Hostname: page-component-586b7cd67f-t8hqh Total loading time: 0 Render date: 2024-11-23T23:10:08.207Z Has data issue: false hasContentIssue false
  • English
  • Français

Do helminths increase the vulnerability of released pheasants to fox predation?

Published online by Cambridge University Press:  12 April 2024

J. Millán ,
C. Gortázar ,
P. Tizzani  and
F.J. Buenestado
J. Millán*
Affiliation:
Instituto de Investigación en Recursos Cinegéticos (IREC, CSIC-UCLM), PO Box 535, E-13080 Ciudad Real, Spain
C. Gortázar
Affiliation:
Instituto de Investigación en Recursos Cinegéticos (IREC, CSIC-UCLM), PO Box 535, E-13080 Ciudad Real, Spain
P. Tizzani
Affiliation:
Dipartimento di Produzioni Animali, Epidemiologia ed Ecologia, Facoltà di Medicina Veterinaria, Università degli Studi di Torino, Torino, Italy
F.J. Buenestado
Affiliation:
Instituto de Investigación en Recursos Cinegéticos (IREC, CSIC-UCLM), PO Box 535, E-13080 Ciudad Real, Spain
*
*Fax: +34 926 295451 E-mail: [email protected]
Rights & Permissions [Opens in a new window]

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

The success of ring-necked pheasant (Phasianus colchicus) restocking in Asturias, northern Spain was assessed, and the role of parasites and predators in the mortality of released birds was studied. The experimental release of 56 radio-tagged pheasants showed that 98% of birds died within 12 days. As soon as 72 h after release, 67.5% of males and 55.0% of females were found dead. Foxes (Vulpes vulpes) killed 63% of the birds. The survival of those birds killed by foxes was lower than for birds which died due to other causes, and pheasants depositing eggs of the nematode Eucoleus contortus (Creplin, 1839) survived less than those apparently non-parasitized. No impact of the parasite on the pheasants' condition was found, but foxes preyed upon parasitized birds more than expected by random. The results suggest that: (i) the current pheasant releases in this area are unsuccessful and need to be improved; (ii) this is mainly due to intense predation by red foxes; and (iii) parasites could have some influence on the predation of released birds by foxes. However, the way parasites affect pheasant vulnerability remains unclear.

Type
Other
Information
Journal of Helminthology , Volume 76 , Issue 3 , September 2002 , pp. 225 - 229
Copyright
Copyright © Cambridge University Press 2002

