收稿日期: 2010-03-29
修回日期: 2010-04-20
网络出版日期: 2011-05-04
基金资助
海洋公益性行业科研专项(200705026)
Accumulation of heavy metals in sediment of mangrove wetland from Hainan Island
Received date: 2010-03-29
Revised date: 2010-04-20
Online published: 2011-05-04
Supported by
海洋公益性行业科研专项(200705026)
于2008年在海南典型红树林湿地东寨港、三亚湾和亚龙湾采集沉积物样品, 使用原子吸收分光光度法(SOLAAR M6)分析沉积物中Cu、Pb、Zn、Cd和Cr的含量, 原子荧光光度法(AFS-8130)分析Hg和As的含量。表层沉积物中Cu、Pb、Zn、Cd、Cr、Hg和As的平均含量分别为14.8±9.2、24.1±9.2、57.9±36.5、0.17±0.10、29.6±20.4、0.08±0.04和9.7±4.4µg•g?1干重(DW), 目标化合物(除Cd外)的含量均具有东寨港高、三亚湾次之而亚龙湾低的特点, Cd的含量各区域相近。与国内外其他典型红树林沉积物中重金属的含量相比, 本研究区域沉积物重金属含量处于中偏低的水平, 这与海南目前开发程度较低、人类活动影响较小相一致。柱状沉积物中Cu、Pb、Zn、Cd、Cr和Hg含量的剖面分布均具有表层稍低、中上层较高和底层相对低的特征, 而As的含量呈现表层较高、中上层低和底层相对高的特点。潜在风险分析显示, 本研究区域沉积物中重金属(As除外)目前污染较轻, 对生态环境影响较小。
丘耀文,余克服 . 海南红树林湿地沉积物中重金属的累积[J]. 热带海洋学报, 2011 , 30(2) : 102 -108 . DOI: 10.11978/j.issn.1009-5470.2011.02.102
Sediment samples were collected in 2008 from the Dongzhai Harbor, Sanya Bay, and Yalong Bay, typical mangrove wetlands of Hainan Island. The concentrations of Cu, Pb, Zn, Cd, and Cr were analyzed using the Atomic Absorption Spec-trometer (SOLAAR M6), and Hg and As, using the Atomic Fluorescence Spectrometer (AFS-8130). The average concentra-tions of Cu, Pb, Zn, Cd, Cr, Hg, and As in surface sediments are 14.8±9.2, 24.1±9.2, 57.9±36.5, 0.17±0.10, 29.6±20.4, 0.08±0.04, and 9.7±4.4 µg•g?1 dry weight, respectively. The levels of target chemicals except for Cd in sediments show the following order: Dongzhai Harbor > Sanya Bay > Yalong Bay, while the levels of Cd were generally similar among the study-ing areas. Compared with those from other typical mangrove wetlands of the world, heavy metal levels in sediments from these studying areas are in low- to median-levels, which is consistent with the factors that Hainan Island is still in low exploi-tation and its mangroves suffer little impact from human activities. The vertical profiles of Cu, Pb, Zn, Cd, Cr, and Hg con-centrations in core sediments show the highest values in the middle-upper layers and the lowest values in the bottom layers, with the in-between values in the surface layers; while the vertical profiles of As have the highest concentrations in the bot-tom-layer sediments and the lowest concentrations in the middle- to upper-layer sediments, and the concentrations of surface sediments are in between the two. Potential risk assessment shows that the pollution status of all target heavy metals except As is still low and therefore their ecological and environmental effects are also low.
Key words: heavy metal; sediment; mangrove; wetland; Hainan Island
[1] TERCHUNIAN A, KLEMAS V, ALVAREZ A, et al. Mangrove mapping in
[2] ELLISON A M. Mangrove ecology — applications in forestry and costal zone management [J]. Aquatic Botany, 2008, 89: 77-78.
[3] 莫燕妮, 庚志忠, 苏文拔.海南岛红树林调查报告[J].热带林业, 1999, 27(1): 19-22.
[4] 广东省海岸带和海涂资源综合调查组. 广东省海岸带和海涂资源综合调查报告[M].北京: 海洋出版社, 1987: 267-333.
[5] 辛琨, 赵广孺, 孙娟, 等. 红树林土壤吸附重金属生态功能价值估算—‰以海南省东寨港红树林为例[J]. 生态学杂志, 2005, 24(2): 206-208.
[6] VANE C H, HARRISON I, KIM A W, et al. Organic and metal contamination in surface mangrove sediments of
[7] 刘华峰, 祈士华, 苏秋克,等. 海南岛东寨港表层沉积物中有机氯农药组成特征[J]. 中国环境科学, 2007, 27(1): 97-101.
