水产品重金属富集规律与风险评估

姚清华; 颜孙安; 林虬; 胡兵

doi:10.19303/j.issn.1008-0384.2014.05.018

水产品重金属富集规律与风险评估

doi: 10.19303/j.issn.1008-0384.2014.05.018

姚清华^1,2,3,
颜孙安^1,2,3,
林虬^1,2,3,
胡兵⁴

1. 农业部农产品质量安全风险评估重点实验室福州，福建福州 350003;
2. 福建省农业科学院中心实验室，福建福州 350003;
3. 福建省精密仪器农业测试重点实验室，福建福州 350003;
4. 福建天马科技集团股份有限公司,福建福清,350300

基金项目:

福建省农业科学院科技重大专项 (ZDZX1301)

农业部农产品质量安全风险评估专项 (2013年)

福建省农业科学院青年创新基金 (2012DQB-8)

详细信息

作者简介:
姚清华 (1985-), 男, 硕士, 助理研究员, 研究方向;水产动物营养与质量安全 (E-mail:yaoyaoshuimu@163.com);林虬 (1963-), 男, 副研究员, 研究方向:农产品质量安全与水产动物营养

中图分类号: X56;X82
计量
- 文章访问数: 163
- HTML全文浏览量: 33
- PDF下载量: 1
- 被引次数: 0
出版历程
- 收稿日期: 2014-01-12
- 刊出日期: 2014-05-18

Enrichment Regularity and Risk Assessment of Heavg Metal in Aquatic Products

YAO Qing-hua^1,2,3,
YAN Sun-an^1,2,3,
LIN Qiu^1,2,3,
HU Bing⁴

1. Laboratory of Quality and Safety Risk Assessment for Agro-products,Ministry of Agriculture;
2. Central Laboratory,Fujian Academy of Agricultural Sciences;
3. Fujian Key Laboratory of precision measurement of for agriculture;
4. Fujian Tianma Feed CO.,Ltd

摘要

摘要: 水生生物具有较强的重金属富集能力, 水产品重金属污染已成为社会关注的焦点。通过总结分析鱼、虾、贝、藻等水产品对不同重金属的富集能力、富集部位差异, 介绍如何从污染源、毒性效应、暴露评估、风险描述、风险管理等方面进行水产品重金属风险评估, 保障水产品质量安全, 提高消费者对水产品消费的安全意识, 促进水产业的良性发展。
- 水产品 /
- 重金属 /
- 富集 /
- 风险评估
Abstract: Since the aquatic organisms tend to absorb and accumulate heavy metals, polluted water significantly affects the safety of seafood consumption.This study aimed to determine the heavy metal accumulation characteristics in fish, shrimp, shellfish and algae, as well as conduct a risk assessment for them as a food source.Thereby, it might help in safeguarding the public, controlling the quality, enhancing consumer education, and promoting industrial development of the aquatic products.
- aquatic products /
- heavy metal /
- accumulation /
- risk assessment

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参考文献(49)

