Effects of ingestion of a Bacillus thuringiensis toxin and a trypsin inhibitor on honey bee flight activity and longevity

Free access article

Issue		Apidologie Volume 32, Number 1, January-February 2001


Page(s)		57 - 68
DOI		10.1051/apido:2001111

References

Arpaia S. (1996) Ecological impact of Bt-transgenic plants: 1. Assessing possible effects of CryIIIB toxin on honey bee (Apis mellifera L.) colonies, J. Genet. Breed. 50, 315-319.
Belzunces L.P., Lenfant C., Di Pasquale S., Colin M.E. (1994) In vivo and in vitro effects of wheat germ agglutinin and Bowman-Birk soybean trypsin inhibitor, two potential transgene products, on midgut esterase and protease activities from Apis mellifera, Comp. Biochem. Physiol. B 109, 63-69.
Benedict J.H., Sachs E.S., Altman D.W., Deaton W.R., Kohel R.J., Ring D.R., Berberich S.A. (1996) Field performance of cottons expressing transgenic CryIA insecticidal proteins for resistance to Heliothis virescens and Helicoverpa zea (Lepidoptera: Noctuidae), J. Econ. Entomol. 89, 230-238.
Bonadé Bottino M., Girard C., Le Métayer M., Picard-Nizou A.L., Sandoz G., Lerin J., Pham-Delègue M.H., Jouanin L. (1998) Effects of transgenic oilseed rape expressing proteinase inhibitors on pest and beneficial insects, Proc. Int. Symp. on Brassicas, Acta Hort. 459, 235-239.
Breed M.D., Stiller T.M., Moor M.J. (1988) The ontogeny of kin discrimination cues in the honey bee, Apis mellifera, Behav. Genet. 18, 439-448.
Buckner C.H., Gochnauer T.A., McLeod B.B., Prebble M.L. (1975) The impact of aerial spraying of insecticides on bees, in: Aerial Control of Forest Insects in Canada, Department of the Environment, Ottawa, Canada, pp. 276-279.
Burgess E.P.J., Malone L.A., Christeller J.T. (1996) Effects of two proteinase inhibitors on the digestive enzymes and survival of honey bees (Apis mellifera), J. Insect Physiol. 42, 823-828.
Cantwell G.E., Lehnert T., Fowler J. (1972) Are biological insecticides harmful to the honey bee? Am. Bee J. 112, 255-258.
Cantwell G.E., Shieh T.R. (1981) Certan - a new bacterial insecticide against the greater wax moth, Galleria mellonella L., Am. Bee J. 121, 424-426; 430-431.
Celli G. (1974) Conditions for the survival of the honeybee in present agricultural systems, Ann. Accad. Naz. Agric. Bologna 94, 395-411.
Crailsheim K. (1990) The protein balance of the honey bee worker, Apidologie 21, 417-429.
Crailsheim K., Stolberg E. (1989) Influence of diet, age and colony condition upon intestinal proteolytic activity and size of the hypopharyngeal glands in the honeybee (Apis mellifera L.), J. Insect Physiol. 35, 595-602.
Duan X., Li X., Xue Q., Abo-el-Saad M., Xu D., Wu R. (1996) Transgenic rice plants harboring an introduced potato proteinase inhibitor II gene are insect resistant, Nat. Biotech. 14, 494-498.
Girard C., Picard-Nizou A.L., Grallien E., Zaccomer B., Jouanin L., Pham-Delègue M.H. (1998) Effects of proteinase inhibitor ingestion on survival, learning abilities and digestive proteinases of the honeybee, Transgenic Res. 7, 239-246.
Greenplate J. (1997) Response to reports of early damage in 1996 commercial Bt transgenic cotton (Bollgard $^{{\rm TM}}$ ) plantings, Soc. Invertebr. Pathol. Newslett. 29, 15-18.
James C. (1997) Global status of transgenic crops in 1997, International Service for the Acquisition of Agri-biotech Applications (ISAAA) Briefs No. 5, Ithaca, New York.
James C. (1998) Global status of transgenic crops in 1998, International Service for the Acquisition of Agri-biotech Applications (ISAAA) Briefs No. 8, Ithaca, New York.
