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Issue:ISSN 1000-7083
          CN 51-1193/Q
Director:Sichuan Association for Science and Technology
Sponsored by:Sichuan Society of Zoologists; Chengdu Giant Panda Breeding Research Foundation; Sichuan Association of Wildlife Conservation; Sichuan University
Address:College of Life Sciences, Sichuan University, No.29, Wangjiang Road, Chengdu, Sichuan Province, 610064, China
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Your Position :Home->Past Journals Catalog->2018 Vol.37 No.4

Analysis of Residue Heavy Metals in Mareca strepera Tissue in Nanhai Wetland Reserve, Baotou
Author of the article:LIU Li, LIU Yunpeng, ZHANG Le, LI Dongxu, XU Hongying, LIU Xiaoguang*
Author's Workplace:School of Biological Science and Technology, Botou Teachers'College, Baotou, Inner Mongolia Autonomous Region 014030, China
Key Words:Mareca strepera; tissue; heavy metal; Nanhai Wetland Reservea
Abstract:Mareca strepera tissue samples (pectoral muscle, cardiac muscle, kidney, liver, and bone), soil, and water were collected from Nanhai Wetland Reserve in Baotou, Inner Mongolia in December, 2016. Inductively coupled plasma optical emission spectrometry was then used to measure the heavy metal residue content relating to 8 elements:Cd, Cr, Cu, Ni, Zn, Hg, Fe, and Mn. Differences in heavy metal content among the tissues from M. strepera with different ages and sexes were compared by using One-Way ANOVA and t-test, and the relationships between the elements and tissues were analyzed by using Pearson correlation test to reveal the distribution of the heavy metal residue. The results showed that:(1) the heavy metal content, except Hg in female adults, had a significant difference between different tissues. Cr and Ni mainly distributed in the muscles (pectoral muscle and cardiac muscle), and Cd in the kidneys, Cu in the muscle and liver, Zn in the liver and bones, Fe in the liver, and Mn in the bones. Correlation analysis results showed that there was a significant positive correlation between Zn and Fe, Mn, Cu, Cr and Ni, and extremely significant between Fe and Cu, suggesting that in each case they were derived from the same source. (2) The distribution of heavy metals between the male and female adults was basically the same, but showed differences in young birds. Mn was mainly detected in the bones of adults and the kidneys of young birds. (3) Comparing with the data in the other researches, the heavy metal in the M. strepera tissues collected here is higher, indicating a serious local pollution problem in Nanhai Wetland Reserve, Baotou.
2018,37(4): 445-455 收稿日期:2018-03-10
崔恒敏, 陈怀涛, 邓俊良, 等. 2005. 实验性雏鸭铜中毒症的病理学研究[J]. 畜牧兽医学报, 36(7):715-721.
郭东龙, 周梅素, 黄淑萍. 1997. Zn、Cd在太原工业区和紫金山非工业区环颈雉不同组织中的分布及比较研究[J]. 生态学报, 17(3):272-276.
郭伟, 赵仁鑫, 张君, 等. 2011. 内蒙古包头铁矿区土壤重金属污染特征及其评价[J]. 环境科学, 32(10):3099-3105.
国家环境保护局, 国家技术监督局. 1995. 中华人民共和国土壤环境质量标准[EB/OL].[1995-07-13].
国家环境保护总局, 国家质量监督检验检疫总局. 2002. 中华人民共和国地表水环境质量标准[EB/OL].[2002-04-28].
冷福荣, 曹金虎, 丁天才. 1999. 包头地区土壤环境质量地球化学初步评价[J]. 内蒙古地质, 91(2):27-39.
李峰, 丁长青. 2007. 重金属污染对鸟类的影响[J]. 生态学报, 27(1):296-303.
李卫平, 王非, 杨文焕, 等. 2017. 包头市南海湿地土壤重金属污染评价及来源解析[J]. 生态环境学报, 26(11):1977-1984.
