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Link between pesticide use and the survival of grey partridge Perdix perdix

Published online by Cambridge University Press:  22 June 2016

D. LJUBOJEVIĆ*
Affiliation:
Scientific Veterinary Institute “Novi Sad”, Rumenački put 20, 21000 Novi Sad, Serbia
M. PELIĆ
Affiliation:
Scientific Veterinary Institute “Novi Sad”, Rumenački put 20, 21000 Novi Sad, Serbia
M. KAPETANOV
Affiliation:
Scientific Veterinary Institute “Novi Sad”, Rumenački put 20, 21000 Novi Sad, Serbia
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Abstract

The relationship between the use of pesticides and grey partridge poisoning, mainly due to irregular use of rodent baits, is reviewed in the current paper. The aim of this review is to emphasise the existing problem of partridge extinction and how it would impact the agriculture ecology. A drastic decline in the population of Grey Partridge Perdix perdix has been observed in the Republic of Serbia as well as in many other countries, due to intensive agriculture, predominantly caused by the abuse of pesticides. Pathological and toxicological findings indicate poisoning, and this can be confirmed with gas chromatography-mass spectrometry (GC-MS). Actions such as monitoring and reporting incidents in the future should provide questions of how to improve and implement the established regulations.

Type
Reviews
Copyright
Copyright © World's Poultry Science Association 2016 

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References

AEBISCHER, N.J. and EWALD, J.A. (2004) Managing the UK Grey Partridge Perdix perdix recovery: population change, reproduction, habitat and shooting. Ibis 146: 181-191.CrossRefGoogle Scholar
BÁLDI, A. and FARAGÓ, S. (2007) Long-term changes of farmland game populations in a post-socialist country (Hungary). Agriculture, Ecosystems & Environment 118: 307-311.CrossRefGoogle Scholar
BERNY, P. (2007) Pesticides and the intoxication of wild animals. Journal of Veterinary Pharmacology and Therapeutics 30: 93-100.CrossRefGoogle ScholarPubMed
BERNY, P. and GAILLET, J.R. (2008) Acute poisoning of Red Kites (Milvus milvus) in France: Data from the SAGIR network. Journal of wildlife diseases 44: 417-426.Google Scholar
BIRDLIFE INTERNATIONAL (2004) Birds in Europe: Population Estimates, Trends and Conservation Status. BirdLife Conservation Series no. 12. Cambridge, UK: BirdLife International. http://www.birdlife.org/datazone/userfiles/docs/SOWB2004_en.pdf.Google Scholar
BORG, C. and TOFT, S. (2000) Importance of insect prey quality for grey partridge chicks Perdix perdix: a self-selection experiment. Journal of Applied Ecology 37: 557-563.CrossRefGoogle Scholar
BRO, E., SARRAZIN, F., CLOBERT, J. and REITZ, F. (2000) Demography and the decline of the grey partridge Perdix perdix in France. Journal of Applied Ecology 37: 432-448.Google Scholar
BROWNE, S.J., AEBISCHER, N.J., MOREBY, S.J. and TEAGUE, L. (2006) The diet and disease susceptibility of grey partridges Perdix perdix on arable farmland in East Anglia, England. Wildlife Biology 12: 3-10.Google Scholar
FIGALA, J., PRCHALOVA, J. and TESTER, J.R. (2001) Gis assessment of the decline of gray partridge (Perdix perdix) nesting habitat in the Elbe River lowlands, the Czech Republic, 1949-1996. Ekologia-Bratislava 20: 209-218.Google Scholar
GABRIEL, D., CARVER, S.J., DURHAM, H., KUNIN, W.E., PALMER, R.C., SAIT, S.M., STAGL, S. and BENTON, T.G. (2009) The spatial aggregation of organic farming in England and its underlying environmental correlates. Journal of Applied Ecology 46: 323-333.Google Scholar
