-84Abstract
The nucleopolyhedrovirus of the teak defoliator, Hyblaea puera Cramer (Lepidoptera: Hyblaeidae) (HpNPV) is a potential biocontrol agent of the pest. This paper describes a method to mass multiply HpNPV in situ in the field population of H. puera. The method is based on application of the virus suspension on young teak plantation infested with H. puera. An average yield of 4.8816 x 10& Polyhedral Occlusion Bodies (POBs) per fifth instar larva was obtained with this method. The advantage of this method of HpNPV production is that it is less expensive as it does not depend on host larval culture maintained in the laboratory.Keywords
Hyblaea puera, HpNPV, Mass Production, Nucleopolyhedrovirus, Teak Defoliator.- Field Efficacy of Nuclear Polyhedrosis Virus for Protection of Teak against the Defoliator, Hyblaea puera Cramer (Lepidoptera:Hyblaeidae)
Abstract Views :227 |
PDF Views:138
Authors
K. S. S. Nair
1,
Biju Babjan
1,
T. V. Sajeev
1,
V. V. Sudheendrakumar
1,
M. I. Mohammed Ali
2,
R. V. Varma
1,
K. Mohanadas
1
Affiliations
1 Division of Entomology, Kerala Forest Research Institute, Peechi 680 653, Kerala, IN
2 Division of Plant Pathology, Kerala Forest Research Institute, Peechi, IN
1 Division of Entomology, Kerala Forest Research Institute, Peechi 680 653, Kerala, IN
2 Division of Plant Pathology, Kerala Forest Research Institute, Peechi, IN
Source
Journal of Biological Control, Vol 10, No 1&2 (1996), Pagination: 79-85Abstract
In the year 1993, a 100 tree plot in a 17 year old teak plantation at Nilambur in Kerala was experimentally protected from Hyblaea puera Cramer, a serious defoliator of teak plantations, using a naturally occurring baculovirus (HpNPV) reported earlier from this pecies. During the year, there were four major peaks of defoliator infestation from March to June. One-time foliar application of a crude preparation of HpNPV at the rate of 1x105 POB/ml of the spray fluid, at the earliest sign of each infestation, gave 70-76 per cent protection of foliage during the first two infestations. A reduced foliage protection of 33-43 per cent obtained during the third and fourth infestations was attributable to occurrence of rain soon after application of the spray. In protected trees, the basal area increment was enhanced by 41 per cent, indicating the efficacy of HpNPV as a biocontrol agent against the teak defoliator.Keywords
Baculovirus, HpNPV, Hyblaea puera, Teak Defoliator.- Seeding baculovirus HpNPV in the epicentre populations of teak defoliator, Hyblaea puera to prevent large-scale outbreaks
Abstract Views :179 |
PDF Views:84
Authors
Affiliations
1 Division of Forest Protection, Kerala Forest Research Institute, Thrissur 680 653, India; Wildlife Research and Conservation Trust, Anupallavi, Chungathara, Nilambur 679 334, IN
2 Division of Forest Ecology and Biodiversity Conservation, Kerala Forest Research Institute, Thrissur 680 653, India; Wildlife Research and Conservation Trust, Anupallavi, Chungathara, Nilambur 679 334, IN
3 Division of Forest Protection, Kerala Forest Research Institute, Thrissur 680 653, IN
1 Division of Forest Protection, Kerala Forest Research Institute, Thrissur 680 653, India; Wildlife Research and Conservation Trust, Anupallavi, Chungathara, Nilambur 679 334, IN
2 Division of Forest Ecology and Biodiversity Conservation, Kerala Forest Research Institute, Thrissur 680 653, India; Wildlife Research and Conservation Trust, Anupallavi, Chungathara, Nilambur 679 334, IN
3 Division of Forest Protection, Kerala Forest Research Institute, Thrissur 680 653, IN
Source
Current Science, Vol 122, No 7 (2022), Pagination: 812-818Abstract