李玉梅, 李海鹏, 张连科, 等. 2017. 包头某铝厂周边土壤重金属污染及健康风险评价[J]. 中国环境监测, 33(1):88-96.
栗利曼, 刘菊梅, 沈渭寿, 等. 2016. 包头工业区蔬菜重金属富集及人群健康评价[J]. 中国蔬菜, 1(1):54-59.
刘利, 张乐, 孙艳, 等. 2017. 包头南海湿地夜鹭卵7种重金属含量分析[J]. 内蒙古大学学报(自然科学版), 48(6):672-677.
潘超, 郑光美, 张正旺, 等. 2001. 北京城区麻雀体内污染物的研究[J]. 北京师范大学学报(自然科学版), 37(6):820-824.
田慧娟, 何江, 吕昌伟, 等. 2011. 黄河包头段不同粒级沉积物中重金属形态分布特征[J]. 沉积学报, 29(4):776-782.
王红霞, 杨贵生, 徐英, 等. 2009. 内蒙古包头南海子湿地鸟类群落组成及多样性[J]. 动物学杂志, 44(2):71-77.
徐洪鑫, 刘焕奇. 2002. 雏鸡汞中毒血液及组织的残留分析[J]. 中国动物检疫, 19(6):26-27.
旭日干. 2006. 内蒙古动物志 鸟纲 非雀形目[M]. 呼和浩特:内蒙古大学出版社.
于玲红, 王晓云, 李卫平, 等. 2017. 包头市南海湿地水质现状分析与评价[J]. 环境化学, 36(2):390-396.
张连科, 李海鹏, 黄学敏, 等. 2016. 包头某铝厂周边土壤重金属的空间分布及来源解析[J]. 环境科学, 37(3):1139-1146.
郑作新, 张荫荪, 洗耀华, 等. 1979. 中国动物志 鸟纲 第二卷 雁形目[M]. 北京:科学出版社:78-79.
周晓平, 陈小麟, 方文珍, 等. 2004. 厦门白鹭保护区白鹭体内重金属含量分析[J]. 厦门大学学报(自然科学版), 43(3):412-415.
Binkowski J, Stawarz RM, Zakrzewski M. 2013. Concentrations of cadmium, copper and zinc in tissues of mallard and coot from southern Poland[J]. Journal of Environmental Science and Health Part B, Pesticides, Food Contaminants, and Agricultural Wastes, 48(5):410-415.
Burger J, Gochfeld M. 1997. Risk, mercury levels, and birds:relating adverse laboratory effects to field biomonitoring[J]. Environmental Research, 75(2):160-172.
Carpenter JW, Andrews GA, Beyer WN. 2004. Zinc toxicosis in a free-flying trumpeter swan (Cygnus buccinator)[J]. Journal of Wildlife Diseases, 40(4):769-774.
Cohen JB, Barclay JS, Major AR, et al. 2000. Wintering greater scaup as biomonitors of metal contamination in federal wildlife refuges in the Long Island region[J]. Archives of Environmental Contamination and Toxicology, 38(1):83-92.
Di Giulio RT, Scanlon PF. 1985. Effects of cadmium ingestion and food restriction on energy metabolism and tissue metal concentrations in mallard ducks (Anas platyrhynchos)[J]. Environmental Research, 37(2):433-444.
Evers DC, Savoy LJ, DeSorbo CR, et al. 2008. Adverse effects from environmental mercury loads on breeding common loons[J]. Ecotoxicology, 17(2):69-81.
Fu J, Wang Q, Wang H, et al. 2014. Monitoring of non-destructive sampling strategies to assess the exposure of avian species in Jiangsu province, China to heavy metals[J]. Environmental Science and Pollution Research International, 21(4):2898-2906.
Garcia-Fernandez AJ, Sanchez-Garcia JA, Gomez-Zapata M,et al. 1996. Distribution of cadmium in blood and tissues of wild birds[J]. Archives of Environmental Contamination and Toxicology, 30(2):252-258.
Gasaway WC, Buss IO. 1972. Zinc toxicity in the mallard duck[J]. Journal of Wildlife Management, 36(4):1107-1117.
