农业环境科学学报
農業環境科學學報
농업배경과학학보
Journal of Agro-Environment Science
2014年
12期
2321-2328
,共8页
张爱星%聂义宁%季宏兵%冯金国%秦飞
張愛星%聶義寧%季宏兵%馮金國%秦飛
장애성%섭의저%계굉병%풍금국%진비
土壤%重金属%空间分布%形态分析%地累积指数
土壤%重金屬%空間分佈%形態分析%地纍積指數
토양%중금속%공간분포%형태분석%지루적지수
soil%heavy metals%spatial distribution%fraction analysis%geo-accumulation
对北京市水源涵养地平谷金矿及尾矿库土壤重金属(As、Cd、Cu、Pb、Cr、Ni、Zn和Hg)的空间分布特征、形态特征及污染现状进行研究与评价。空间分布图显示,As、Cd、Cu、Pb和Zn显示出基本相同的分布情况,污染相对较严重的区域大部分分布在金矿区及周边,受到人为活动的显著影响;Cr和Ni的空间分布特征表明污染严重的区域为尾矿库矿区周边。采用改进的BCR法提取土壤中重金属形态,采用ICP-OES测定。结果表明,Cd可交换态及易还原态占总量的20%~30%,Zn、Pb的易还原态含量较高,为潜在污染源。利用统计学分析,Pb、As、Hg、Zn、Cd可能来源于矿山的开采、金属冶炼等人为活动。地累积指数评价结果表明,研究区域土壤中8种重金属的含量,除Hg外基本均处于污染状态,其中:Ni、Cr、Hg都处于轻度污染或未污染程度;Cu个别采样点处于偏中度与中度污染水平;Pb、As、Cd环境生态污染较严重,个别采样点达到重度污染水平。
對北京市水源涵養地平穀金礦及尾礦庫土壤重金屬(As、Cd、Cu、Pb、Cr、Ni、Zn和Hg)的空間分佈特徵、形態特徵及汙染現狀進行研究與評價。空間分佈圖顯示,As、Cd、Cu、Pb和Zn顯示齣基本相同的分佈情況,汙染相對較嚴重的區域大部分分佈在金礦區及週邊,受到人為活動的顯著影響;Cr和Ni的空間分佈特徵錶明汙染嚴重的區域為尾礦庫礦區週邊。採用改進的BCR法提取土壤中重金屬形態,採用ICP-OES測定。結果錶明,Cd可交換態及易還原態佔總量的20%~30%,Zn、Pb的易還原態含量較高,為潛在汙染源。利用統計學分析,Pb、As、Hg、Zn、Cd可能來源于礦山的開採、金屬冶煉等人為活動。地纍積指數評價結果錶明,研究區域土壤中8種重金屬的含量,除Hg外基本均處于汙染狀態,其中:Ni、Cr、Hg都處于輕度汙染或未汙染程度;Cu箇彆採樣點處于偏中度與中度汙染水平;Pb、As、Cd環境生態汙染較嚴重,箇彆採樣點達到重度汙染水平。
대북경시수원함양지평곡금광급미광고토양중금속(As、Cd、Cu、Pb、Cr、Ni、Zn화Hg)적공간분포특정、형태특정급오염현상진행연구여평개。공간분포도현시,As、Cd、Cu、Pb화Zn현시출기본상동적분포정황,오염상대교엄중적구역대부분분포재금광구급주변,수도인위활동적현저영향;Cr화Ni적공간분포특정표명오염엄중적구역위미광고광구주변。채용개진적BCR법제취토양중중금속형태,채용ICP-OES측정。결과표명,Cd가교환태급역환원태점총량적20%~30%,Zn、Pb적역환원태함량교고,위잠재오염원。이용통계학분석,Pb、As、Hg、Zn、Cd가능래원우광산적개채、금속야련등인위활동。지루적지수평개결과표명,연구구역토양중8충중금속적함량,제Hg외기본균처우오염상태,기중:Ni、Cr、Hg도처우경도오염혹미오염정도;Cu개별채양점처우편중도여중도오염수평;Pb、As、Cd배경생태오염교엄중,개별채양점체도중도오염수평。
The objective of this study was to investigate the spatial distribution, fractionation and contamination degree of heavy metals in soils of gold mine and tailings of Pinggu in Beijing. The spatial distributions of As, Cd, Cu, Pb, and Zn were basically the same. Their pollu-tion was more serious in the gold mining and surrounding area, which was obviously affected by human activities. However, the spatial dis-tribution of Cr and Ni showed that the most polluted area was the tailings. Exchange and reducible fractions of Cd accounted for about 20%~30%of the total Cd, respectively. Zinc and Pb were dominated by reducible fraction, which is potential pollution source. Pb, As, Hg, Zn, and Cd came mainly from mine mining, metal smelting and other human activities. The geo-accumulation index showed that the studied areas were seriously polluted by Pb, As and Cd, but slightly by Ni and Cr. The soils had not been contaminated by Hg. Some sample points showed mild and moderate Cu pollution.
