农业环境科学学报
農業環境科學學報
농업배경과학학보
Journal of Agro-Environment Science
2010年
3期
451-457
,共7页
周文鳞%李仁英%岳海燕%谢晓金%朱红霞%申双和
週文鱗%李仁英%嶽海燕%謝曉金%硃紅霞%申雙和
주문린%리인영%악해연%사효금%주홍하%신쌍화
南京江北地区%菜地土壤%有效态重金属%主成分分析%地统计分析
南京江北地區%菜地土壤%有效態重金屬%主成分分析%地統計分析
남경강북지구%채지토양%유효태중금속%주성분분석%지통계분석
Jiangbei area in Nanjing%vegetable soils%available heavy metals%principal components analysis%geostatistical analysis
在南京市浦口和大厂的5大主要功能区(工业区、交通干线、居民区、蔬菜生产基地和风景区)内共采集了75个菜地表层土壤样品,以Cd、Cu、Ph和Zn等典型污染重金属的有效态含量为基础,运用经典统计分析、主成分分析和地统计分析相结合的方法对菜地土壤蕈金属污染进行了评估.结果表明,菜地有效态Cd、Cu、Pb和Zn的平均含量以交通干线沿线(宁六公路泰山新村一南信大段)最低,工业区(南钢或扬子石化)最高,其他功能区的均介于两者之间.主成分分析将菜地土壤有效态重金属大致分为农业源和工业、生活源.从功能区菜地土壤污染总得分排序结果可以看出,宁六公路沿线(泰山新村-南信大段)菜地土壤环境质量最高,以下依次是龙王山风景区、盘城蔬菜基地和盘城镇,老工业区的扬子石化和南钢周边菜地土壤环境质量较差.研究区内菜地土壤有效态Cd、Cu、Pb和Zn的pw 间分布均具有中等强度空间相关性,不同有效态重金属在空间上具有明显的各向异性,其空间变异主要发生在北-南方向.有效态Pb的空间分布较离散,有效Cd、Cu和Zn的高值区大致都位于老工业区内.
在南京市浦口和大廠的5大主要功能區(工業區、交通榦線、居民區、蔬菜生產基地和風景區)內共採集瞭75箇菜地錶層土壤樣品,以Cd、Cu、Ph和Zn等典型汙染重金屬的有效態含量為基礎,運用經典統計分析、主成分分析和地統計分析相結閤的方法對菜地土壤蕈金屬汙染進行瞭評估.結果錶明,菜地有效態Cd、Cu、Pb和Zn的平均含量以交通榦線沿線(寧六公路泰山新村一南信大段)最低,工業區(南鋼或颺子石化)最高,其他功能區的均介于兩者之間.主成分分析將菜地土壤有效態重金屬大緻分為農業源和工業、生活源.從功能區菜地土壤汙染總得分排序結果可以看齣,寧六公路沿線(泰山新村-南信大段)菜地土壤環境質量最高,以下依次是龍王山風景區、盤城蔬菜基地和盤城鎮,老工業區的颺子石化和南鋼週邊菜地土壤環境質量較差.研究區內菜地土壤有效態Cd、Cu、Pb和Zn的pw 間分佈均具有中等彊度空間相關性,不同有效態重金屬在空間上具有明顯的各嚮異性,其空間變異主要髮生在北-南方嚮.有效態Pb的空間分佈較離散,有效Cd、Cu和Zn的高值區大緻都位于老工業區內.
재남경시포구화대엄적5대주요공능구(공업구、교통간선、거민구、소채생산기지화풍경구)내공채집료75개채지표층토양양품,이Cd、Cu、Ph화Zn등전형오염중금속적유효태함량위기출,운용경전통계분석、주성분분석화지통계분석상결합적방법대채지토양심금속오염진행료평고.결과표명,채지유효태Cd、Cu、Pb화Zn적평균함량이교통간선연선(저륙공로태산신촌일남신대단)최저,공업구(남강혹양자석화)최고,기타공능구적균개우량자지간.주성분분석장채지토양유효태중금속대치분위농업원화공업、생활원.종공능구채지토양오염총득분배서결과가이간출,저륙공로연선(태산신촌-남신대단)채지토양배경질량최고,이하의차시룡왕산풍경구、반성소채기지화반성진,로공업구적양자석화화남강주변채지토양배경질량교차.연구구내채지토양유효태Cd、Cu、Pb화Zn적pw 간분포균구유중등강도공간상관성,불동유효태중금속재공간상구유명현적각향이성,기공간변이주요발생재북-남방향.유효태Pb적공간분포교리산,유효Cd、Cu화Zn적고치구대치도위우로공업구내.
75 surface samples were collected from vegetable soils located in or nearby 5 contrasting zones:industry,arterial highway,resident,vegetable production base and scenery site,across Pukou and Dachang districts of Nanjing City.Pollution characteristics of available heavy metal(Cd,Cu,Pb and Zn)in soils were assessed by methods of normal statistical analysis,principal components analysis and geostatistical analysis.The results showed that the average concentrations of available heavy metals in vegetable soils Was the lowest Mong arterial highway (Ningliu Road from Village Taishan to Nanjing University of Information Science & Technology)and the highest in industrial area(Nanjing steel group or Sinopec Yangzi Petrochemical Company Ltd.)while those of other functional Rrea$were between the two above.Two main sources of available heavy metals.agriculture and industry-resident,were obtained,by principal components analysis.The order of heavy metals pollution in vegetable soils in the functional areas was:Ningliu Road(from Village Taishan to Nanjing University of Information Science & Technology)<Longwang Mountain scenery site<Pancheng vegetable production base and Pancheng Town<the old industrial area(including Nanjing steel group and Sinopec Yangzi Petrochemical Company Ltd.).Available Cu,Cd,Pb and Zn exhibited moderate spatial dependence in vegetable soil in the studied area.The geostatistical analysis also showed a significant anisotropy in distribution of soil available heavy metals which demonstrated an azimuth angle in the long axis direction(N-S).The spatial distribution of available Pb was more discrete.The high-value area of available Cd,Cu and Zn was generally located in the old industrial area.