The defoliation caused by Hyblaea puera can result in approximately 44% reduction in the annual volume increment of teak, a major timber tree. Several management options used in the past to control the pest were not effective due to high cost and environmental problems. In the present study we have used the vertical transmission characteristics of Hyblaea puera nucleopolyhedrovirus (HpNPV) for cost-effective and environment-friendly control of the most devastating pest. First, a laboratory experiment was conducted to verify the vertical transmission of HpNPV and later field spraying was done to study the effect under natural conditions. Vertical transmission of HpNPV in the laboratory ranged between 13% and 59%. The sublethal transmission caused reduction in pupation, adult emergence, male and female longevity, egg-laying period, fecundity, hatching of F1 eggs, F1 mortality, F1 pupation and F1 fecundity, but had no influence on the F2 survival compared to the control. Spraying of HpNPV in the epicentre population of the pest resulted a viral epizootic at the F2 generation and led to collapse of the host population. Seeding of HpNPV in the epicentre populations of the teak defoliator has been proved to be an economical and environment-friendly method for management of the pest.Keywords
Baculovirus, epicentre populations, field spraying, Hyblaea puera, teak, vertical transmission.References
- Nair, K. S. S., Tropical Forest Insect Pest: Ecology, Impact and Management, Cambridge University Press, Cambridge, UK, 2007, p. 404.
- Kollert, W. and Kleine, M. (eds), The Global Teak Study. Analysis, Evaluation and Future Potential of Teak Resources, IUFRO World Series, Vienna, 2017, vol. 36, p. 108.
- Sudheendrakumar, V. V., Reproductive behavior of Hyblaea puera Cramer (Lepidoptera: Hyblaidae). Entomon, 2003, 28, 77–84.
- Nair, K. S. S. and Sudheendrakumar, V. V., The teak defoliator, Hyblaea puera: defoliation dynamics and evidences of short-range migration of moths. Proc. Indian Acad. Sci. – Anim. Sci., 1986, 95(1), 7–21.
- Chandrasekhar, N., Sajeev, T. V., Sudheendrakumar, V. V. and Banerjee, M., Population dynamics of the teak defoliator (Hyblaea puera Cramer) in Nilambur teak plantations using Randomly Amplified Gene Encoding Primers (RAGEP). BMC Ecol., 2005, 5(1); http://doi.org/10.1186/1472-6785-5-1.
- Sudheendrakumar, V. V., Ali, M. I. M. and Varma, R. V., Nuclear polyhedrosis virus of the teak defoliator, Hyblaea puera. J. Invertebr. Pathol., 1988, 51, 307–308.
- Sajeev, T. V., Sudheendrakumar, V. V., Helen, S. M., Meera, C. S., Bindu, T. N. and Bindu, K. J., Hybcheck – the biopesticide for managing teak defoliator (Hyblaea puera Cramer): an announcement. In Proceedings of the Regional Workshop on Processing and Marketing of Teak Wood Products of Planted Forests, Kerala Forest Research Institute, Peechi, 2007, p. 38.
- Fuxa, J. R., Insect control with baculoviruses. Biotech. Adv., 1991, 9, 425–442.
- Szewczyk, B., Hoyos-Carvajal, L., Paluszek, M., Skrzecz, I. and de Souza, L. M., Baculoviruses – re-emerging biopesticides. Biotech. Adv., 2006, 24, 143–160.
- Cory, J. S. and Myers, J. H., The ecology and evolution of insect baculoviruses. Annu. Rev. Ecol. Evol. Syst., 2003, 34, 239–272.
- Kukan, B., Vertical transmission of nucleopolyhedrovirus in insects. J. Invertebr. Pathol., 1999, 74, 103–111.
- Vilaplana, L., Wilson, K., Redman, E. M. and Cory, J. S., Pathogen persistence in migratory insects: high levels of vertically-transmitted virus infection in field populations of the African armyworm. Evol. Ecol., 2010, 24, 147–160.
