Mercury in liver and feathers of some birds of prey in Rio de Janeiro State, Brazil: Preliminary results

Môsar  Lemos; Roberta de Oliveira Resende  Ribeiro; Fábio Júnior  Targino; André Luiz de  Almeida; Luiz Paulo Luzes  Fedullo; Jeferson Rocha  Pires; Celso Fasura  Balthazar; Sérgio Borges  Mano; Eliane Teixeira Mársico

doi:10.33448/rsd-v13i7.46441

Autores

Môsar Lemos Federal Fluminense University https://orcid.org/0000-0002-3973-4314
Roberta de Oliveira Resende Ribeiro Institute, Municipality of Rio de Janeiro https://orcid.org/0000-0003-2669-3821
Fábio Júnior Targino Federal Fluminense University https://orcid.org/0000-0002-1932-0501
André Luiz de Almeida Rio de Janeiro Zoological Garden https://orcid.org/0000-0002-0378-3034
Luiz Paulo Luzes Fedullo Rio de Janeiro Zoological Garden
Jeferson Rocha Pires Estácio de Sá University https://orcid.org/0000-0001-6649-0418
Celso Fasura Balthazar Federal Fluminense University https://orcid.org/0000-0001-5193-7360
Sérgio Borges Mano Federal Fluminense University https://orcid.org/0000-0001-6521-8527
Eliane Teixeira Mársico Federal Fluminense University https://orcid.org/0000-0001-9452-5462

DOI:

https://doi.org/10.33448/rsd-v13i7.46441

Palavras-chave:

Aves de rapina; Penas; Fígado; Mercúrio.

Resumo

As aves de rapina de níveis tróficos mais elevados são particularmente vulneráveis à poluição por mercúrio e podem servir como indicadores de elementos-traço em diferentes ecossistemas. Assim, o objetivo deste estudo foi avaliar a presença de mercúrio em penas e fígados de algumas aves de rapina que ocorrem no Estado do Rio de Janeiro, Brasil. Onze fígados foram coletados de aves de rapina durante necropsias de rotina realizadas no Jardim Zoológico do Rio de Janeiro, e as penas de animais em processo de reabilitação/soltura. Os resultados mostraram que as concentrações de mercúrio variaram de 0,5 mg / kg a 1,3074 mg / kg nos fígados e de 0,3376 mg / kg a 3,000 mg / kg nas penas. As amostras de fígado podem ser coletadas por meio de métodos invasivos, como biópsias, que envolvem anestesia e manuseio da ave, ou durante necropsias de rotina em coleções zoológicas, criadouros e de aves mortas encontradas no campo, especialmente aquelas afetadas por atropelamento ou ferimentos por arma de fogo. Como alternativa, a análise de penas para detecção de mercúrio oferece um método prático, econômico e não invasivo que evita o risco de prejudicar o bem-estar físico da ave.

Referências

Adeogun, A. O., Chukwuka, A. V., Fadahunsi, A. A., Okali, K. D., Oluwakotanmi, P. G., Ibor, O. R., & Egware, T. U. (2022). Bird feathers as a non-invasive method for ecotoxicological monitoring; a rapid review. Zoologist (The), 20(1), 26-40. https://doi.org/10.4314/tzool.v20i1.5.

Amundsen, P. A., Henriksson, M., Poste, A., Prati, S., & Power, M. (2023). Ecological drivers of mercury bioaccumulation in fish of a subarctic watercourse. Environmental Toxicology and Chemistry, 42(4), 873-887. https://doi.org/10.57041/pjs.v74i4.762.

Bahamonde, P., Espejo, W., Celis, J., Montes, I. Y., & Barra, R. O. (2023). A global-level assessment of gulls (Larus spp.) as bioindicators of trace elements in coastal ecosystems. Latin american journal of aquatic research, 51(2), 195-209. https://doi.org/10.3856/vol51-issue2-fulltext-2977.

Bressan, A. C. S; Lemos, M. (2013). Aplomado Falcon (Falco femoralis) breeding in an urban area in Niterói, Rio de Janeiro, Brasil. Spizaetus, 15, 2-9.

Carravieri, A., Vincze, O., Bustamante, P., Ackerman, J. T., Adams, E. M., Angelier, F., & Fort, J. (2022). Quantitative meta‐analysis reveals no association between mercury contamination and body condition in birds. Biological Reviews, 97(4), 1253-1271. https://doi.org/10.1111/brv.12840.

Milestone Application Book. (2011). Application Book. Review 11/11

Duque-Correa, M. J., Clauss, M., Hoppe, M. I., Buyse, K., Codron, D., Meloro, C., & Edwards, M. S. (2022). Diet, habitat and flight characteristics correlate with intestine length in birds. Proceedings of the Royal Society B, 289(1976), 20220675. https://doi.org/10.1098/rspb.2022.0675.

Gatt, M. C., Furtado, R., Granadeiro, J. P., Lopes, D., Pereira, E., & Catry, P. (2021). Untangling causes of variation in mercury concentration between flight feathers. Environmental Pollution, 269, 116105.

