Assessment of Metal’s Concentration in White-Breasted Waterhen (Amaurornis phoenicurus) from Phool Nagar and Baghiana Kalan, District Kasur, Pakistan
Environmental Metal Exposure in White-Breasted Waterhen of Kasur
DOI:
https://doi.org/10.5281/zenodo.15511339Keywords:
Heavy metals, Pollution, ContaminationAbstract
The White-breasted Waterhen (Amaurornis phoenicurus) is a member of the rallidae family. The overhunting of local communities and anthropogenic contamination of aquatic ecosystems pose a growing threat to this water bird. This study was carried out at two sites with the goal of determining how metals affect White-breasted Waterhens. One site was a pond in the Phool Nagar village of Lamby Jageer, which is a natural site (site 1). The second site was a contaminated site that was obtained from Rohi Nala Baghiana Kalan (site 2). Birds from these sites were collected, slaughtered, and organs such as breast and thigh muscles, liver, heart, feathers, skin, gizzard, were separated. Waste samples were also collected from the intestine. Samples were prepared by chemical digestion and analyzed with atomic absorption spectroscopy to see the concentrations of sodium (Na), calcium (Ca), potassium (K), iron (Fe), zinc (Zn), lead (Pb), and cadmium (Cd), mercury (Hg), and chromium (Cr). Results indicated higher concentrations of essential metals such as Na, Ca, and Fe, with lower levels of Zn and K. Notably, non-essential heavy metals like Hg and Cr were not found at any site, whereas site 2 that was contaminated site only showed Cd and Pb in birds. The study concludes that the White-breasted Waterhen has potential importance for conservation as it is a source of halal meat and essential metals. However, the detection of non-essential metals highlights the adverse effects of environmental pollution on these birds.
References
Akhtar, N., Syakir Ishak, M. I., Bhawani, S. A., & Umar, K. (2021). Various natural and anthropogenic factors responsible for water quality degradation: A review. Water, 13(19), 2660.
Alam, I., Majumder, A., Naskar, A., & Maheswaran, G. (2023). Bird observations from Pulicate Lake Bird Sanctuary and the adjoining areas in India. Records of the Zoological Survey of India, 233-249.
Berglund, Å. M., Koivula, M. J., & Eeva, T. (2011). Species-and age-related variation in metal exposure and accumulation of two passerine bird species. Environmental pollution, 159(10), 2368-2374.
Borghesi, F., Dinelli, E., Migani, F., Bechet, A., Rendón‐Martos, M., Amat, J. A., ... & Gillingham, M. A. (2017). Assessing environmental pollution in birds: a new methodological approach for interpreting bioaccumulation of trace elements in feather shafts using geochemical sediment data. Methods in Ecology and Evolution, 8(1), 96-108.
Bourassa, M. W., Abrams, S. A., Belizán, J. M., Boy, E., Cormick, G., Quijano, C. D., ... & Weaver, C. M. (2022). Interventions to improve calcium intake through foods in populations with low intake. Annals of the New York Academy of Sciences, 1511(1), 40-58.
Ciosek, Ż., Kot, K., Kosik-Bogacka, D., Łanocha-Arendarczyk, N., & Rotter, I. (2021). The effects of calcium, magnesium, phosphorus, fluoride, and lead on bone tissue. Biomolecules, 11(4), 506.
Clancy, C. E., Chen‐Izu, Y., Bers, D. M., Belardinelli, L., Boyden, P. A., Csernoch, L., ... & Zaza, A. (2015). Deranged sodium to sudden death. The Journal of physiology, 593(6), 1331-1345.
Dhanaraj, C. J. (2024). Harmful Effects of Water Pollution. Handbook of Water Pollution, 123-148.
Dutta, S. K., & Mohapatra, P. P. (2017). Eastern Ghats: Faunal composition and conservation. Defaunation and conservation, 149-183.
Einoder, L. D., MacLeod, C. K., & Coughanowr, C. (2018). Metal and isotope analysis of bird feathers in a contaminated estuary reveals bioaccumulation, biomagnification, and potential toxic effects. Archives of environmental contamination and toxicology, 75, 96-110.
Elsenhans, B., Schümann, K., & Forth, W. (1991). Toxic metals: interactions with essential metals. Nutrition, Toxicity and Cancer. CRC Press, Boca Raton, An Arbor, Boston, London, 223-258.
Idowu, M. A., & Morenikeji, O. A. (2015). Wild fauna conservation in Nigeria. Environment and Natural Resources Research, 5(3), 98-108.
Innangi, M., De Rosa, D., Danise, T., Fozzi, I., Giannotti, M., Izzo, M., ... & Fioretto, A. (2019). Analysis of 11 trace elements in flight feathers of Italian Sparrows in southern Italy: A study of bioaccumulation through age classes, variability in three years of sampling, and relations with body condition. Science of the Total Environment, 651, 2003-2012.
Jomova, K., Makova, M., Alomar, S. Y., Alwasel, S. H., Nepovimova, E., Kuca, K., ... & Valko, M. (2022). Essential metals in health and disease. Chemico-biological interactions, 367, 110173.
Kosik-Bogacka, D. I., & Łanocha-Arendarczyk, N. (2019). Zinc, Zn. Mammals and Birds as Bioindicators of Trace Element Contaminations in Terrestrial Environments: An Ecotoxicological Assessment of the Northern Hemisphere, 363-411.