- Khurad, A. M., Mahulikar, A., Rathod, M. K., Rai, M. M., Kanginakudru, S. and Nagaraju, J., Vertical transmission of nucleopolyherovirus in the silkworm Bombyx mori L. J. Invertebr. Pathol., 2004, 87, 8–15.
- Zhou, M., Sun, X., Sun, X., Vlak, J. M., Hu, Z. and van der Werf, W., Horizontal and vertical transmission of wild-type and recombinant Helicoverpa armigera single-nucleocapsid nucleopolyhedrovirus. J. Invertebr. Pathol., 2005, 89, 165–175.
- Peng, F., Fuxa, J. R., Johnson, S. J. and Richter, A. R., Susceptibility of Anticarsia gemmatalis (Lepidoptera: Noctuidae), reared on four host plants, to a nuclear polyhedrosis virus. Environ. Entomol., 1997, 26, 973–977.
- Rothman, L. D. and Myers, J. H., Debilitating effects of viral disease on host Lepidoptera. J. Invertebr. Pathol., 1996, 67, 1–10.
- Boots, M., Modelling insect diseases as functional predators. Physiol. Entomol., 2004, 29, 237–239.
- Ziemnicka, J., Effects of viral epizootic induction in population of the satin moth Leucoma salicis L. (Lepidoptera: Lymantriidae). J. Plant. Prot. Res., 2008, 48(1), 41–52.
- Ilyinykh, A. V., Vertical transmission of baculoviruses. Biol. Bull. Russ. Acad. Sci., 2019, 46, 302–310.
- Biji, C. P., Sudheendrakumar, V. V. and Sajeev, T. V., Quantitative estimation of Hyblaea puera NPV production in three larval stages of the teak defoliator, Hyblaea puera (Cramer). J. Virol. Methods, 2006, 136, 78–82.
- Zar, H. J., Biostatistical Analysis, Pearson, Singapore, 1999, p. 663.
- Narayanan, K. and Jayaraj, S., Mass production of polyhedral occlusion bodies of NPV of Helicoverpa armigera in relation to dose, age and larval weight. Indian. J. Exp. Biol., 2002, 40, 846–849.
- Milks, M. L., Burnstyn, I. and Myers, J. H., Influence of larval age on the lethal and sublethal effects of the nucleopolyhedrovirus of Trichoplusia ni in the cabbage looper. Biol. Control., 1998, 12, 119–126.
- Myers, J. H., Malakar, R. and Cory, J. S., Sublethal nucleopolyhedrovirus infection effects on female pupal weight, egg mass size, and vertical transmission in gypsy moth (Lepidoptera: Lymantriidae). Environ. Entomol., 2000, 29(6), 1268–1272.
- O’Reilly, D. R. and Miller, L. K., A baculovirus blocks insect molting by producing ecdysteroid UDP-glucosyl transerase. Science, 1989, 245, 1110–1112.
- Cabodevilla, O., Villar, E., Virto, C., Murillo, R., Williams, T. and Caballero, P., Intra- and intergenerational persistence of an insect nucleopolyhedrovirus: adverse effects of sublethal disease on host development, reproduction, and susceptibility to superinfection. Appl. Environ. Microbiol., 2011, 77, 2954–2960.
- Myers, J. H. and Kuken, B., Changes in the fecundity of tent caterpillars: a correlated character of disease resistance or sublethal effect of disease? Oecologia, 1995, 103, 475–480.
- Jervis, M., Boggs, C. L. and Ferns, P. N., Egg maturation strategy and its associated trade-offs: a synthesis focusing on Lepidoptera. Ecol. Entomol., 2005, 30, 359–375.
- Shapiro-Ilan, D. I., Bruck, D. J. and Lacey, L. A., Principals of epizootiology and microbial control. In Insect Pathology (eds Vega, F. and Kaya, H. K.), Elsevier, San Diego, USA, 2012, 2nd edn, pp. 29–72.