HENDERSON, I.G., RAVENSCROFT, N., SMITH, G. and HOLLOWAY, S. (2009) Effects of crop diversification and low pesticide inputs on bird population on arable land. Agriculture, Ecosystems & Environment 129: 149-156.Google Scholar
JOHNSTON, G., WALKER, C.H. and DAWSON, A. (1994) Potentiation of carbaryl toxicity to the hybrid red-legged partridge following exposure to malathion. Pesticide Biochemistry and Physiology 49: 198-208.CrossRefGoogle Scholar
KAPETANOV, M., STOJANOV, I., MIHALJEV, Ž. (2012) Mortality structure of the protected and strictly protected wild animals from Vojvodina region during one year period. Proceedings of International symposium on hunting ‘Modern aspects of sustainable management of game population’, Belgrade, pp. 102-106.Google Scholar
KUIJPER, D.P.J., OOSTERVELD, E. and WYMENGA, E. (2009) Decline and potential recovery of the European grey partridge (Perdix perdix) population - a review. European journal of wildlife research 55: 455-463.Google Scholar
MIHALJEV, Ž., ŽIVKOV-BALOŠ, M., KAPETANOV, M. and JAKŠIĆ, S. (2012) Content of microelements in wild birds in Vojvodina. Proceedings of International symposium on hunting ‘Modern aspects of sustainable management of game population’, Belgrade, pp. 134-136.Google Scholar
NOVOTNY, L., MISIK, J., KOZLOVA, A., ONDRACEK, P., KUCA, K., VAVRA, O. and RACHAC, V. (2011) Incidental poisoning of animals by carbamates in the Czech Republic, Petr Chloupek. Journal of Applied Biomedicine 9: 157-161.Google Scholar
PANEK, M. (2005) Demography of grey partridges Perdix perdix in Poland in the years 1991-2004: reasons of the population decline. European Journal of Wildlife Research 51: 14-18.CrossRefGoogle Scholar
POPPENGA, R.H., ZIEGLER, A.F., HABECKER, P.L., SINGLETARY, D.L., WALTER, M.K. and MILLER, P.G. (2005) Zinc Phosphide Intoxication of Wild Turkeys (Meleagris gallopavo). Journal of wildlife diseases 41: 218-223.CrossRefGoogle ScholarPubMed
RELJIĆ, S., SREBOČAN, E., HUBER, Đ., KUSAK, J., ŠURAN, J., BRZICA, S., CUKROV, S. and CRNIĆ, A. (2012) A case of a brown bear poisoning with carbofuran in Croatia. Ursus 23: 86-90.Google Scholar
ŠÁLEK, M., MARHOUL, P., PINTÍŘ, J., KOPECKÝ, T. and SLABÝ, L. (2004) Importance of unmanaged wasteland patches for the grey partridge Perdix perdix in suburban habitats. Acta Oecologica 25: 23-33.Google Scholar
TAYLOR, R.L., MAXWELL, B.D. and BOIK, R.J. (2006) Indirect effects of herbicides on bird food resources and beneficial arthropods. Agriculture, Ecosystems & Environment 116:157-164.Google Scholar
WANG, Y., KRUZIK, P., HELSBERG, A., HELSBERG, I. and RAUSCH, W.D. (2007) Pesticide poisoning in domestic animals and livestock in Austria: a 6 years retrospective study. Forensic Science International 169: 157-160.Google Scholar
WATSON, M., AEBISCHER, N.J., POTTS, G.R. and EWALD, J.A. (2007) The relative effects of raptor predation and shooting on overwinter mortality of grey partridges in the United Kingdom. Journal of Applied Ecology 44: 972-982.Google Scholar
WOBESER, G., BOLLINGER, T., LEIGHTON, F.A., BLAKLEY, B. and MINEAU, P. (2004) Secondary poisoning of eagles following intentional poisoning of coyotes with anticholinesterase pesticides in western Canada. Journal of wildlife diseases 40: 163-172.CrossRefGoogle ScholarPubMed
WUBBENHORST, D. and LEUSCHNER, C. (2006) Vegetation structure at the breeding sites of the partridge (Perdix perdix L.) in Central Europe and its possible importance for population density. Polish Journal of Ecology 54: 57-67.Google Scholar