SEARCH

SEARCH BY CITATION

Literature cited

  • Andersson, M., and Y. Iwassa. 1996. Sexual selection. Trends in Ecology and Evolution 11:5358.
  • Angilletta, M. J. 2009. Thermal Adaptation: A Theoretical and Empirical Synthesis. Oxford University Press, New York.
  • Angilletta, M. J., P. H. Niewiarowski, and C. A. Navas. 2002. The evolution of thermal physiology in ectotherms. Journal of Thermal Biology 27:249268.
  • Bloem, S., K. A. Bloem, and L. S. Fielding. 1997. Mass rearing and storing codling moth larvae in diapause: a novel approach to increase production for sterile insect release. Journal of the Entomological Society of British Columbia 94:7581.
  • Bloem, S., K. A. Bloem, J. E. Carpenter, and C. O. Calkins. 1999a. Inherited sterility in codling moth (Lepidoptera: Tortricidae): effect of substerilising doses of radiation on insect fecundity, fertility, and control. Annals of the Entomological Society of America 92:222229.
  • Bloem, S., K. A. Bloem, J. E. Carpenter, and C. O. Calkins. 1999b. Inherited sterility in codling moth (Lepidoptera: Tortricidae): effect of substerilising doses of radiation on field competitiveness. Environmental Entomology 28:669674.
  • Bloem, S., K. A. Bloem, J. E. Carpenter, and C. O. Calkins. 2001. Season-long releases of partially sterile males for control of codling moth, Cydia pomonella (Lepidoptera: Tortricidae), in Washington apples. Environmental Entomology 30:763769.
  • Bloem, S., J. E. Carpenter, K. A. Bloem, L. Tomlin, and S. Taggart. 2004. Effect of rearing strategy and gamma radiation on field competitiveness of mass-reared codling moths (Lepidoptera: Tortricidae). Journal of Economic Entomology 97:18911989.
  • Bloem, S., J. E. Carpenter, and S. Dorn. 2006. Mobility of mass-reared diapaused and non diapaused Cydia pomonella (Lepidoptera: Tortricidae): effect of different constant temperatures and lengths of cold storage. Journal of Economic Entomology 99:707713.
  • Bowler, K., and J. S. Terblanche. 2008. Insect thermal tolerance: what is the role of ontogeny, ageing and senescence? Biological Reviews 83:339355.
  • Calkins, C. O., and A. G. Parker. 2005. Sterile insect quality. In V. A.Dyck, J.Hendrichs, and A. S.Robinson, eds. Sterile Insect Technique. Principles and Practice in Area-Wide Integrated Pest Management, pp. 269296. Springer, Dordrecht.
  • Castrovillo, P. J., and R. T. Carde. 1979. Environmental regulation of female calling and male response periodicities in the codling moth (Laspeyresia pomonella). Journal of Insect Physiology 25:659667.
  • Chidawanyika, F., and J. S. Terblanche. Rapid thermal responses and thermal tolerance in adult codling moth Cydia pomonella (Lepidoptera: Tortricidae). Journal of Insect Physiology, doi: 10.1016/j.jinsphys.2010.09.013.
  • Chown, S. L., and J. S. Terblanche. 2007. Physiological diversity in insects: ecological and evolutionary contexts. Advances in Insect Physiology 33:50152.
  • Chown, S. L., K. R. Jumbam, J. G. Sørensen, and J. S. Terblanche. 2009. Phenotypic variance, plasticity and heritability estimates of critical thermal limits depends on methodological context. Functional Ecology 23:133140.
  • Emlen, S. T., and L. W. Oring. 1977. Ecology, sexual selection, and the evolution of mating systems. Science 197:215223.
  • Enserink, M. 2007. Welcome to Ethiopia’s fly factory. Science 317:310313.
  • Fay, H. A. C., and A. Meats. 1987. The sterile insect release method and the importance of thermal conditioning before release: field-cage experiments with Dacus tryoni in spring weather. Australian Journal of Zoology 35:197204.
  • Ghalambor, C. K., J. K. McKay, S. P. Carroll, and D. N. Reznick. 2007. Adaptive versus non-adaptive phenotypic plasticity and the potential for contemporary adaptation in new environments. Functional Ecology 21:394407.