Gojkovic, Z., Simansky, S., Sanabria, A., Márová, I., Garbayo, I., & Vílchez, C. (2023). Interaction of naturally occurring phytoplankton with the biogeochemical cycling of mercury in aquatic environments and its effects on global Hg pollution and public health. Microorganisms, 11(8), 2034.

Grunst, A. S., Grunst, M. L., Grémillet, D., Kato, A., Bustamante, P., Albert, C., & Fort, J. (2023). Mercury contamination challenges the behavioral response of a keystone species to Arctic climate change. Environmental Science & Technology, 57(5), 2054-2063. https://doi.org/10.1021/acs.est.2c08893.

Hughes, K. D., Ewins, P. J., & Clark, K. E. (1997). A comparison of mercury levels in feathers and eggs of osprey (Pandion haliaetus) in the North American Great Lakes. Archives of Environmental Contamination and Toxicology, 33, 441-452.

Kenntner, N., Krone, O., Altenkamp, R., & Tataruch, F. (2003). Environmental contaminants in liver and kidney of free-ranging northern goshawks (Accipiter gentilis) from three regions of Germany. Archives of Environmental Contamination and Toxicology, 45, 0128-0135. https://doi.org/10.1007/s00244-002.2100-8

Kraikivska, H. Y., Gutyj, B. V., Hunchak, A. V., Hunchak, V. M., Horalskyi, L. P., Sokulskyi, I. M., & Vus, U. M. (2023). Functional state and protein-synthesizing function of the liver of laying hens under conditions of cadmium loading. Scientific Messenger of LNU of Veterinary Medicine and Biotechnologies. Series: Agricultural sciences, 25(99), 171-175. https://doi.org/10.32718/nvlvet-a9928.

Kumar, V., Umesh, M., Shanmugam, M., Chakraborty, P., Duhan, L., Gummadi, S., Pasrija, R., Jayaraj, I., & Huligowda, L. (2023). A Retrospection on Mercury Contamination, Bioaccumulation, and Toxicity in Diverse Environments: Current Insights and Future Prospects. Sustainability. https://doi.org/10.3390/su151813292.

Kumari, P., & Kumar, P. (2024). Metal (loid) Source and Effects on Peri-Urban Agriculture/Aquaculture Sediments. In Technological Approaches for Climate Smart Agriculture (pp. 133-164). Cham: Springer International Publishing.

Lacerda, L. D., Paraquetti, H. H. M., Rezende, C. E., Silva, L. F. F., Silva Filho, E. V., Marins, R. V., & Ribeiro, M. G. (2002). Mercury concentrations in bulk atmospheric deposition over the coast of Rio de Janeiro, Southeast, Brazil. Journal of the Brazilian Chemical Society, 13, 165-169.

Lemos, M; Freitas, A. A. R. (2009). Occurrence of the black-banded owl (Strix huhula) in the urban area of Niteroi, Rio de Janeiro State, Brazil. Neotropical Raptors Network, 8, 10-11.

Lindberg, P., & Odsjö, T. (1983). Mercury levels in feathers of peregrine falcon Falco peregrinus compared with total mercury content in some of its prey species in Sweden. Environmental Pollution Series B, Chemical and Physical, 5(4), 297-318.

Mallet-Rodrigues, F. (2015). The local conservation status of the regionally rarest bird species in the state of Rio de Janeiro, southeastern Brazil. Journal of Threatened Taxa, 7(9), 7510-7537. https://doi.org/10.11609/JOTT.1638.7510-7537.

Martoredjo, I., Calvão Santos, L. B., Vilhena, J. C. E., Rodrigues, A. B. L., de Almeida, A., Sousa Passos, C. J., & Florentino, A. C. (2024). Trends in Mercury Contamination Distribution among Human and Animal Populations in the Amazon Region. Toxics, 12(3), 204.

Masad, M., Alawaideh, S., Nusairat, B., Alnawaiseh, A., & Al Shra’ah, A. (2023). Evaluation of Dioxin/Furan and Elements in Poultry from Zarqa Governorate, Jordan. Journal of Analytical Methods in Chemistry, 2023(1), 8458678. https://doi.org/10.1155/2023/8458678.

Monserrate-Maggi, L., Serrano-Mena, L., Delahaye, L., Calle, P., Alvarado-Cadena, O., Ruiz-Barzola, O., & Cevallos-Cevallos, J. M. Microorganisms isolated from seabirds feathers for mercury bioremediation. https://doi.org/10.21931/rb/2023.08.01.19.

Panzenhagen, A. C., dos Santos Petry, F., Teixeira, A. A., Santos, L., Kessler, F. G. C., Gelain, D. P., & Moreira, J. C. F. (2024). Biomarkers of methylmercury neurotoxicity and neurodevelopmental features: a systematic review. Food and Chemical Toxicology, 114851. https://doi.org/10.17762/jaz.v44is-5.1844.

