长江干流沿江地区土壤重金属的分布、来源及潜在生态风险

为掌握长江干流沿江地区土壤重金属状况,开展土壤表层样品采集和重金属空间分布研究,使用PMF（positive matrix factorization）模型解析土壤重金属来源,并选取地累积和潜在生态风险等方法,评估重金属的污染状况和生态风险。结果表明：1）土壤重金属的积累程度不同,As、Cd和Cu的超标率高,污染明显。Cd和Cu的变异系数高于1.0,分布不匀,受某些污染源的影响显著。2）各重金属含量呈现条带状的空间格局,在多个地区出现高值,土壤环境质量受到人类活动的负面影响。3）土壤重金属积累主要来源于自然、工业排放、交通运输和农业生产,贡献率分别为36.65%、28.48%、20.07%和14.80%。其中Cd与工业活动有关,Pb和Zn来自交通排放,Cr和Ni与自然源密切相关,As和Cu来源于农业生产。4）Cd的污染程度最高,81.88%的点位达到轻度污染。40%以上的点位受到As、Cu、Ni和Pb污染。75%以上点位的Cr和Zn含量较低,污染程度不高。单项生态风险指数的均值从大到小依次为：Cd、As、Ni、Cu、Pb、Zn、Cr。综合生态风险指数均值为63.17,处于轻微风险水平。该研究作为土壤生态调查的核心,可为土壤环境管理和重金属污染修复提供科学依据。     

电镀厂附近土壤重金属污染特征及其对微生物与酶活性的影响

通过野外调查和室内分析,对苏南某电镀厂附近旱地土壤重金属的时空变化特征及其对土壤微生物与酶活性的影响进行了研究。结果表明,研究区域土壤重金属Zn和Cu的全量与DTPA提取态含量形成明显以电镀厂为中心的扩散梯度分布,皆随距电镀厂距离的增加,浓度逐渐降低,其中Zn的全量由最高值1305mg.kg-1降至最低值273mg.kg-1。由于电镀厂重金属污染物的作用,研究样点表层土壤Zn的浓度逐年增加,土壤Zn含量明显高于前期研究结果,且都达到污染水平,最高超标4.2倍,表明近年来Zn向土壤的扩散速度较快。研究区域土壤过氧化氢酶活性与提取态Zn呈显著正相关（P=0.016）,表现为激活;土壤微生物群落功能多样性及脱氢酶的活性与土壤重金属Zn的相关性不显著。因此,在研究区域微生物群落功能多样性与脱氢酶的活性不能用来指示土壤Zn污染。     

Multiple Metal Resistant Transferable Phenotypes in Bacteria as Indicators of Soil Contamination with Heavy Metals (6 pp)

Background, Aim and Scope   Environmental contamination by heavy metals affects microbial communities. The number of single and multiple heavy metal resistant bacteria may be an indictor of the level of contamination. This paper details the isolation and characterisation of metal resistant microorganisms isolated from rhizosphere/soil samples obtained from an abandoned zinc, lead and copper mine and a local unaffected site. This data was compared to the level of heavy metal in the soils to establish the effect of metals on the microbial community and to determine the relationship between pollutant levels and resistant strains. This paper outlines the diversity of transferable resistance determinants between both sites and details the levels of heavy metal resistant bacteria and those expressing transferable multiple heavy metal tolerance.Methods   The sample sites were located in Co. Galway, Ireland. The first sample site (site A) was a former lead, zinc and copper mine, which was closed in 1961 due to exhaustion of ore. The second site (site B) was located two and a half kilometres from the mining site and was not affected by the mining operations. Composite soil samples were characterised for general soil matrix composition, organic content, pH and general chemical parameters. The soil was also enumerated for the total viable heterotrophic counts and tested on Pseudomonas selective agar (PSA) for total Pseudomonas counts and Sucrose Asparagine (SA), which is semi-selective for fluorescent Pseudomonas.Results and Discussion   Samples from both site A and site B were analysed by atomic absorption spectrophotometry for the presence of heavy metals. In the case of copper, which has a Dutch list recommended minimum permissible level of 190 µg/Kg dry weight, the levels detected at site A were 1270 µg/Kg dry weight while site B was detected at 36 µg/Kg. The arsenic levels detected at site A were eight times the permissible level (416 µg/Kg) while only half the permissible level was found at site B (13 µg/Kg). Zinc concentrations were also high at site A (4460 µg/Kg) while at site B (553 µg/Kg) they were well below the Dutchlist guidelines (720 µg/Kg). A large number of heavy metal tolerant strains were isolated from both sites. 270 isolates (site A (170) and site B (100)) were screened against 8 metals to examine the extent of multiple resistance. 82% of the strains from site A were found to be resistant to 5 metals. A total of 18% showed resistance to all 8 metals and of those examined only 4% were resistant to only one metal. In contrast isolates from site B showed no multiple resistance to more than 5 metals, while 62% showed resistance to individual metals only. Site A had a higher level of multiple heavy metal resistance strains. Stains isolated from site A had 23 (14%) isolates resistant to zinc, copper, nickel, arsenic and cobalt and site B had no bacteria resistant to all five of these selected metals. The transferability of heavy metal resistance was investigated in the case of 60 multiple heavy metal resistant isolates taken from site A and 50 multiple resistance isolates from site B. Transfer was only detected in isolates from site A, 13% showed transfer and expression of copper, zinc and arsenic resistance determinants. In most cases the transconjugants only expressed resistance to copper, zinc and arsenic, which were the metals, used for selection. This co-transfer of all three determinants suggests a genetic link between these resistance determinants.Conclusion   Heavy metal resistant bacteria are present in both sites, however, the number and presence of multiple transferable resistance phenotypes are confined to the isolates from the heavy metal contaminated site. The presence of high levels of heavy metals selects these multiple resistance phenotypes. Within these communities there seems to be little diversity between the microorganisms, which provides a hugely preferable environment for gene transfer of such metal resistant determinants.Recommendation and Perspective   The experiments have shown a microbes ability to mobilize heavy metal determinants and a relationship between heavy metal resistance and metal contamination has been identified These multiple heavy metal resistant bacteria could eventually be used for detection and qualification of the level of heavy metal-polluted soil/water environments.     