  • Gilchrist, G. W., and R. B. Huey. 2001. Parental and developmental temperature effects on the thermal dependence of fitness in Drosophila melanogaster. Evolution 55:209214.
  • Guennelon, G., H. Audemard, J. C. Fremond, and M. A. Idrissi Ammari. 1981. Progrès réalisés dans l’élevage permanent du carpocapse (Laspeyresia pomonella L.) sur milieu artificiel. Agronomie 1:5964.
  • Hochachka, P. W., and G. N. Somero. 2002. Biochemical Adaptation: Mechanisms and Process in Physiological Evolution. Oxford University Press, New York.
  • Howell, J. F., and L. G. Neven. 2000. Physiological development time and zero development temperature of codling moth (Lepidoptera: Tortricidae). Environmental Entomology 29:766772.
  • Huey, R. B., D. Berrigan, G. W. Gilchrist, and J. C. Herron. 1999. Testing the adaptive significance of acclimation: a strong inference approach. American Zoologist 39:323336.
  • Jallow, M. F. A., and G. J. R. Judd. 2007. Effect of rearing strategy and handling on the quality of mass-reared codling moths Cydia pomonella (Lepidoptera: Tortricidae). Global IOBC Bulletin 3:7376.
  • Judd, G. R. J., and M. G. T. Gardiner. 2006. Temperature, irradiation and delivery as factors affecting spring-time flight activity and recapture of mass-reared male codling moths released by the Okanagan–Kootenay sterile insect programme. Journal of the Entomological Society of British Columbia 103:1932.
  • Judd, G. J. R., M. G. T. Gardiner, and H. M. A. Thistlewood. 2004. Seasonal variation in recapture of mass-reared sterile codling moth Cydia pomonella (Lepidoptera: Tortricidae): implications for control by sterile insect technique in British Columbia. Journal of the Entomological Society of British Columbia 101:2943.
  • Judd, G. J. R., H. M. A. Thistlewood, M. G. T. Gardiner, and B. L. Lannard. 2006a. Is lack of mating competitiveness in spring linked to mating asynchrony between wild and mass-reared codling moths from an operational insect programme? Entomologia Experimentalis et Applicata 120:113124.
  • Judd, G. J. R., S. Cockburn, C. Eby, M. G. T. Gardiner, and S. Wood. 2006b. Diapause improves mating competitiveness of male codling moth mass-reared for a sterile insect programme. Entomologia Experimentalis et Applicata 120:161166.
  • Knight, A. L. 2007. Multiple mating of male and female codling moth (Lepidoptera: Tortricidae) in apple orchards treated with sex pheromone. Environmental Entomology 36:157164.
  • Kristensen, T. N., V. Loeschcke, and A. A. Hoffmann. 2007. Can artificially selected phenotypes influence a component of field fitness? Thermal selection and fly performance under thermal extremes. Proceedings of the Royal Society of London B 274:771778.
  • Kristensen, T. N., A. A. Hoffmann, J. Overgaard, J. G. Sørensen, R. Hallas, and V. Loeschcke. 2008. Costs and benefits of cold acclimation in field-released Drosophila. Proceedings of the National Academy of Science USA 105:216221.
  • Kührt, U., J. Samietz, and S. Dorn. 2006a. Thermoregulation behaviour in codling moth larvae. Physiological Entomology 30:5461.
  • Kührt, U., J. Samietz, and S. Dorn. 2006b. Thermal response in adult codling moth. Physiological Entomology 31:8088.
  • Kührt, U., J. Samietz, and S. Dorn. 2006c. Effect of plant architecture and hail nets on temperature of codling moth habitats in apple orchards. Entomologia Experimentalis et Applicata 118:245259.
  • Leroi, A. M., A. F. Bennett, and R. E. Lenski. 1994. Temperature acclimation and competitive fitness: an experimental test of the beneficial acclimation assumption. Proceedings of the National Academy of Science USA 105:216221.
  • Loeschcke, V., and A. A. Hoffmann. 2002. The detrimental acclimation hypothesis. Trends in Ecology and Evolution 17:407408.
  • Loeschcke, V., and A. A. Hoffmann. 2007. Consequences of heat hardening on a field fitness component in Drosophila depend on environmental temperature. The American Naturalist 169:175183.
  • Marais, E., and S. L. Chown. 2008. Beneficial acclimation and the Bogert effect. Ecology Letters 11:10271036.