[1]	王伟, 刘国庆.水产品中重金属镉污染安全评估[J].现代农业科技, 2011, (11) :326-327.
[2]	黄钧, 冯健, 孙挺, 等.瓦氏黄颡鱼 (Pelteobagrus fulvidraco Richardson) 幼鱼日粮中主要营养素需要量研究[J].海洋与湖沼, 2009, 40 (4) :437-445.
[3]	滕葳, 柳琪, 李倩, 等.重金属污染对农产品的危害与风险评估[M].北京:化学工业出版社, 2010:1-45.
[4]	常元勋.金属毒理学[M].北京:北京大学医学出版社, 2008:1-9.
[5]	唐建勋, 刘忠良, 张婕.水产动物重金属离子蓄积及毒性试验研究进展[J].金华职业技术学院学报, 2011, 11 (6) :65-68.
[6]	YIN Z, MILATOVIC D, ASCHNER J L, et al.Methylmercury induces oxidative injury, alterations in permeability and glutamine transport in cultured astrocytes[J].Brain Res, 2007, 1131 (1) :1-10.
[7]	MOURON S A, GRILLO C A, DULOUT F N, et al.A comparative investigation of DNA strand breaks, sister chromatid exchanges and K-ras gene mutations induced by cadmium salts in cultured human cells[J].Mutat Res, 2004, 568 (2) :221-231.
[8]	POTTS R J, BESPALOV I A, WALLACE S S, et al.Inhibition of oxidative DNA repair in cadmium-adapted alveolar epithelial cells and the potential involvement of metallothionein[J].Toxicology, 2001, 161 (1-2) :25-38.
[9]	FILIPIC M, HEI T K.Mutagenicity of cadmium in mammalian cells:implication of oxidative DNA damage[J].Mutat-Res, 2004, 546 (1-2) :81-91.
[10]	WANG M H, WANG Y Y, WANG J, et al.Proteome profiles in medaka (Oryzias melastigma) liver and brain experimentally exposed to acute inorganic mercury[J].Aquatic Toxicology, 2011, 103:129-139.
[11]	HEDAYATI A, ZARE P, ABARGHOUEI S.Effect of Environmental Mercury on Some Hormonal Parameters of the Main Mariculture Fish of Persian Gulf[J].Global Veterinaria, 2012, 8 (1) :43-50.
[12]	冯源.重金属铅离子和镉离子在水环境中的行为研究[J].北方环境, 2013, 29 (3) :87-93.
[13]	SMITH P J, MCVEAGH M.Widespread organotin pollution in New Zealand coastal waters as indicated by imposex in dogwelks[J].Mar pollut bull, 1991, 22:409-413.
[14]	NICOTERA F, PJERLUIGU M.Tributyltin stimulates apoptosis in rat thymocytes[J].Biochem biophy, 1990, 283 (1) :46-48.
[15]	杨奇慧, 谭北平, 董晓慧, 等.铬对凡纳滨对虾生长性能、血清生化指标及非特异性免疫酶活性的影响[J].动物营养学报, 2013, 25 (4) :795-804.
[16]	黄永杰, 刘登义, 王友保, 等.八种水生植物对重金属富集能力的比较研究[J].生态学杂志, 2006, 25 (5) :541-545.
[17]	向华, 于晓英.铜污染对水体-水生植物的毒害效应研究进展[J].湖南农业科学, 2009, (11) :54-56.
[18]	李达圣, 安冬.砷中毒疾病机理研究进展[J].中国现代临床医学, 2005, 4 (5) :32-37.
[19]	赵红霞, 周敏, 詹勇, 等.重金属对水生动物毒性的研究进展[J].中国兽医杂志, 2004, 40 (4) :39-41.
[20]	MCKIM J M.Physiological and biological mechanisms that regulate the accumulation and toxicity of enviromental chemicals in fish[J].Marine Enviromental Research, 1994, 16:56-63.
[21]	SHENG P X, TING Y P, CHEN J P, et al.Sorption of lead, copper, cadmium, zinc.and nickel by marine algal biomass:Characterization of biosorptive capacity and investigation of mechanisms[J].Journal of Colloid Interface Science, 2004, 275 (1) :131-141.
[22]	DAVIS T A, VOLESKY B, MUCCI A.A review of the biochemistry of heavy metal biosorption by brown algae[J].Water Research, 2003, 37 (18) :4311-4330.
[23]	刘丽, 邓时铭, 黄向荣, 等.浅谈水产动物中的重金属污染[J].河北渔业, 2011 (7) :51-54.
[24]	沈盎绿, 马继臻, 平仙隐, 等.褶牡蛎对重金属的生物富集动力学特性研究[J].农业环境科学学报, 2009, 28 (4) :783-788.
[25]	陆超华.南海北部海域经济水产品的重金属污染及其评价[J].海洋环境科学, 1995, 14 (2) :12-19.
[26]	杨妙峰, 郑盛华, 郑惠东, 等.近岸海域环境中鱼体对重金属污染物的响应浅析[J].福建水产, 2010, (4) :50-55.
