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Van Gölü Martısı (Larus armenicus Buturlin, 1934)’nın Dışkı Muayenesinde Görülen Helmintler

Year 2020, , 1554 - 1558, 25.12.2020
https://doi.org/10.17798/bitlisfen.780111

Abstract

Bu çalışma Vangölü ve çevresinde yaşam alanı bulan Larus armenicus türü martının gastro intestinal sisteminde parazitlenen Helmint türlerini tespit etmek için yapıldı. Araştırmada Vangölü içerisinde dört ayrı noktada bulunan adalardan 25’er adet olmak üzere toplamda 100 adet taze martı dışkısı toplandı. Dışkılar üzerinde lokasyon, kuş türü ve tarih bilgisi bulunan plastik kaplara alınarak laboratuvara getirildi. Flotasyon ve sedimentasyon yöntemleri ile analiz edilen dışkılardan %3 oranında Hymenolepis spp., %6 oranında Capillaria spp, %27 oranında Echinostoma revolutum türü parazit yumurtaları tespit edildi. Türkiye’de Hymenolepis spp. türü helmintin Larus armenicus türü martıda parazitlik yaptığı ilk kez bu çalışma ile bildirildi.

References

  • [1] Burger J., Gochfeld M., Sharpe C.J. 2015. Armenian Gull (Larus armenicus). Handbook of the Birds of the World Alive, Lynx Edicions, Barcelona.
  • [2] Bird Life International. 2015. European Red List of Birds. Office for Official Publications of the European Communities, Luxembourg.
  • [3] Atkinson C.T., Thomas N.J., Hunter D.B. 2008. Parasitic diseases of wild birds. New York: Wiley-Blackwell. 1-592.
  • [4] Gustafsson L., Nordling D., Andersson M.S., Sheldon B.C., Qvarnstrom A. 1994. Infectious diseases, reproductive effort and the cost of reproduction in birds. Philosophical transactions of the Royal Society of London. Series B, Biological sciences, 346: 323–331.
  • [5] Dawson R.D., Bortolotti G. 2000. Effects of hematozoan parasites on condition and return rates of American kestrels. The Auk, 117: 373–380.
  • [6] Sol D., Jovani R., Torres J. 2003. Parasite mediated mortality and host immune response explain age-related differences in blood parasitism in birds. Oecologia, 135: 542–547.
  • [7] Garvin M.G., Szell G.G., Moore F.R. 2006. Blood parasites of Neartic-Neotropical migrant passerine birds during spring trans-gulf migration: impact on host body condition. Journal of Parasitology, 92: 990–996.
  • [8] Ashgar M., Hasselquist D., Bensch S. 2011. Are chronic avian haemosporidian infections costly in wild birds? Journal of Avian Biology, 42: 530–537.
  • [9] Lachish S., Knowles S.C.L., Alves R., Wood M.J., Sheldon B.C. 2011. Fitness effects of endemic malaria infections in a wild bird population: the importance of ecological structure. Journal Animal Ecology, 80: 1196–1206.
  • [10] López G., Muñoz J., Soriguer R., Figuerola J. 2013. Increased Endoparasite Infection in Late-Arriving Individuals of a Trans-Saharan Passerine Migrant Bird. PLoS ONE 8(4): e61236.
  • [11] Lyles A.M., Dobson A.P. 1993. Infectious disease and intensive management: population dynamics, threatenedhosts, and their parasites. Journal of Zoo and Wildlife Medicine, 24(3):315–326. [12] McLaughlin J.D. 2008. Cestodes. In: Parasitic diseases of wild birds. Ames, Iowa, USA: John Wiley & Sons, 261–276.