Kushlan, J. A. (1993). Colonial waterbirds as bioindicators of environmental change. Colonial water birds. 223-251.
Leal, M. F. C., Catarino, R. I., Pimenta, A. M., & Souto, M. R. S. (2023). The influence of the biometals Cu, Fe, and Zn and the toxic metals Cd and Pb on human health and disease. Trace Elements and Electrolytes, 40(1), 1.
Lima, S. L. (2009). Predators and the breeding bird: behavioral and reproductive flexibility under the risk of predation. Biological reviews, 84(3), 485-513.
Lucia, M., André, J. M., Gontier, K., Diot, N., Veiga, J., & Davail, S. (2010). Trace element concentrations (mercury, cadmium, copper, zinc, lead, aluminium, nickel, arsenic, and selenium) in some aquatic birds of the Southwest Atlantic Coast of France. Archives of Environmental Contamination and Toxicology, 58(3), 844-853.
Martelli, A., Rousselet, E., Dycke, C., Bouron, A., & Moulis, J. M. (2006). Cadmium toxicity in animal cells by interference with essential metals. Biochimie, 88(11), 1807-1814.
Mishra, S., Bharagava, R. N., More, N., Yadav, A., Zainith, S., Mani, S., & Chowdhary, P. (2019). Heavy metal contamination: an alarming threat to environment and human health. Environmental biotechnology: For sustainable future, 103-125.
Mohammed, A. S., Kapri, A., & Goel, R. (2011). Heavy metal pollution: source, impact, and remedies. Biomanagement of metal-contaminated soils, 1-28.
Morais, S., Costa, F. G., & Pereira, M. D. L. (2012). Heavy metals and human health. Environmental health–emerging issues and practice, 10(1), 227-245.
Niemi, G. J., and McDonald, M. E. (2004). Application of ecological indicators. Annu. Rev. Ecol. Evol. Syst. 35(1): 89-111.
O'Connell, T. J., Jackson, L. E., and Brooks, R. P. (2000). Bird guilds as indicators of ecological condition in the central Appalachians. Ecological Applications. 10(6): 1706-1721.
Parker, G. H., & Van Der Kraak, G. (2018). Journal of Environmental Science and Pollution Research. J. Environ. Sci, 4(2), 256-267.
Pohl, H. R., Wheeler, J. S., & Murray, H. E. (2013). Sodium and potassium in health and disease. Interrelations between essential metal ions and human diseases, 29-47.
Prompiram, P., Poltep, K., Chaisilp, N., Chakritbudsabong, W., Buamas, S., & Rungarunlert, S. (2023). Haemosporidian Parasites of White-Breasted Waterhens (Amaurornis phoenicurus), with a Report and Molecular Characterization of Haemoproteus gallinulae in Thailand. Animals, 13(12), 2006.
Sadam, A., Khan, R. U., Gabol, K., Awais, M., Ismail, M., Mahmood, S., & Aslam, M. (2022). Hunting and Illegal Trade of White-Breasted Waterhen Amaurornis phoenicurus: Evidence from District Mardan, Khyber Pakhtunkhwa, Pakistan. Pakistan Journal of Zoology, 55(5), 2247-2256.
Sievers, M., Hale, R., Parris, K. M., & Swearer, S. E. (2018). Impacts of human‐induced environmental change in wetlands on aquatic animals. Biological Reviews, 93(1), 529-554.
Squadrone, S., Brizio, P., Favaro, L., Todino, G., Florio, D., Da Rugna, C., & Abete, M. C. (2019). Humboldt penguins' feathers as bioindicators of metal exposure. Science of the Total Environment, 650, 1734-1739.
Stankovic, S., & Stankovic, A. R. (2013). Bioindicators of toxic metals. Green materials for energy, products and depollution, 151-228.
Tropical Birds. Tuttle Publishing, 2014.
Vizuete, J., Pérez-López, M., Míguez-Santiyán, M. P., & Hernández-Moreno, D. (2019). Mercury (Hg), lead (Pb), cadmium (Cd), selenium (Se), and arsenic (As) in liver, kidney, and feathers of gulls: a review. Reviews of Environmental Contamination and Toxicology Volume 247, 85-146.
Wickramasinghe, S., & Diwakara, D. (2017). Diversity, Abundance and Conservation of Communal Roosting Waterbirds in Kotuattawala Nature Reserve in Sri Lanka. An international journal of environment and biodiversity, 8(2), 98-103pp.
Yasmeen, R., & Asif, L. (2022). Heavy metal exposure and behavioral assessment of vultures in a captive environment. Environmental Science and Pollution Research, 29(45), 68096-68102.
Yuce, G., Pinarbasi, A., Ozcelik, S., & Ugurluoglu, D. (2006). Soil and water pollution derived from anthropogenic activities in the Porsuk River Basin, Turkey. Environmental Geology, 49, 359-375.
Zak, D., Hupfer, M., Cabezas, A., Jurasinski, G., Audet, J., Kleeberg, A., ... & Goldhammer, T. (2021). Sulphate in freshwater ecosystems: A review of sources, biogeochemical cycles, ecotoxicological effects and bioremediation. Earth-Science Reviews, 212, 103446.
Zaynab, M., Al-Yahyai, R., Ameen, A., Sharif, Y., Ali, L., Fatima, M., ... & Li, S. (2022). Health and environmental effects of heavy metals. Journal of King Saud University-Science, 34(1), 101653.
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