- Nordin, G. L., Brown, G. C. and Jackson, D. M., Vertical transmission of two baculoviruses infectious to the tobacco budworm, Heliothis virescens (F.) (Lepidoptera: Noctuidae) using an autodissemination technique. J. Kans. Entomol. Soc., 1990, 63(3), 393–398.
- Virto, C., Zarate, C. A., Lopez-Ferber, M., Murillo, R., Cabellero, P. and Williams, T., Gender mediated in vertical transmission of a nucleopolyhedrovirus. PLoS ONE, 2013, 8(8), 1–5.
- Goertz, D., Solter, L. F. and Linde, A., Horizontal and vertical transmission of a Nosema sp. (Microsporidia) from Lymantria dispar (L.) (Lepidoptera: Lymantriidae). J. Invertebr. Pathol., 2007, 95, 9–16.
- Milks, M. L. and Myers, J. H., The development of larval resistance to a nucleoplyhedrovirus is not accompanied by an increased virulence in the virus. Evol. Ecol., 2000, 14, 645–664.
- Evans, H. F., Use of baculovirus control agents within an integrated pest management strategy against teak defoliator Hyblaea puera in India, Final Technical Report, Natural Resources International, Kent, UK, 1998, p. 51.
- Nakai, M. and Cuc, N. T. T., Field application of an insect virus in the Mekong Delta: effects of a Vietnamese nucleopolyhedrovirus on Spodoptera litura (Lepidoptera: Noctuidae) and its parasitic natural enemies. Biocontrol. Sci. Technol., 2005, 15(5), 443–453.
- Fine, P. E. M., Vertical transmission of pathogens of invertebrates. In Comparative Pathobiology: Pathogens of Invertebrates, Vol. 7 (ed. Cheng, T. C.), Plenum, New York, 1984, USA, pp. 205–241.
- Sajeev, T. V. and Sudheendrakumar, V. V., HpNPV technology for biocontrol of teak defoliator Hyblaea puera. KFRI Handbook No. 23, Kerala Forest Research Institute, Peechi, 2005, p. 26.
- Role of soil and larval excreta in the horizontal transmission of the baculovirus HpNPV and its implications in the management of teak defoliator Hyblaea puera
Abstract Views :155 |
PDF Views:92
Authors
Affiliations
1 Division of Forest Protection, Kerala Forest Research Institute, Thrissur 680 653, India; Wildlife Research and Conservation Trust, Anupallavi, Chungathara, Nilambur 679 334, IN
2 Division of Forest Ecology and Biodiversity Conservation, Kerala Forest Research Institute, Thrissur 680 653, India; Wildlife Research and Conservation Trust, Anupallavi, Chungathara, Nilambur 679 334, IN
3 Division of Forest Protection, Kerala Forest Research Institute, Thrissur 680 653, IN
1 Division of Forest Protection, Kerala Forest Research Institute, Thrissur 680 653, India; Wildlife Research and Conservation Trust, Anupallavi, Chungathara, Nilambur 679 334, IN
2 Division of Forest Ecology and Biodiversity Conservation, Kerala Forest Research Institute, Thrissur 680 653, India; Wildlife Research and Conservation Trust, Anupallavi, Chungathara, Nilambur 679 334, IN
3 Division of Forest Protection, Kerala Forest Research Institute, Thrissur 680 653, IN
Source
Current Science, Vol 122, No 11 (2022), Pagination: 1321-1326Abstract
In baculovirus–insect systems, a mixed-mode transmission strategy involving vertical transmission of virus from parent to offspring, and horizontal transmission from infected to susceptible or from the environment is well known. In this study, we examined the role of soil and excreta as alternative routes of horizontal transmission of Hyblaea puera nucleopolyhedrovirus (HpNPV) in the teak defoliator H. puera and how larval crowding influences these processes. The laboratory experiment failed to identify horizontal transmission of the virus from the soil during pupation or eclosion. However, the role of soil as a reservoir cannot be ignored as chances of transport of viral particles from soil to tree bark are expected through termite nests built on teak stems, which needs further examination. On the other hand, the experiments proved excreta as a major route of horizontal transmission and the rate of infectivity during crowding of larvae was significantly higher. Further research on other routes of horizontal transmission and host behaviour influencing the same are discussed here in the context of their role in managing of teak defoliator outbreaksKeywords
Baculovirus, Horizontal Transmission, Hyblaea Puera, Pest Management, Soil and Larval Excreta, TeakReferences
- Fuxa, J. R., Ecology of insect nucleopolyhedroviruses. Agric. Ecosyst. Environ., 2004, 103, 27–43.