  • [13] Carrera-Ja´tiva P., Rodrı´guez-Hidalgo R., Sevilla C., Jime´nez-Uzca´tegui G.2014. Gastrointestinal parasites in the Gala´pagos penguin Spheniscus mendiculus and the flightless cormorant Phalacrocorax harrisi in the Gala´pagos Islands. Marine Ornithology 42:77–80.
  • [14] Fallacara D.M., Monahan C.M., Morishita T.Y., Catherine A., Wack R.F. 2004. Survey of parasites and bacterial pathogens from free-living waterfowl in zoological settings. Avian Diseases, 48(4):759–767.
  • [15] Holsback L., Cardoso M.J.L., Fagnani R., Patelli T.H.C. 2013. Natural infection by endoparasites among freeliving wild animals. The Revista Brasileira de Parasitologia Veterinária, 22(2):302–306.
  • [16] Ozmen O., Adanir R., Haligur M., Albayrak T., Kose O., Ipek V. 2013. Parasitologic and pathologic observationsof the house sparrow (Passer domesticus). Journal of Zoo and Wildlife Medicine, 44(3):564–569.
  • [17] Kaufman J., (1996). Parasitic İnfections of Domestic Animals. A Diagnostic Manual. Birkhäuser Verlag AG, Basel, Switzerland, 1-423.
  • [18] Fernando MA, Barta JR. (2008). Tracheal Worms: In: Parasitic Diseases of Wild Birds. Blackwell Publishing, 343-354.
  • [19] Kılınç Ö., Çiçek M., Akkaş Ö. 2011. Van Gölü Çevresinde Yaşayan Gümüşi Martı (Larus michahellis) Dışkılarının Helmintolojik Yönden İncelenmesi, YYU Veteriner Fakultesi Dergisi, 22 (2): 101 – 103.
  • [20] Poyraz E. 2017. Bursa’ Da Yaşayan Gümüş Martı (Larus Mıchahellıs Naumann, 1840)’ Nın Helmint Faunası. Yüksek Lisans Tezi, Bursa Uludağ Üniversitesi, Fen Bilimleri Enstitüsü, Bursa, 1-125.
  • [21] Permin A., Hansen S.W. 1998. Epidemiology, diagnosis and control of poultry parasites. FAO Animal Health Manuals 4. Rome: Food and Agriculture Organization of the United Nations, 36-37.
  • [22] Nekrasov A.V., Pronin N.M., Sanzhieva S.D., Timoshenko T.M. 1999. Diversity of helminth fauna in the Herring gull (Larus argentatus) from the Baikal Lake: Peculiarities of spatial distribution and invasion. Parazitologiya, 33 (5): 426-436.
  • [23] Baker D.G. 2007. Flynn’s parasites of Laboratory Animals. Blackwell Publishing, USA.
  • [24] Helmboldt C. F., Eckerlin R. P., Penner L. R., Wyand D. S. 1971. The pathology of capillariasis in the blue jay. Journal of Wildlife Diseases 7:157–161.
  • [25] Hurst G.A., Turner L.W., Tucker F. S. 1979. Capillariasis in penned wild turkeys. Journal of Wildlife Diseases, 15:395–397.
  • [26] Kuklin V.V., Kimsova N.E. 2007. Helminths of the gulls (Genus Larus) of the Barents Sea. Parazitologiya, 3 (2):64-71.
  • [27] Threlfall W. 1967. Studies on the helminth parasites of the herring gull, Larus argentatus Pontopp., in Northern Caernarvonshire and Anglesey. Parasitology, 57: 431-453.
  • [28] Kuklin V.V. 2011. The Peculiarities of the helminth fauna of Herring Gulls of the synanthropic Murmansk Population. Doklady Biological Sciences, 440: 309-312.
Year 2020, , 1554 - 1558, 25.12.2020
https://doi.org/10.17798/bitlisfen.780111