利用Illumina高通量测序对复合重金属污染下根际和非根际稻田土壤细菌的研究

There is an increasing concern about rice (Oryza sativa L.) soil microbiomes under the influence of mixed heavy metal contamination.We used the high-throughput Illumina MiSeq sequencing approach to explore the bacterial diversity and community composition of soils in four paddy fields,exhibiting four degrees of mixed heavy metal (Cd,Pb and Zn) pollution,and examined the effects of these metals on the bacterial communities.Our results showed that up to 2 104 to 4 359 bacterial operational taxonomic units (OTUs) were found in the bulk and rhizosphere soils of the paddy fields,with the dominant bacterial phyla (greater than 1％ of the overall community) including Proteobacteria,Actinobacteria,Firmicutes,Acidobacteria,Gemmatimonadetes,Chloroflexi,Bacteroidetes and Nitrospirae.A number of rare and candidate bacterial groups were also detected,and Saprospirales,HOC36,SC-I-84 and Anaerospora were rarely detected in rice paddy soils.Venn diagram analysis showed that 174 bacterial OTUs were shared among the bulk soils with four pollution degrees.Rice rhizosphere soils displayed higher bacterial diversity indices (ACE and Chao 1) and more unique OTUs than bulk soils.Total Cd and Zn in the soils were significantly negatively correlated with ACE and Chao 1,respectively,and the Mantel test suggested that total Pb,total Zn,pH,total nitrogen and total phosphorus significantly affected the community structure.Overall,these results provided baseline data for the bacterial communities in bulk and rhizosphere soils of paddy fields contaminated with mixed heavy metals.     

贵阳市城区土壤重金属分布特征及污染评价

调查了贵阳市不同功能区表层土壤中重金属含量及其分布特征,以基线为参比值,采用Hakanson潜在生态危害指数法对重金属的潜在生态风险进行了评价。结果表明,贵阳市城区土壤重金属(Hg、Cd、As、Pb、Cr、Cu、Ni、Zn)主要来源于工业、交通以及燃煤等活动,其平均含量分别为0.108、0.320、20.53、22.17、35.71、64.87、48.65、217.90mg/kg,除Cr外,均显著高于相应基线。工矿区土壤中Pb、Zn含量显著高于其他功能区(p0.05)。Hg和Cd是主要的生态危害因子,其污染已达强生态危害水平,其余均显示为轻微生态危害水平;不同功能区土壤重金属污染均已达强生态危害水平,且污染程度依次是:商务区工矿区文教区居民区城市绿地交通区。     

长江三角洲地区土壤盐酸可提取态重金属含量的空间变异特征

以江苏昆山市为典型区,对长三角地区土壤盐酸可提取态重金属含量的结构特征进行分析,得出该区盐酸可提取态重金属的空间分布格局并揭示了引起这种分布格局的成因和污染来源,结果表明：昆山市盐酸可提取态Cd、Cr、Cu、Pb、Zn、Hg属强变异,Ni和Co为中等变异。半方差函数模型拟合表明所有盐酸可提取态重金属元素均符合球状模型,8种重金属元素在一定范围内均存在空间相关性。采用Kriging最优内插法得到了盐酸可提取态重金属含量的空间分布格局,表明土壤盐酸可提取态重金属含量与工业活动、污水灌溉和大气降尘密切相关。通过主成分分析与地统计学相结合的方法,得出该区盐酸可提取态重金属由4个主成分构成,第一主成分为Cd、Cu、Pb、Cr和Zn,决定这一成分的主要因素为工业污水灌溉、大气降尘和元素地球化学特征;第二主成分为Ni,决定这一成分的主要因素为土壤内部因子;第三主成分为Hg,该成分主要受工业点源污染的影响;第四主成分为Co,该成分可能主要受地形影响。     

Application of remediation techniques for immobilization of metals in soils contaminated by a pyrite tailing spill in Spain

Abstract. Remediation techniques for soil pollution have been studied in the aftermath of a tailing spill from a pyrite-mine holding pond in Aznalcóllar (southwest Spain). Given the extent of the accident and the characteristics of the affected area, we conclude that, after the removal of the tailings, the only feasible remediation measure involves chemical immobilization of the pollutants. The best treatment tested proved to be liming in combination with amendment materials such as soils rich in iron oxides and clay. Monitoring for 3 years has demonstrated that the system is effective for reducing the solubility of the most mobile forms of the main pollutant elements, although further monitoring is recommended.     