Pathak, A., Anjaria, P., Bhavsar, P., & Asediya, V. (2024). Health Risk Linked to Mercury Toxicity in Food and Environment. In Mercury Toxicity Mitigation: Sustainable Nexus Approach (pp. 137-156). Cham: Springer Nature Switzerland.

Peterson, B. D., Krabbenhoft, D. P., McMahon, K. D., Ogorek, J. M., Tate, M. T., Orem, W. H., & Poulin, B. A. (2023). Environmental formation of methylmercury is controlled by synergy of inorganic mercury bioavailability and microbial mercury‐methylation capacity. Environmental Microbiology, 25(8), 1409-1423. https://doi.org/10.1111/1462-2920.16364.

Ribeiro, R. D. O. R., Mársico, E. T., de Jesus, E. F. O., da Silva Carneiro, C., Júnior, C. A. C., de Almeida, E., & Filho, V. F. D. N. (2014). Determination of trace elements in honey from different regions in Rio de Janeiro State (Brazil) by total reflection X‐ray fluorescence. Journal of food science, 79(4), T738-T742.

Sick, H. (1997). Ornitologia Brasileira. (2a ed.), Ed. Nova Fronteira, 912 p.

Silveira, L. F; Straube, F. C. Aves. In: Machado, A. B. M.; Drummond, G. M.; Paglia, A. P. (2008). Livro vermelho da fauna brasileira ameaçada de extinção. 1. ed. Brasília: Ministério do Meio Ambiente, V.II, p.379-666.

Skibniewska, E. M., & Skibniewski, M. (2023). The Total Mercury Concentration in Organs of Eurasian Magpies (Pica pica) and Common Woodpigeons (Columba palumbus) from the Warsaw Municipal Area. Animals, 13(4), 575. https://doi.org/10.3390/ani13040575.

Solonen, T., & Lodenius, M. (1990). Feathers of birds of prey as indicators of mercury contamination in southern Finland. Ecography, 13(3), 229-237.

Tian, L., Zhu, Y., Yu, R., & Zheng, X. (2024). A Pilot Study on Bioaccumulation and Tissue Distribution of Mercury in Barn Swallow (Hirundo rustica). Toxics, 12(3), 206.

Toassi, R. F. C. & Petry, P. C. (2021). Metodologia científica aplicada à área da Saúde. (2a ed.), Editora da UFRGS.

Vajargah, M. F. (2021). A review on the effects of heavy metals on aquatic animals. J ISSN, 2766(2276), 854. https://doi.org/10.37871/jbres1324.

Viana, A. B., Pappis, C., Garcia, V. L., Hoffmann, D. M., Burg, A. F., & Dressler, V. L. (2024). Mercury Extraction from Multivitamin Mixtures Followed by Determination Using FI-CV-ICP-MS. Journal of the Brazilian Chemical Society, 35(6), e-20230187. https://doi.org/10.21577/0103-5053.20230187.

Wang, W., Mao, X., Zhang, R., Zhou, X. X., Liu, Y., Zhou, H., & Yan, B. (2023). Nanoplastic exposure at environmental concentrations disrupts hepatic lipid metabolism through oxidative stress induction and endoplasmic reticulum homeostasis perturbation. Environmental Science & Technology, 57(38), 14127-14137. https://doi.org/10.1021/acs.est.3c02769.

Zhao, Q., Yao, Z., Chen, L., He, Y., Xie, Z., Zhang, H., & Zhang, X. (2022). Transcriptome-wide dynamics of m6A methylation in tumor livers induced by ALV-J infection in chickens. Frontiers in Immunology, 13, 868892. https://doi.org/10.3389/fimmu.2022.868892.

Zhou, W., Shi, W., Du, X., Han, Y., Tang, Y., Ri, S., & Liu, G. (2023). Assessment of nonalcoholic fatty liver disease symptoms and gut–liver axis status in zebrafish after exposure to polystyrene microplastics and oxytetracycline, alone and in combination. Environmental Health Perspectives, 131(4), 047006. https://doi.org/10.1289/EHP11600.

Zolfaghari, G; Esmaili-Sari, A; Ghasempouri, S. M; Kiabi, B. H. (2007). Examination of Mercury concentration in the feathers of 18 species of birds in southwest Iran. Environmental Research, 104, 258-265. 10.1016/j.envres.2006.12.002

Zubair, M., & Ullah, A. (2022, October). Chicken feathers keratin/modified graphene oxide based biosorbent for water remediation. In Journal Of The American Oil Chemists Society (Vol. 99, pp. 161-161). 111 River ST, Hoboken 07030-5774, NJ USA. https://doi.org/10.21748/xygc9438.

Mercúrio no fígado e nas penas de algumas aves de rapina no estado do Rio de Janeiro, Brasil: Resultados preliminares

Autores

DOI:

Palavras-chave:

Resumo

Referências

Downloads

Publicado

Como Citar

Edição

Seção

Licença

JOURNAL METRICS

Idioma

Enviar Submissão