Abstract

References

  • [1] Burger J., Gochfeld M., Sharpe C.J. 2015. Armenian Gull (Larus armenicus). Handbook of the Birds of the World Alive, Lynx Edicions, Barcelona.
  • [2] Bird Life International. 2015. European Red List of Birds. Office for Official Publications of the European Communities, Luxembourg.
  • [3] Atkinson C.T., Thomas N.J., Hunter D.B. 2008. Parasitic diseases of wild birds. New York: Wiley-Blackwell. 1-592.
  • [4] Gustafsson L., Nordling D., Andersson M.S., Sheldon B.C., Qvarnstrom A. 1994. Infectious diseases, reproductive effort and the cost of reproduction in birds. Philosophical transactions of the Royal Society of London. Series B, Biological sciences, 346: 323–331.
  • [5] Dawson R.D., Bortolotti G. 2000. Effects of hematozoan parasites on condition and return rates of American kestrels. The Auk, 117: 373–380.
  • [6] Sol D., Jovani R., Torres J. 2003. Parasite mediated mortality and host immune response explain age-related differences in blood parasitism in birds. Oecologia, 135: 542–547.
  • [7] Garvin M.G., Szell G.G., Moore F.R. 2006. Blood parasites of Neartic-Neotropical migrant passerine birds during spring trans-gulf migration: impact on host body condition. Journal of Parasitology, 92: 990–996.
  • [8] Ashgar M., Hasselquist D., Bensch S. 2011. Are chronic avian haemosporidian infections costly in wild birds? Journal of Avian Biology, 42: 530–537.
  • [9] Lachish S., Knowles S.C.L., Alves R., Wood M.J., Sheldon B.C. 2011. Fitness effects of endemic malaria infections in a wild bird population: the importance of ecological structure. Journal Animal Ecology, 80: 1196–1206.
  • [10] López G., Muñoz J., Soriguer R., Figuerola J. 2013. Increased Endoparasite Infection in Late-Arriving Individuals of a Trans-Saharan Passerine Migrant Bird. PLoS ONE 8(4): e61236.
  • [11] Lyles A.M., Dobson A.P. 1993. Infectious disease and intensive management: population dynamics, threatenedhosts, and their parasites. Journal of Zoo and Wildlife Medicine, 24(3):315–326. [12] McLaughlin J.D. 2008. Cestodes. In: Parasitic diseases of wild birds. Ames, Iowa, USA: John Wiley & Sons, 261–276.
  • [13] Carrera-Ja´tiva P., Rodrı´guez-Hidalgo R., Sevilla C., Jime´nez-Uzca´tegui G.2014. Gastrointestinal parasites in the Gala´pagos penguin Spheniscus mendiculus and the flightless cormorant Phalacrocorax harrisi in the Gala´pagos Islands. Marine Ornithology 42:77–80.
  • [14] Fallacara D.M., Monahan C.M., Morishita T.Y., Catherine A., Wack R.F. 2004. Survey of parasites and bacterial pathogens from free-living waterfowl in zoological settings. Avian Diseases, 48(4):759–767.
  • [15] Holsback L., Cardoso M.J.L., Fagnani R., Patelli T.H.C. 2013. Natural infection by endoparasites among freeliving wild animals. The Revista Brasileira de Parasitologia Veterinária, 22(2):302–306.
  • [16] Ozmen O., Adanir R., Haligur M., Albayrak T., Kose O., Ipek V. 2013. Parasitologic and pathologic observationsof the house sparrow (Passer domesticus). Journal of Zoo and Wildlife Medicine, 44(3):564–569.
  • [17] Kaufman J., (1996). Parasitic İnfections of Domestic Animals. A Diagnostic Manual. Birkhäuser Verlag AG, Basel, Switzerland, 1-423.
  • [18] Fernando MA, Barta JR. (2008). Tracheal Worms: In: Parasitic Diseases of Wild Birds. Blackwell Publishing, 343-354.
  • [19] Kılınç Ö., Çiçek M., Akkaş Ö. 2011. Van Gölü Çevresinde Yaşayan Gümüşi Martı (Larus michahellis) Dışkılarının Helmintolojik Yönden İncelenmesi, YYU Veteriner Fakultesi Dergisi, 22 (2): 101 – 103.
  • [20] Poyraz E. 2017. Bursa’ Da Yaşayan Gümüş Martı (Larus Mıchahellıs Naumann, 1840)’ Nın Helmint Faunası. Yüksek Lisans Tezi, Bursa Uludağ Üniversitesi, Fen Bilimleri Enstitüsü, Bursa, 1-125.
  • [21] Permin A., Hansen S.W. 1998. Epidemiology, diagnosis and control of poultry parasites. FAO Animal Health Manuals 4. Rome: Food and Agriculture Organization of the United Nations, 36-37.
  • [22] Nekrasov A.V., Pronin N.M., Sanzhieva S.D., Timoshenko T.M. 1999. Diversity of helminth fauna in the Herring gull (Larus argentatus) from the Baikal Lake: Peculiarities of spatial distribution and invasion. Parazitologiya, 33 (5): 426-436.
  • [23] Baker D.G. 2007. Flynn’s parasites of Laboratory Animals. Blackwell Publishing, USA.
  • [24] Helmboldt C. F., Eckerlin R. P., Penner L. R., Wyand D. S. 1971. The pathology of capillariasis in the blue jay. Journal of Wildlife Diseases 7:157–161.
  • [25] Hurst G.A., Turner L.W., Tucker F. S. 1979. Capillariasis in penned wild turkeys. Journal of Wildlife Diseases, 15:395–397.
  • [26] Kuklin V.V., Kimsova N.E. 2007. Helminths of the gulls (Genus Larus) of the Barents Sea. Parazitologiya, 3 (2):64-71.
  • [27] Threlfall W. 1967. Studies on the helminth parasites of the herring gull, Larus argentatus Pontopp., in Northern Caernarvonshire and Anglesey. Parasitology, 57: 431-453.
  • [28] Kuklin V.V. 2011. The Peculiarities of the helminth fauna of Herring Gulls of the synanthropic Murmansk Population. Doklady Biological Sciences, 440: 309-312.
There are 27 citations in total.

Details

Primary Language Turkish
Journal Section Araştırma Makalesi
Authors

Ali Bilgin Yılmaz 0000-0003-0749-2418

Erkan Azizoğlu 0000-0002-4895-4298

Özdemir Adızel 0000-0002-0432-0277

Ferhat Algür This is me 0000-0002-2758-0127

Publication Date December 25, 2020
Submission Date August 13, 2020
Acceptance Date October 14, 2020
Published in Issue Year 2020

Cite

IEEE A. B. Yılmaz, E. Azizoğlu, Ö. Adızel, and F. Algür, “Van Gölü Martısı (Larus armenicus Buturlin, 1934)’nın Dışkı Muayenesinde Görülen Helmintler”, Bitlis Eren Üniversitesi Fen Bilimleri Dergisi, vol. 9, no. 4, pp. 1554–1558, 2020, doi: 10.17798/bitlisfen.780111.



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