[8] 林鹏.中国红树林生态系[M].北京: 科学出版社,1997: 184, 212.
[9] 刘美龄, 叶勇, 曹长青, 等. 海南东寨港红树林土壤粒径分布的分形特征及其影响因素水[J]. 生态学杂志, 2008, 27(9): 1557-1561.
[10] 王文卿, 王瑁.中国红树林[M].北京: 科学出版社,2007: 1-30.
[11] 廖宝文. 海南东寨港红树林湿地生态系统研究[M]. 青岛: 中国海洋大学出版社, 2009: 2-9.
[12] 晏光勇, 周小飞, 黎军, 等.三亚河红树林现状及保护[J].三亚环境资源, 1998(1/2): 21-23.
[13] 张乔民, 陈永福. 海南三亚河红树凋落物产量与季节变化研究[J]. 生态学报, 2003, 23(10): 1977−1983.
[14] 王勇. 三亚重设亚龙湾红树林保护区[N]. 海南日报, 2009-04-16(2).
[15] 国家质量技术监督局.中华人民共和国国家标准. 海洋监测规范(GB17378.5—2007) [S].2007.
[16] 谢陈笑, 丁振华, 高卫强, 等. 漳江口红树林区沉积物中Cu、Zn、Cr的分布及形态特征[J]. 厦门大学学报: 自然科学版, 2006, 45(增刊): 100-104.
[17] 郑文教, 王文卿, 林鹏.九龙江口桐花树红树林对重金属的吸收与累积及[J].应用与环境生态学报, 1996, 2(3): 207-213.
[18] 郑文教, 连玉武, 郑逢中, 等.广西英罗湾红海榄林重金属元素的累积及动态[J].植物生态学报, 1996, 20(1): 20-27.
[19] 章金鸿, 李玟, 潘南明.深圳福田红树林对重金属Cu、Pb、Zn、Cd的吸收、累积与循环[J].云南环境科学, 2000, 19: 53-56.
[20] TAM N F Y, WONG W S. Spatial variation of heavy metals in surface sediments of
[21] PREDA M, COX M E. Trace metal occurrence and distribution in sediments and mangroves, Pumicestone region, southeast
[22] PERDOMO L, ENSMINGER I, ESPINOS L F, et al. The mangrove ecosystem of the Ciénaga Grande de Santa Marta (Colombia): Observations on regeneration and trace metals in sediment [J]. Marine Pollution Bulletin, 1999, 37: 393-403.
[23] RAMANATHAN A L, SUBRAMANIAN V, RAMESH R, et al. Environmental geochemistry of the Pichavaram mangrove ecosystem (tropical), southeast coast of India [J]. Environmental Geology, 1999, 37: 223-233.
[24] GEHRIG H A, PINTO F N, MOREIRA I, et al. Heavy metals and methylmercury in a tropical coastal estuary and a mangrove in Brazil [J]. Organic Geochemistry, 2003, 34: 661-669.
[25] 张乔民, 温孝胜, 宋朝景, 等. 红树林潮滩沉积速率测量与研究[J]. 热带海洋, 1996, 15(4): 57-62.
[26] SINGH N, TURNER A. Trace metals in antifouling paint particles and their heterogeneous contamination of coastal sediments [J]. Marine Pollution Bulletin, 2009, 58: 559-564.
[27] 陈静生, 王飞越, 宋吉杰, 等, 中国东部河流沉积物中重金属含量与沉积物主要性质的关系[J]. 环境化学, 1996, 15(1): 8-14.
[28] ROUTER J H, RERDUE E M. Importance of heavy metal-organic matter interactions in natural waters[J]. Geochim Cosmochim Acta, 1977, 41: 325-334.
[29] QIU Y W, ZHU L S, LI M Q. Distribution characteristics of heavy metals and grain size of sediments from Hailing Bay, China [J]. Marine Science Bulletin, 2005, 17(1): 69-76.
[30] 廖自基. 微量元素的环境化学及生物效应[M]. 北京: 中国环境科学出版社, 1992: 1-520.
[31] TELIŠMAN S, CVITKOVI? P, JURASOVI? J, et al. Semen quality and reproductive endocrine function in relation to biomarkers of lead, cadmium, zinc and copper in men [J]. Environmental Health Perspectives, 2000, 108: 45-53.
[32] 丘耀文, 颜文, 王肇鼎, 等. 大亚湾海水、沉积物和生物体中金属元素分布及其生态危害[J]. 热带海洋学报, 2005, 24(5): 69-76.
/
〈 | 〉 |