[27]	刘长发, 陶澍, 龙爱民.金鱼对铅和镉的吸收蓄积[J].水生生物学报, 2001, 25 (4) :344-349.
[28]	ALLEN P.Chronic accumulation of cadmium in the edible tissue of Oreochromis aureus (Steindachner) :modification by mercury and lead[J].Arch Environ, contam toxicol, 1995 (29) :8-14.
[29]	HANSEN B H, ROMMA S, GARMO O A, et al.Induction and activity of oxidative stress-related proteins during waterborne Cd/Zn eaposure in brown trout (Salmo trutta) [J].Chenosphere, 2007, 67 (11) :2241-2249.
[30]	肖明松, 王松, 鲍方印, 等.淮河蚌埠段采样点鱼虾贝类重金属的富集[J].环境科学研究, 2011, 24 (8) :942-948.
[31]	MUSTAFA T.Determination of heavy metals in fish samples of the middle Black Sea (Turkey) by graphite furnace atomic absorption spectrometry[J].Food Chemistry, 2003, 80 (1) :119-123.
[32]	李来好, 杨贤庆, 郝淑贤, 等.罗非鱼、南美白对虾对重金属富集的研究[J].热带海洋学报, 2006, 25 (4) :61-65.
[33]	孙振中, 林惠山.重金属等若干污染因子对克氏原螯虾的影响[J].水产科技情报, 1995, 22 (3) :107-110.
[34]	崔勇华, 朱玉芳.重金属在克氏螯虾体内的释放与累积作用研究[J].水利渔业, 2004, 24 (6) :14-16.
[35]	刘琴, 郭远明, 钟志, 等.克氏原螯虾不同组织微量金属富集能力研究[J].浙江海洋学院学报:自然科学版, 2012, 31 (3) :219-222.
[36]	FUNES V, ALHAMA J, NAVAS J I.Ecotoxicological effects of metal pollution in two mollusc species from the Spanish South Atlantic littoral[J].Enviromental polltion, 2006, 139 (2) :214-223.
[37]	CAJARAVILLE M P, BEBIANNO M J, BLASCO J, et al.The use of biomarkers to assess the impact of pollution in coastal environments of the Iberian Peninsula:apractical approach[J].Science of the Total Environment, 2000, 247 (2-3) :295-311.
[38]	GEFFARD O, HIS E.The effects of elutriates from PAH and heavy metal polluted sediments on Crassostrea gigas (Thunberg) embryogenesis, larval growth and bioaccumulation by the larvae of pollutants from sedimentary origin[J].Ecotoxicology, 2002, 11:403-416.
[39]	DAMIENS G, HIS E, GNASSIA-BARELLI M, et al.Evaluation of biomarkers in oyster larvae in natural and polluted conditions[J].Comparative Biochemistry and Physiology, Part C, 2004, 138:121-128.
[40]	赵艳芳, 尚德荣, 宁劲松, 等.虾夷扇贝组织中微量元素的分布特性[J].水产科学, 2011, 30 (6) :356-358.
[41]	陈清香, 杨文, 初庆柱.湛江硇洲岛海域19种贝类食用部位的重金属含量及评价[J].生态环境学报, 2011, 20 (1) :175-180.
[42]	陈雪昌, 尤炬炬, 顾捷, 等.浙江自然海域养殖贝类3种重金属含量分析与评价[J].浙江海洋学院学报:自然科学版, 2011, 30 (6) :520-524.
[43]	阮金山.厦门海域养殖贝类体内重金属的初步研究[J].海洋科学, 2009, (2) :32-37.
[44]	KUMAQAI H, SACKI K.Variation pattern of heavy metal content of short neck clam Tapes japonica with its growth[J].Bulletin of the Japanese Society of Fisheries Oceanography, 1998, 47 (11) :1511-1513.
[45]	江用彬, 季宏兵.藻类对重金属污染水体的生物修复[J].地理科学进展, 2007, 26 (1) :56-65.
[46]	刘潇威, 何英, 赵玉杰, 等.农产品中重金属风险评估的研究与进展[J].农业环境科学学报, 2007, 26 (1) :15-18.
[47]	JECFA.Evaluation of certain food additives and the contaminants.Sixth-fourth Report of the Joint FAO/WHO Expert Committee on Food Additives, summary and conclusion[R].Geneva:World Health Organization, 2005:17-19.
[48]	WORLD HEALTH ORGANIZATION.Evaluation of certain food additives and the contaminants[R].Six-first Report of the Joint FAO/WHO Expert Committee on Food Additives, WHO Food Additives Series No.52, Geneva:2004.557-623.
[49]	中国农业科学院农业质量标准与检测技术研究所.农产品质量安全风险评估——原理、方法和应用[M].北京, 中国标准出版社, 2007:385-390.