- Cory, J. S., Insect virus transmission: different routes to persistence. Curr. Opin. Insect Sci., 2015, 8, 130–135.
- Williams, T., Virto, C., Murillo, R. and Caballero, P., Covert infection of insects by baculoviruses. Front. Microbiol., 2017, 8, 1337.
- Cory, J. S. and Myers, J. H., The ecology and evolution of insect baculoviruses. Annu. Rev. Ecol. Evol. Syst., 2003, 34, 239–272.
- Vasconcelos, S. D., Alternative routes for the horizontal transmission of a nucleopolyhedrovirus. J. Invertebr. Pathol., 1996, 68, 269–274.
- Boots, M., Greenman, J., Ross, D., Norman, R., Hails, R. and Sait, S., The population dynamical implications of covert infections in host– microparasite interactions. J. Anim. Ecol., 2003, 72, 1064–1072.
- Chen, Y., Evans, J. and Feldlaufer, M., Horizontal and vertical transmission of viruses in the honey bee, Apis mellifera. J. Invertebr. Pathol., 2006, 92, 152–159.
- Zhou, M., Sun, X., Sun, X., Vlak, J. M., Hu, Z. and Van der Werf, W., Horizontal and vertical transmission of wild-type and recombinant Helicoverpa armigera single-nucleocapsid nucleopolyhedrovirus. J. Invertebr. Pathol., 2005, 89, 165–175.
- Goertz, D., Solter, L. F. and Linde, A., Horizontal and vertical transmission of a Nosema sp. (Microsporidia) from Lymantria dispar (L.) (Lepidoptera: Lymantriidae). J. Invertebr. Pathol., 2007, 95, 9–16.
- Lietze, V.-U., Sims, K. R., Salem, T. Z., Geden, C. J. and Boucias, D. G., Transmission of MdSGHV among adult house flies Musca domestica (Diptera: Muscidae), occurs via oral secretions and excreta. J. Invertebr. Pathol., 2009, 101, 49–55.
- Rudolf, V. H. and Antonovics, J., Disease transmission by cannibalism: rare event or common occurrence? Proc. R. Soc. London, Ser. B, 2007, 274, 1205–1210.
- Abbas, M. S. T., Interactions between baculoviruses and entomophagous insects. Egypt. J. Biol. Pest Control, 2020, 30, 107.
- Burand, J. P., Rallis, P. and Tan, W., Horizontal transmission of Hz-2V by virus infected Helicoverpa zea moths. J. Invertebr. Pathol., 2004, 85, 128–131.
- Thomson, C. G., Scott, D. W. and Wickman, B. E., Long-term persistence of the nuclear polyhedrosis virus of the Douglas-fir tussock moth, Orgyia pseudotsugata (Lepidoptera: Lymantriidae), in the forest soil. Environ. Entomol., 1981, 10, 254–255.
- Fuxa, J. R. and Richter, A. R., Quantification of soil-to-plant transport of recombinant nucleopolyhedrovirus: effects of soil type and moisture, air currents and precipitation. Appl. Environ. Microbiol., 2001, 67(11), 5166–5170.