Heinz GH. 1979. Methylmercury:reproductive and behavioral effects on three generations of mallard ducks[J]. Journal of Wildlife Management, 43(2):394-401.
Kalisińska E, Salicki W, Mysłek P, et al. 2004. Using the mallard to biomonitor heavy metal contamination of wetlands in north-western Poland[J]. Science of the Total Environment, 320(2-3):145-161.
Kim J, Oh JM. 2012. Metal levels in livers of waterfowl from Korea[J]. Ecotoxicology and Environmental Safety, 78(3):162-169.
Kozulin A, Pavluschick T. 1993. Content of heavy metals in tissues of mallards Anas platyrhynchos wintering in polluted and unpolluted habitats[J]. Acta Ornithologica, 28(1):55-61.
Mallory ML, Braune BM, Robertson G, et al. 2014. Increasing cadmium and zinc levels in wild common eiders breeding along Canada's remote northern coastline[J]. Science of the Total Environment, 1(476-477):73-78.
Mateo R, Guitart R. 2003. Heavy metals in livers of waterbirds from Spain[J]. Archives of Environmental Contamination and Toxicology, 44(3):398-404.
Nam DH, Anan Y, Ikemoto T, et al. 2005. Multielemental accumulation and its intracellular distribution in tissues of some aquatic birds[J]. Marine Pollution Bulletin, 50(11):1347-1362.
Plessl C, Jandrisits P, Krachler R, et al. 2017. Heavy metals in the mallard Anas platyrhynchos from eastern Austria[J]. Science of the Total Environment, 580:670-676.
Ramos-Miras JJ, Roca-Perez L, Guzmán-Palomino M,et al. 2011. Background levels and baseline values of available heavy metals in Mediterranean greenhouse soils (Spain)[J]. Journal of Geochemical Exploration, 110(2):186-192.
Rothschild RF, Duffy LK. 2005. Mercury concentrations in muscle, brain and bone of western Alaskan waterfowl[J]. Science of the Total Environment, 349(1-3):277-283.
Ruelas-Inzunza J, Hernández-Osuna J, Páez-Osuna F. 2009. Organic and total mercury in muscle tissue of five aquatic birds with different feeding habits from the SE Gulf of California, Mexico[J]. Chemosphere, 76(3):415-418.
Sanstead HH. 1986. A brief history of the influence of trace elements on brain function[J]. The American Journal of Clinical Nutrition, 43(2):293-298.
Shahbaz M, Hashmi MZ, Malik RN, et al. 2013. Relationship between heavy metals concentrations in egret species, their environment and food chain differences from two headworks of Pakistan[J]. Chemosphere, 93(2):274-282.
Si W, Liu J, Cai L, et al. 2015. Health risks of metals in contaminated farmland soils and spring wheat irrigated with Yellow River water in Baotou, China[J]. Bulletin of Environmental Contamination and Toxicology, 94:214-219.
Szefer P, Falandysz J. 1986. Trace metals in the bones of scaup ducks (Aythya marila L.) wintering in Gdańsk Bay, Baltic Sea, 1982-83 and 1983-84[J]. Science of the Total Environment, 53(3):193-199.
Tsipoura N, Burger J, Newhouse M, et al. 2011. Lead, mercury, cadmium, chromium, and arsenic levels in eggs, feathers, and tissues of Canada geese of the New Jersey Meadowlands[J]. Environmental Research, 111(6):775-784.
Underwood EJ. 1971. Trace elements in human and animal nutrition[M]. New York:Academic Press Inc:222.
Van Eeden PH, Schoonbee HJ. 1992. Concentrations of heavy metals in organs and tissues of the red-knobbed coot[J]. Ostrich, 63:165-171.
White DH, Finley MT, Ferrell JF. 1978. Histopathologic effects of dietary cadmium on kidneys and testes of mallard ducks[J]. Journal of Toxicology and Environmental Health, 4(4):551-558.
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