IMMUNOTOXIC EFFECTS OF MALLARDS (ANAS PLATYRHYNCHOS, L) EXPERIMENTALLY EXPOSED TO LEAD PELLETS
| Autor: | Stamberov, Petar, Genova, Krasimira |
|---|---|
| Přispěvatelé: | Faculty of Veterinary Medicine, Стамберов, Петър, Генова, Красимира |
| Jazyk: | angličtina |
| Rok vydání: | 2022 |
| Předmět: | |
| DOI: | 10.5281/zenodo.6380130 |
| Popis: | Lead is one of the most toxic metals and its negative effects range from mild biochemical and physio-logical disorders to serious pathological processes in which major organs and systems may be affected, with following functional and behavioral changes. The probability for a bird to be poisoned is determined by several factors, such as time of retaining the lead elements, frequency of exposure, nutritional conditions, stress, etc. Our research work focuses on the influence of different total lead content after ingesting lead shots on the mechanisms of non-specific immunity. {"references":["Bellrose, F. C. (1959). Lead poisoning as a mortality factor in waterfowl populations. Bulletin of the Illinois Natural History Survey, 27, 231–288.","Beyer, W. N., J. C. Franson, L. N. Locke, R. K. Stroud, L. Sileo. (1998). Retrospective study of the diagnostic criteria in a lead-poisoning survey of waterfowl. Archives of Environmental Contamina-tion and Toxicology, 35, 506–512.","Fisher, I. J., D. J. Pain, V .G. Thomas. (2006). A review of lead poisoning from ammunition sources in terrestrial birds. Biological Conservation, 131, 3, 421–432","Franson J. C., D. J. Pain. (2011). Lead in birds. In: Beyer W. N., Meador J. P. (eds). Environmental contaminants in biota: interpreting tissue concentrations. Taylor & Francis Group, Boca Raton, Flor-ida, pp. 563–593","Ghaffari, J., Vahidshahi, K., Kosaryan, M., Parvinnejad, N., Mahdavi, M., & Karami, H. (2008). Nitroblue tetrazolium test in patients with beta-thalassemia major. Saudi Medical Journal, 29 (11), 1601–5.","Mateo, R. (2009). Lead poisoning in wild birds in Europe and the regulations adopted by different countries. In: R. T. Watson, M. Fuller, M. Pokras, and W. G. Hunt (Eds.). Ingestion of Lead from Spent Ammunition, Implications for Wildlife and Humans. The Peregrine Fund, Boise, Idaho, USA. DOI 10.4080/ilsa.2009.0107","Pain, D. J., I. J. Fisher, V. G. Thomas. (2009). A global update of lead poisoning in terrestrial birds from ammunition sources. In: R. T. Watson, M. Fuller, M. Pokras, and W. G. Hunt (Eds.). Ingestion of Lead from Spent Ammunition: Implications for Wildlife and Humans. In The Peregrine Fund, pp. 99–118.","Rainio MJ, Eeva T, Lilley T, Stauffer J, Ruuskanen S. (2015). Effects of early-life lead exposure on oxidative status and phagocytosis activity in great tits (Parus major). Comparative Biochemistry and Physiology Part C. Toxicology & Pharmacology, 167:24–34 DOI 10.1016/j.cbpc.2014.08.004","Roscoe, D. E., S. W. Nielson, A. A. Lamola, D. Zuckerman. (1979). A simple, quantitative test for erythrocytic protoporphyrin in lead-poisoned ducks. Journal Wildlife Diseases, 15, 127–136","Trust, K A., M. W. Miller, J. K Ringelman, I. M. Orme. (1990). Effects of ingested lead on antibody production in mallards (Anas platyrhnchos). Journal of Wildlife Diseases, 26, 316–322","Vallverdú-Coll, N., Ortiz-Santaliestra, M. E., Mougeot, F., Vidal, D., Mateo, R. (2015). Sublethal Pb exposure produces season-dependent effects on immune response, oxidative balance and invest-ment in carotenoid-based coloration in red-legged partridges. Environmental Science & Technol-ogy, 49, 3839–3850. doi: 10.1021/es505148d.","Zelikoff, J. T., E. Parsons, R. Schlesinger (1993). Inhalation of particulate lead oxide disrupt pul-monary macrophage-mediated functions important for host defense and tumor surveillance in the lung. Environmental Research, 62, 207–222."]} |
| Databáze: | OpenAIRE |
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