  • Mitchell, K. A., and A. A. Hoffmann. 2010. An ecologically relevant measure of knockdown resistance with low evolvability and upper thermal limits in Drosophila. Functional Ecology 24:694700.
  • Nyamukondiwa, C., and J. S. Terblanche. 2010. Within-generation variation of critical thermal limits in adult Mediterranean and Natal fruit flies Ceratitis capitata and Ceratitis rosa: thermal history affects short term response to temperature. Physiological Entomology 35:255264.
  • Pitcairn, M. J., F. G. Zalom, and W. J. Bentley. 1990. Weather factors influencing capture of Cydia pomonella (Lepidoptera: Tortricidae) in pheromone traps during overwintering flight in California. Environmental Entomology 19:12531258.
  • Pitcairn, M. J., F. G. Zalom, and R. Rice. 1992. Degree-day forecasting of generation time of Cydia pomonella (Lepidoptera: Tortricidae) populations in California. Environmental Entomology 21:441446.
  • Prosser, C. L. 1986. Adaptational Biology: Molecules to Organisms. Wiley, New York.
  • Quinn, G. P., and M. J. Keough. 2002. Experimental Design and Data Analysis for Biologists. Cambridge University Press, Cambridge.
  • Simmons, G. S., D. M. Suckling, J. E. Carpenter, M. F. Addison, V. A. Dyck, and M. J. B. Vreysen. 2010. Improved quality management to enhance the efficacy of the sterile insect technique for lepidopteran pests. Journal of Applied Entomology 134:261273.
  • Sinclair, B. J., and S. L. Chown. 2005. Deleterious effects of repeated cold exposure in a freeze-tolerant sub-Antarctic caterpillar. Journal of Experimental Biology 208:869879.
  • Stevenson, R. D. 1985. The relative importance of behavioural and physiological adjustments controlling body temperatures in terrestrial ectotherms. The American Naturalist 126:362386.
  • Terblanche, J. S., and S. L. Chown. 2006. The relative contributions of developmental plasticity and adult acclimation to physiological variation in the tsetse fly, Glossina pallidipes (Diptera, Glossinidae). Journal of Experimental Biology 209:10641073.
  • Terblanche, J. S., and S. L. Chown. 2007. Factory flies are not equal to wild flies. Science 317:1678.
  • Terblanche, J. S., J. A. Deere, S. Clusella-Trullas, C. Janion, and S. L. Chown. 2007. Critical thermal limits depend on methodological context. Proceedings of the Royal Society of London B 274:29352942.
  • Terblanche, J. S., S. Clusella-Trullas, J. A. Deere, and S. L. Chown. 2008. Thermal tolerance in a south-east African population of the tsetse fly Glossina pallidipes (Diptera, Glossinidae): implications for forecasting climate-change impacts. Journal of Insect Physiology 54:114127.
  • Thistlewood, H. M. A., and G. J. R. Judd. 2003. Area-wide management of codling moth, Cydia pomonella at very low densities. IOBC WPRS Bulletin 26:103109.
  • Thornhill, R., and J. Alcock. 1983. The Evolution of Insect Mating Systems. Harvard University Press, Cambridge, MA.
  • Thwaite, W. G., and H. F. Madsen. 1983. The influence of trap density, trap height, outside traps and trap design on Cydia pomonella (L.) captures with sex pheromone traps in New South Wales apple orchards. Australian Journal of Entomology 22:9799.
  • Tyson, R., K. D. Newton, H. Thistlewood, and G. Judd. 2008. Mating rates between sterile and wild codling moths (Cydia pomonella) in springtime: a simulation study. Journal of Theoretical Biology 254:319330.
  • Vreysen, M. J. B., and A. S. Robinson. 2010. Ionising radiation and area-wide management of insect pests to promote sustainable agriculture. Agronomy for Sustainable Development, doi: 10.1051/agro/2010009.
  • Vreysen, M. J. B., J. E. Carpenter, and F. Marec. 2010. Improvement of the sterile insect technique for codling moth Cydia pomonella (Linnaues) (Lepidoptera Tortricidae) to facilitate expansion of field application. Journal of Applied Entomology 134:165181.
  • Wilson, R. S., and C. E. Franklin. 2002. Testing the beneficial acclimation hypothesis. Trends in Ecology and Evolution 17:6670.