Jouanin L., Girard C., Bonadé-Bottino M., Le Metayer M., Picard Nizou A., Lerin J., Pham-Delègue M. (1998) Impact of oilseed rape expressing proteinase inhibitors on coleopteran pests and honeybees, Cah. Agric. 7, 531-536.
Kalbfleisch J.D., Prentice R.L. (1980) Statistical analysis of failure time data, John Wiley, New York.
Kozeil M.G., Beland G.L., Bowman C., Carozzi N.B., Crenshaw R., Crossland L., Dawson J., Desai N., Hill M., Kadwell S., Launis K., Lewis K., Maddox D., McPherson K., Meghji M.R., Merlin E., Rhodes R., Warren G., Wright M., Evola S.V. (1993) Field performance of elite transgenic maize plants expressing an insecticidal protein derived from Bacillus thuringiensis, Bio/Technol. 11, 194-200.
Lee S.I., Lee S.H., Koo J.C., Chun H.J., Lim C.O., Mun J.H., Song Y.H., Cho M.J. (1999) Soybean Kunitz trypsin inhibitor (SKTI) confers resistance to the brown planthopper (Nilaparvata lugens Stal) in transgenic rice, Mol. Breed. 5, 1-9.
Losey J.E., Rayor L.S., Carter M.E. (1999) Transgenic pollen harms monarch larvae, Nature 399, 214.
Malone L.A., Burgess E.P.J., Christeller J.T., Gatehouse H.S. (1998) In vivo responses of honey bee midgut proteases to two protease inhibitors from potato, J. Insect Physiol. 44, 141-147.
Malone L.A., Burgess E.P.J., Stefanovic D. (1999) Effects of a Bacillus thuringiensis toxin, two Bacillus thuringiensis biopesticide formulations, and a soybean trypsin inhibitor on honey bee (Apis mellifera L.) survival and food consumption, Apidologie 30, 465-473.
Malone L.A., Giacon H.A., Burgess E.P.J., Maxwell J.Z., Christeller J.T., Laing W.A. (1995) Toxicity of trypsin endopeptidase inhibitors to honey bees (Hymenoptera: Apidae), J. Econ. Entomol. 88, 46-50.
Matheson A. (1997) Practical Beekeeping in New Zealand, GP Publications, Wellington, New Zealand.
McManus M.T., Burgess E.P.J. (1999) Expression of the soybean (Kunitz) trypsin inhibitor in transgenic tobacco: effects on feeding larvae of Spodoptera litura, Transgenic Res. 8, 383-395.
McManus M.T., White D.W.R., McGregor P.G. (1994) Accumulation of a chymotrypsin inhibitor in transgenic tobacco can affect the growth of insect pests, Transgenic Res. 3, 50-58.
Perlak F.J., Deaton R.W., Armstrong T.A., Fuchs R.L., Sims S.R., Greenplate J.T., Fischhoff D.A. (1990) Insect resistant cotton plants, Biotech. 8, 939-943.
Picard-Nizou A.L., Pham-Delègue H.M., Kerguelen V., Douault P., Marilleau R., Olsen L., Grison R., Toppan A., Masson C. (1995) Foraging behaviour of honey bees (Apis mellifera L.) on transgenic oilseed rape (Brassica napus L. var. oleifera), Transgenic Res. 4, 270-276.
Saleh M.E. (1991) La reconnaissance coloniale chez l'abeille : Apis mellifica L., thèse de Doctorat, Université Paul Sabatier, Toulouse III, France.
Simpson R.M., Burgess E.P.J., Markwick N.P. (1997) Bacillus thuringiensis $\delta$ -endotoxin binding sites in two Lepidoptera, Wiseana spp. and Epiphyas postvittana, J. Invertebr. Pathol. 70, 136-142.
Sims S.R. (1995) Bacillus thuringiensis var. kurstaki (CryIA(c)) protein expressed in transgenic cotton: Effects on beneficial and other non-target insects, Southwestern Entomol. 20, 493-500.
Vandenberg J.D. (1990) Safety of four entomopathogens for caged adult honey bees (Hymenoptera: Apidae), J. Econ. Entomol. 83, 755-759.
Voisey C.R., Nicholls M.F., Skou B.J., Broadwell A.H., Chilcott C.N., Frater C.M., Wigley P.J., Burgess E.P.J., Philip B.A., White D.W.R. (1999) Expression of pest resistance genes in white clover, Proc. 11th Australian Plant Breeding Conference, 1999, Adelaide, Vol. 2, pp. 201-202.

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