References

Anderson, R.C. (2000) Nematodes parasites of vertebrates: their development and transmission. 672 pp. Wallingford, CABI Publishing.CrossRefGoogle Scholar
Andersson, S. (1992) Female preference for long tails in lekking Jackson's widowbirds: experimental evidence. Animal Behaviour 43, 379388.CrossRefGoogle Scholar
Bright, P.W. & Morris, P.A. (1994) Animal translocation for conservation: performance of dormice in relation to release methods, origin and season. Journal of Applied Ecology 31, 699708.CrossRefGoogle Scholar
Burger, G.V. (1964) Survival of ring-necked pheasants released on a Wisconsin shooting preserve. Journal of Wildlife Management 28, 711721.CrossRefGoogle Scholar
Church, K.E. (1993) Survival and nesting biology of translocated grey partridge (Perdix perdix) in New York State, USA. Gibier Faune Sauvage, Game and Wildlife 10, 281291.Google Scholar
Dowell, S.D. (1992) Problems and pitfalls of gamebird reintroduction and restocking: an overview. Gibier Faune Sauvage, Game and Widlife 9, 773780.Google Scholar
Gortázar, C., Herrero, J., Villafuerte, R. & Marco, J. (2000a) Historical examination of the distribution of large mammals in Aragón, northeastern Spain. Mammalia 61, 411422.CrossRefGoogle Scholar
Gortázar, C., Villafuerte, R. & Martín, M. (2000b) Success of traditional restocking of red-legged partridge for hunting purposes in areas of low density of northeast Spain Aragón. Zeitschrift für Jagdwissenschaft 46, 2330.Google Scholar
Hessler, E., Tester, J.R., Siniff, D.B. & Nelson, M.N. (1970) A biotelemetry study of survival of pen-reared pheasants released in selected habitats. Journal of Wildlife Management 34, 267274.CrossRefGoogle Scholar
Houseknecht, C.R. (1970) Biotelemetry as a technique in disease ecology studies. Journal of Wildlife Diseases 6, 414417.CrossRefGoogle ScholarPubMed
Hudson, P., Dobson, A.P. & Newborn, D. (1992) Do parasites make prey vulnerable to predation? Red grouse and parasites. Ecology 61, 681692.Google Scholar
Klaus, S. & Bergmann, H.H. (1994) Distribution, status and limiting factors of capercaillie (Tetrao urogallus) in central Europe, particularly in Germany, including an evaluation of reintroductions. Gibier Faune Sauvage, Game and Widlife 11, 5879.Google Scholar
Lucio, A.J., Purroy, F.J. & Sáenz, de, Buruaga, M. (1992) La perdiz pardilla (Perdix perdix hispaniensis) en España: Distribución, tendencias demográficas, estado de conservación y pautas de gestión. Madrid, ICONA.Google Scholar
Melhorn, H., Düwell, D. & Raether, W. (1992) Atlas de parasitología veterinaria. Spain, GRASS ediciones.Google Scholar
Millán, J., & Gortázar, C. & Marco, J. & Escudero, M.A. (2001) [Carnivores detected by night survey in Aragón]. Galemys 13, 2536.Google Scholar
Ministry of Public Works and Tourism (1991) Atlas Nacional de España-Sección II (Climatología). Madrid, Dirección General del Instituto Geográfico Nacional.Google Scholar
Moss, R., Trenholm, I.B., Watson, A. & Parr, R. (1990) Parasitism, predation and survival of hen red grouse Lagopus lagopus scoticus in spring. Journal of Animal Ecology 59, 631642.CrossRefGoogle Scholar
Principado de Asturias, (2001) Establecimiento de bases científica para la conservación y la gestión cinegética de las galliformes y de la arcea en Asturias. IREC, unpublished report.Google Scholar
Quinn, S.C., Brooks, R.J. & Cawthorn, R.J. (1987) Effects of the protozoan parasite Sarcocystis rauschorum on open-field behaviour of its intermediate vertebrate host, Dicrostonyx richardsoni . Journal of Parasitology 73, 265271.CrossRefGoogle ScholarPubMed
Riley, T.Z. & Schulz, J.H. (2001) Predation and ring-necked pheasant population dynamics. Wildlife Society Bulletin 29, 3338.Google Scholar
Robertson, P.A. (1988) Survival of released pheasants, Phasianus colchicus, in Ireland. Journal of Zoology 214, 683695.CrossRefGoogle Scholar
Rózsa, L., Reiczigel, J. & Majoros, G. (2000) Quantifying parasites in samples of hosts. Journal of Parasitology 86, 228232.CrossRefGoogle ScholarPubMed
Siegel, S. (1970) Estadística no paramétrica. Mexico, Trillas,Google Scholar
Snyder, W.D. (1985) Survival of radio-marked hen ring-necked pheasants in Colorado. Journal of Wildlife Management 49, 10441050.CrossRefGoogle Scholar
Sodeikat, G., Niepel, L., Fehlberg, U. & Pohlmeyer, K. (1995) Comparative study on survival of released pheasants (Phasianus colchicus spec.) reared in intensive and extensive animal keeping. Deutsche Tierarztliche Wochenschrift 102, 112116.Google Scholar
Temple, S.A. (1987) Do predators always capture substandard individuals disproportionately from prey populations? Ecology 68, 669674.CrossRefGoogle Scholar
Thirgood, S.J., Redpath, S.M., Hudson, P.J., Hurley, M.M. & Aebisher, N.J. (1995) Effects of necklace radio transmitters on survival and breeding success of red grouse Lagopus lagopus scoticus . Wildlife Biology 1, 121126.CrossRefGoogle Scholar
Wolf, C.M., Griffith, B., Reed, C. & Temple, S.A. (1996) Avian and mammalian translocations: update and reanalysis of 1987 survey data. Conservation Biology 10, 11421154.CrossRefGoogle Scholar
Woodburn, M. (2000) The effects of rearing on pheasant populations–a case study. Game Conservancy Annual Review 2000, pp. 6467.Google Scholar