亚热带资源与环境学报
亞熱帶資源與環境學報
아열대자원여배경학보
JOURNAL OF SUBTROPICAL RESOURCES AND ENVIRONMENT
2012年
2期
27-35
,共9页
广州市万亩果园%土壤%重金属%污染%评价
廣州市萬畝果園%土壤%重金屬%汙染%評價
엄주시만무과완%토양%중금속%오염%평개
Guangzhou Wanmu Orchard%soil%heavy metal%pollution%evaluation
运用实地调查采样及地积累指数法、单因子污染指数法、综合污染指数法等方法对广州市万亩果园土壤的重金属(Cd、Pb、Cu、Zn)污染情况进行了调查分析与评价.结果表明:万亩果园土壤中Cd、Cu污染不容忽视,其中Cd污染最为严重,Cu、Zn次之,Pb污染较少;在《广州市海珠区果树保护区总体规划》划分的不同等级保护区中,针对研究区域,一级保护区土壤重金属综合污染指数为0.732,属较清洁(警戒线)等级,二级保护区土壤重金属综合污染指数为1.792,属轻度污染等级,其中Cd为主要污染物,其次是Cu;三级保护区Cd污染严重,单因子污染指数高达6.390,土壤重金属综合污染指数为4.699,属于重污染等级.在垂直分布上,随土层深度增加,万亩果园土壤重金属含量呈现Cd递增,Cu、Zn递减,Pb先增后减的规律;一级保护区以农业污染源为主,二级保护区农业污染源与工业污染源并存,三级保护区以工业污染源为主.通过在轻污染区添加石灰、羟基磷灰石等化学修复剂,在重污染区积极调整种植结构,发展清洁生产,防止土壤重金属通过食物链危害人体健康.
運用實地調查採樣及地積纍指數法、單因子汙染指數法、綜閤汙染指數法等方法對廣州市萬畝果園土壤的重金屬(Cd、Pb、Cu、Zn)汙染情況進行瞭調查分析與評價.結果錶明:萬畝果園土壤中Cd、Cu汙染不容忽視,其中Cd汙染最為嚴重,Cu、Zn次之,Pb汙染較少;在《廣州市海珠區果樹保護區總體規劃》劃分的不同等級保護區中,針對研究區域,一級保護區土壤重金屬綜閤汙染指數為0.732,屬較清潔(警戒線)等級,二級保護區土壤重金屬綜閤汙染指數為1.792,屬輕度汙染等級,其中Cd為主要汙染物,其次是Cu;三級保護區Cd汙染嚴重,單因子汙染指數高達6.390,土壤重金屬綜閤汙染指數為4.699,屬于重汙染等級.在垂直分佈上,隨土層深度增加,萬畝果園土壤重金屬含量呈現Cd遞增,Cu、Zn遞減,Pb先增後減的規律;一級保護區以農業汙染源為主,二級保護區農業汙染源與工業汙染源併存,三級保護區以工業汙染源為主.通過在輕汙染區添加石灰、羥基燐灰石等化學脩複劑,在重汙染區積極調整種植結構,髮展清潔生產,防止土壤重金屬通過食物鏈危害人體健康.
운용실지조사채양급지적루지수법、단인자오염지수법、종합오염지수법등방법대엄주시만무과완토양적중금속(Cd、Pb、Cu、Zn)오염정황진행료조사분석여평개.결과표명:만무과완토양중Cd、Cu오염불용홀시,기중Cd오염최위엄중,Cu、Zn차지,Pb오염교소;재《엄주시해주구과수보호구총체규화》화분적불동등급보호구중,침대연구구역,일급보호구토양중금속종합오염지수위0.732,속교청길(경계선)등급,이급보호구토양중금속종합오염지수위1.792,속경도오염등급,기중Cd위주요오염물,기차시Cu;삼급보호구Cd오염엄중,단인자오염지수고체6.390,토양중금속종합오염지수위4.699,속우중오염등급.재수직분포상,수토층심도증가,만무과완토양중금속함량정현Cd체증,Cu、Zn체감,Pb선증후감적규률;일급보호구이농업오염원위주,이급보호구농업오염원여공업오염원병존,삼급보호구이공업오염원위주.통과재경오염구첨가석회、간기린회석등화학수복제,재중오염구적겁조정충식결구,발전청길생산,방지토양중금속통과식물련위해인체건강.
Based on investigation and sample analysis, environmental quality of orchard soil was as- sessed using Geoaccumulation index, Index, in order to find out the Single-Factor Pollution Index and spatial Nemerow Synthetical Pollution and vertical distribution characteristics of heavy metals in the Wanmu Orchard soil, and to address causes of the contamination and provide pollution control ad- vices. The results indicated that Cd pollution is the most serious in the orchard soil, followed by Cu and Zn pollution, and Pb pollution is slight; In a plan called Guangzhou Wanmu Orchard Reserve Planning which divides orchard lands into three conservation districts of three grades, the quality of soil in the first-grade conservation district is clean (its Nemerow Synthetical Pollution Index is 0. 732), soil in the second-grade conservation district is slightly polluted ( in which Cd is the domi-nant pollutant, followed by Cu), and soil in the third-grade conservation district is heavily polluted by Cd (its Single-Factor Pollution Index is 6. 390 and its Nemerow Synthetical Pollution Index is 4. 699, both at heavy pollution level). The content of Cd increases with depth, while that of Pb, Cu and Zn decrease. Compound pollution of Cu and Zn is ubiquitous in the orchard soil. These show that agriculture pollution source is the uppermost one for the first-grade conservation district, agricultural pollution source and industry pollution source exist in the second-grade conservation district, and indus-try pollution source is the root cause for pollution in the third-grade conservation district. Chemical pol-lution remediation and ecological agriculture can be applied to control heavy metal pollutions in the soil.