- Fuxa, J. R., Matter, M. M., Abdel-Rahman, A., Micinsky, S., Richter, A. R. and Flexner, J. L., Persistence and distribution of wild-type and recombinant nucleopolyhedroviruses in soil. Microb. Ecol., 2001, 41, 222–232.
- Nair, K. S. S., Tropical Forest Insect Pest: Ecology, Impact and Management, Cambridge University Press, Cambridge, UK, 2007, p. 404.
- Sudheendrakumar, V. V., Ali, M. I. M. and Varma, R. V., Nuclear polyhedrosis virus of the teak defoliator, Hyblaea puera. J. Invertebr. Pathol., 1988, 51, 307–308.
- Helen, M. S., Studies on bio-ecology of nucleopolyhedrovirus of the teak defoliator and evaluation of formulated products. Ph.D. thesis, Forest Research Institute Deemed University, Dehra Dun. 2005, p. 129.
- Mohanadas, K., Population trend of Hyblaea puera Cramer (Lepidoptera: Hyblaeidae) in teak plantations and the factors influencing it. Ph.D. thesis, Cochin University of Science and Technology, Kochi, 1995, p. 159.
- Nair, K. S. S. and Sudheendrakumar, V. V., The teak defoliator, Hyblaea puera: defoliation dynamics and evidences of short-range migration of moths. Proc. Indian Sci. – Anim. Sci., 1986, 95(1), 7–21.
- Biji, C. P., Sudheendrakumar, V. V. and Sajeev, T. V., Quantitative estimation of Hyblaea puera NPV production in three larval stages of the teak defoliator, Hyblaea puera (Cramer). J. Virol. Methods, 2006, 136, 78–82.
- Zar, H. J., Biostatistical Analysis, Pearson, Singapore, 1999, p. 760.
- Evans, H. F. and Shapiro, M., Manual of techniques in insect pathology. In Viruses (ed. Lacey, L. A.), Academic Press, Massachusetts, 1997, pp. 17–53.
- Hunter-Fujita, F. R., Entwistle, P. F., Evans, H. F. and Crook, N. E., Insect Viruses and Pest Management, John Wiley, New York, USA, 1998, p. 636.
- Fuxa, J. R. and Richter, A. R., Selection for an increased rate of vertical transmission of Spodoptera frugiperda (Lepidoptera: Noctuidae) nuclear polyhedrosis virus. Environ. Entomol., 1991, 20, 603–609.
- Raymond, B., Hartley, S. E., Cory, J. S. and Hails, R. S., The role of food plant and pathogen-induced behaviour in the persistence of a nucleopolyhedrovirus. J. Invertebr. Pathol., 2005, 88, 49–59.
- Biji, C. P., Investigations on the nucleopolyhedrovirus of the teak defoliator, with special reference to quality improvement. Ph.D. thesis, FRI University, Dehra Dun, 2004, p. 114.
- Moscardi, F., Assessment of the application of baculoviruses for control of Lepidoptera. Annu. Rev. Entomol., 1999, 44, 257–289.
- Berryman, A., What causes population cycles of forest Lepidoptera? Trends Ecol. Evol., 1996, 11, 28–32.
- Parker, B. J., Elderd, B. D. and Dwyer, G., Host behaviour and exposure risk in an insect pathogen interaction. J. Anim. Ecol., 2010, 79, 863–870.
- Dwyer, G., Firestone, J. and Stevens, E., Should models of disease dynamics in herbivorous insects include the effects of variability in host–plant foliage quality? Am. Nat., 2005, 165, 16–31.
- Bindu, T. N., Balakrishnan, P., Sajeev, T. V. and Sudheendrakumar, V. V., Seeding baculovirus HpNPV in the epicentre populations of teak defoliator, Hyblaea puera to prevent large-scale outbreaks. Curr. Sci., 2022, 122, 812–818.