生态环境学报
生態環境學報
생태배경학보
ECOLOGY AND ENVIRONMENT
2014年
1期
157-163
,共7页
孙宗斌%周俊%胡蓓蓓%王祖伟%孟伟庆%王中良
孫宗斌%週俊%鬍蓓蓓%王祖偉%孟偉慶%王中良
손종빈%주준%호배배%왕조위%맹위경%왕중량
道路灰尘%重金属%污染特征%天津
道路灰塵%重金屬%汙染特徵%天津
도로회진%중금속%오염특정%천진
street dust%heavy metal%pollution characteristics%Tianjin
以天津城市道路灰尘重金属为研究对象,按照环线分布将天津市中心城区划分为内环以内、内环-中环、中环以外3个区域,总共设置93个采样点。对表层灰尘进行采样收集,预处理后测定样品的理化性质,采用原子吸收光谱仪测定道路灰尘中重金属Cd、Cr、Cu、Ni和Pb的含量,进而分析天津市道路灰尘重金属的含量水平,运用ArcGIS软件中的地统计分析方法内插得出其空间分布特征,通过Pearson相关分析和主成分分析判析重金属来源。研究结果表明:道路灰尘颗粒粒径表现为双峰,主峰对应粒径较小,且为非正态分布,大量小粒径颗粒的存在使重金属含量增高;市区和各环区有机质变异系数较大,道路灰尘中有机质的空间分布差异较大,因而人为因素影响广泛;市区道路灰尘中重金属 Cd、Cr、Cu、Ni 和 Pb的平均含量依次为0.99、121.41、100.62、43.35和61.48 mg·kg-1,分别为天津土壤环境背景值的11.00倍、1.44倍、3.49倍、1.30倍和2.93倍;Cd、Cr和Cu的空间分布差异较大,Ni和Pb的空间分布差异较小;Pearson相关分析表明Pb-有机质(P<0.05), Cu-Ni(P<0.01)和Cr-Cu(P<0.05)之间存在显著正相关关系,主成分分析人为因素的积累贡献率为33.050%,自然因素的积累贡献率为57.315%,因此得出重金属受人为因素影响较大,交通尾气排放和工业污染为天津道路灰尘重金属污染的重要来源,且以多因子复合影响为主。
以天津城市道路灰塵重金屬為研究對象,按照環線分佈將天津市中心城區劃分為內環以內、內環-中環、中環以外3箇區域,總共設置93箇採樣點。對錶層灰塵進行採樣收集,預處理後測定樣品的理化性質,採用原子吸收光譜儀測定道路灰塵中重金屬Cd、Cr、Cu、Ni和Pb的含量,進而分析天津市道路灰塵重金屬的含量水平,運用ArcGIS軟件中的地統計分析方法內插得齣其空間分佈特徵,通過Pearson相關分析和主成分分析判析重金屬來源。研究結果錶明:道路灰塵顆粒粒徑錶現為雙峰,主峰對應粒徑較小,且為非正態分佈,大量小粒徑顆粒的存在使重金屬含量增高;市區和各環區有機質變異繫數較大,道路灰塵中有機質的空間分佈差異較大,因而人為因素影響廣汎;市區道路灰塵中重金屬 Cd、Cr、Cu、Ni 和 Pb的平均含量依次為0.99、121.41、100.62、43.35和61.48 mg·kg-1,分彆為天津土壤環境揹景值的11.00倍、1.44倍、3.49倍、1.30倍和2.93倍;Cd、Cr和Cu的空間分佈差異較大,Ni和Pb的空間分佈差異較小;Pearson相關分析錶明Pb-有機質(P<0.05), Cu-Ni(P<0.01)和Cr-Cu(P<0.05)之間存在顯著正相關關繫,主成分分析人為因素的積纍貢獻率為33.050%,自然因素的積纍貢獻率為57.315%,因此得齣重金屬受人為因素影響較大,交通尾氣排放和工業汙染為天津道路灰塵重金屬汙染的重要來源,且以多因子複閤影響為主。
이천진성시도로회진중금속위연구대상,안조배선분포장천진시중심성구화분위내배이내、내배-중배、중배이외3개구역,총공설치93개채양점。대표층회진진행채양수집,예처리후측정양품적이화성질,채용원자흡수광보의측정도로회진중중금속Cd、Cr、Cu、Ni화Pb적함량,진이분석천진시도로회진중금속적함량수평,운용ArcGIS연건중적지통계분석방법내삽득출기공간분포특정,통과Pearson상관분석화주성분분석판석중금속래원。연구결과표명:도로회진과립립경표현위쌍봉,주봉대응립경교소,차위비정태분포,대량소립경과립적존재사중금속함량증고;시구화각배구유궤질변이계수교대,도로회진중유궤질적공간분포차이교대,인이인위인소영향엄범;시구도로회진중중금속 Cd、Cr、Cu、Ni 화 Pb적평균함량의차위0.99、121.41、100.62、43.35화61.48 mg·kg-1,분별위천진토양배경배경치적11.00배、1.44배、3.49배、1.30배화2.93배;Cd、Cr화Cu적공간분포차이교대,Ni화Pb적공간분포차이교소;Pearson상관분석표명Pb-유궤질(P<0.05), Cu-Ni(P<0.01)화Cr-Cu(P<0.05)지간존재현저정상관관계,주성분분석인위인소적적루공헌솔위33.050%,자연인소적적루공헌솔위57.315%,인차득출중금속수인위인소영향교대,교통미기배방화공업오염위천진도로회진중금속오염적중요래원,차이다인자복합영향위주。
Dust samples were collected from 93 sites of urban streets in Tianjin for the heavy metals (Cd, Cr, Cu, Ni and Pb) pollution study. Atomic absorption spectrometer was applied for heavy metal content determination, and Kriging analysis of ArcGIS was applied to analyze the spatial distribution of heavy metals in street dust of urban area. Pearson correlative analysis and principal component analysis were used to distinguish the main sources of heavy metals. Results showed that the particle size of road dust presented two peaks distribution, main of the street dust was fine and the particle size was non-normal distribution which led to high contents of heavy metals. The coefficient of variance and the difference in the spatial distribution of organic matter was large because of the influence of intense human activities. The average contents of Cd (0.99 mg·kg-1), Cr (121.41 mg·kg-1), Cu (100.62 mg·kg-1), Ni (43.35 mg·kg-1), Pb (61.48 mg·kg-1) in street dust of urban area were 11.00 times, 1.44times, 3.49 times, 1.30 times and 2.93 times higher than them of the soil background in Tianjin city respectively. The spatial distribution of Cd, Cr and Cu had large deviation. Pearson correlative analysis indicated that there were significant positive correlation between Cu and Ni (P<0.01), Cr and Cu (P<0.05), Pb and organic matter (P<0.05). Principle component analysis indicated that human activities contributed 33.050% of the heavy metals accumulation in street dust, and nature factors contributed 57.315%. Heavy metals pollution in urban street dust of Tianjin mainly affected by the multi-factors, traffic and industrial activities were the important pollution sources of them.
