海洋通报(英文版)
海洋通報(英文版)
해양통보(영문판)
MARINE SCIENCE BULLETIN
2014年
1期
59-72
,共14页
叶然%秦铭俐%崔永平%顾红伟%叶仙森
葉然%秦銘俐%崔永平%顧紅偉%葉仙森
협연%진명리%최영평%고홍위%협선삼
洋山深水港%沉积物%重金属%生态风险%污染程度
洋山深水港%沉積物%重金屬%生態風險%汙染程度
양산심수항%침적물%중금속%생태풍험%오염정도
Yangshan Deepwater Harbor%sediment%heavy metals%ecological risk%contamination grade
通过测定洋山深水港区海域2010~2013年6个航次秋、冬季沉积物中重金属含量,分析其时空差异,结果表明该海域沉积物重金属总体含量较低,空间分布较为均匀,Hg、Zn、Pb、Cd 含量秋季明显高于冬季,As、Cu含量的季节性波动较小,用因子分析法研究该海域重金属来源,发现陆源工业、船舶航运排污以及有机质降解是研究海域 Pb、Cd、Zn 的主要来源;农业污染、码头货物装卸残留及建筑垃圾支配着Cu、As、Hg的来源。SQG-Q生态风险评价表明研究海域沉积物中重金属均存在中、低度的生态风险,秋季的生态风险高于冬季,Hg和Cu是主要生态风险因子;地累积指数法评价结果显示研究海域基本不受Hg、As、Zn、Pb的污染;Cd、Cu以轻度污染为主,部分站位属于偏中度污染,6种重金属污染程度依次为:Cd>Cu>Pb>Zn>Hg>As。因子综合得分评价表明,重金属污染相对严重的站位依次为5号、4号及3号站位。但总体看来洋山深水港区附近海域沉积物中重金属污染状况属于轻度污染。
通過測定洋山深水港區海域2010~2013年6箇航次鞦、鼕季沉積物中重金屬含量,分析其時空差異,結果錶明該海域沉積物重金屬總體含量較低,空間分佈較為均勻,Hg、Zn、Pb、Cd 含量鞦季明顯高于鼕季,As、Cu含量的季節性波動較小,用因子分析法研究該海域重金屬來源,髮現陸源工業、船舶航運排汙以及有機質降解是研究海域 Pb、Cd、Zn 的主要來源;農業汙染、碼頭貨物裝卸殘留及建築垃圾支配著Cu、As、Hg的來源。SQG-Q生態風險評價錶明研究海域沉積物中重金屬均存在中、低度的生態風險,鞦季的生態風險高于鼕季,Hg和Cu是主要生態風險因子;地纍積指數法評價結果顯示研究海域基本不受Hg、As、Zn、Pb的汙染;Cd、Cu以輕度汙染為主,部分站位屬于偏中度汙染,6種重金屬汙染程度依次為:Cd>Cu>Pb>Zn>Hg>As。因子綜閤得分評價錶明,重金屬汙染相對嚴重的站位依次為5號、4號及3號站位。但總體看來洋山深水港區附近海域沉積物中重金屬汙染狀況屬于輕度汙染。
통과측정양산심수항구해역2010~2013년6개항차추、동계침적물중중금속함량,분석기시공차이,결과표명해해역침적물중금속총체함량교저,공간분포교위균균,Hg、Zn、Pb、Cd 함량추계명현고우동계,As、Cu함량적계절성파동교소,용인자분석법연구해해역중금속래원,발현륙원공업、선박항운배오이급유궤질강해시연구해역 Pb、Cd、Zn 적주요래원;농업오염、마두화물장사잔류급건축랄급지배착Cu、As、Hg적래원。SQG-Q생태풍험평개표명연구해역침적물중중금속균존재중、저도적생태풍험,추계적생태풍험고우동계,Hg화Cu시주요생태풍험인자;지루적지수법평개결과현시연구해역기본불수Hg、As、Zn、Pb적오염;Cd、Cu이경도오염위주,부분참위속우편중도오염,6충중금속오염정도의차위:Cd>Cu>Pb>Zn>Hg>As。인자종합득분평개표명,중금속오염상대엄중적참위의차위5호、4호급3호참위。단총체간래양산심수항구부근해역침적물중중금속오염상황속우경도오염。
Temporal and spatial variations of concentrations of heavy metals including mercury (Hg), zinc (Zn), lead (Pb), arsenic (As), copper (Cu), and cadmium (Cd) in the sediments of the Yangshan Deepwater Harbor were determined based on 6 cruises in autumn and winter, respectively, from 2010 to 2013. The results demonstrated that the overal concentrations of heavy metals were low and distributed in uniform patterns. The concentrations of Hg, Zn, Pb, and Cd in autumn were significantly higher than those in winter with smal fluctuations for As and Cu in terms of seasonal variations. Results of factor analysis showed that Pb, Cd, and Zn were derived from inland industrial and shipping discharges as well as the degradation of organic pol utants in marine environment. While agricultural pollutions, cargo shifting and construction debris from reclamation projects contributed to the sources of Cu, As, and Hg. Ecological risk assessment by Mean Sediment Quality Guideline Quotient (SQG-Q) revealed that the degree for eco-risk of the sediments was low-and-moderate in autumn, higher than that in winter. Hg and Cu were the dominant eco-risk factors. The results of Index of geoaccumulation (Igeo) showed that the whole sites of the sea area were barely influenced by Hg, As, Zn, and Pb, and the extents of Cd and Cu contaminations were in low grade. Contamination degree of al the six heavy metals could be ranked as the fol owing: Cd>Pb>Zn>Hg>As. According to the results of integrated score of factor analysis, the contamination degree for heavy metals in sediments of the Yangshan Deepwater Harbor was low, despite sites No.5, No.4 and No.3, which were heavily contaminated compared with others.