城乡交错带河流表层沉积物重金属污染及潜在生态风险评价

针对城乡交错带河流表层沉积物重金属污染问题,以成都市江安河为例进行污染分析和潜在生态风险评价。选取何家湾、马家市、金花桥、凉港大桥4个断面进行沉积物取样,测定其Cu、Pb、Cr、Ni、Mn、Zn、Cd共7种重金属元素的含量,并采用地积累指数法和Hakanson指数法进行重金属污染级数分析及潜在生态风险评价。研究表明:何家湾受到Zn中度污染,马家市、金花桥、凉港大桥受到Zn轻度污染,何家湾、金花桥和凉港大桥受到Cu和Cr轻度污染。潜在生态风险指数由大到小为何家湾 > 凉港大桥 > 金花桥 > 马家市,均小于40,属轻微生态风险。城市化所带来的重金属污染初见端倪,污染分布和生态风险与沿岸工农业生产分布和城市化进程相关。城乡交错带在城市化进程中应开展环境整治并加强环境管理。     

受土壤类型和金属负荷量影响的重金属形态分布

Two series of soil subsamples, by spiking copper(Cu),lead(Pb),zinc(Zn)and cadmium(Cd)in an orthogonal design,were prepared using red soil and brown soil,respectively.The results indicated that heavy metal fractions in these soil subsamples depended not only on soil types,but also on metal loading quantity as well as on interactions among metals in soil.Lead and Cu in red soil appeared mostly in weakly specifically adsorbed(WSA),Fe and Mn oxides bound(OX),and residual(RES)fractions.Zine cxisted in all fractions except organic bound one,and Cd was major in water soluble plus exchangeable(SE)one.Different from the results of red soil,Pb and Cu was present in brown soil in all fractions except organic one,but over 75% of Zn and 90% of Cd existed only in SE fraction.Meanwhile,SE fraction for any metal in red soil was lower than that in brown soil and WSA and OX fractions were higher.It is in agreernent with low cation exchange capacity and large amounts of metal oxides included in red soil.Metal fractions in soil,especially for water soluble plus exchangeable one ,were obviously influenced by other coexisting metals.The SE fraction of heavy metals increased with increasing loading amounts of metals in red soil but not obviously in brown soil,which suggest that metal availability be easily affected by their total amounts spiked in red soil.In addition,more metals in red soil were extracted with 0.20 mol L^-1 NH4Cl（pH5.40）than that with 1.0 mol L^-1 Mg(NO3)2(pH7.0),but the reverse happened in brown soil,implicating significantly different mechanisms of metal desorption from red soil and brown soil.     

闽西南崩岗土壤重金属含量、分布、来源及生态风险

选取福建省长汀县黄泥坑崩岗群内2处典型崩岗及附近一无崩岗山坡(对照区),采样并测定了63份0~20 cm土壤样品Cu、Zn、Ni、Pb、Cr、As、Cd含量,运用相关分析与主成分分析进行重金属来源辨识,并应用Hankanson潜在生态风险指数法,以福建省背景值和国家二级标准作为参比,对研究区重金属进行潜在生态风险评价。结果表明:研究区土壤重金属含量从高到低的顺序依次为Zn(105.56 mg·kg~(-1))Pb(67.21 mg·kg~(-1))As(61.47 mg·kg~(-1))Cu(22.33 mg·kg~(-1))Cr(17.12 mg·kg~(-1))Ni(5.24 mg·kg~(-1))Cd(0.80 mg·kg~(-1)),Pb、Cd含量表现为崩岗区对照区,Cu、Zn、Ni、Cr、As、Cd含量与之相反。1号崩岗Zn、Pb、As和Cd平均值分别是福建省背景值的1.12倍、2.82倍、8.68倍和13.33倍,2号崩岗这4种元素平均值分别是背景值的1.11倍、1.36倍、11.22倍和16.67倍,对照区该4种元素平均值分别是背景值的1.58倍、1.60倍、5.14倍和14.44倍;与国家土壤环境质量二级标准比较得出,崩岗区和对照区As平均值分别超标1.92倍和2.70倍,Cd平均值分别超标2.31倍和2.60倍。从集水坡面到沟道末端,崩岗区Pb、Zn、Cd含量呈增加趋势,Cu、Cr含量基本维持稳定,Ni含量有所降低;从坡面上部到下部,对照区Cu、Zn、Ni、Cr、Cd含量呈增加趋势,Pb含量略有降低;As含量在研究区的分布无明显变化。Cu、Ni、Cr主要来源为成土母质,Zn主要来源于禽畜养殖,Cd、As的主要来源包基岩风化稀土开采,Pb主要来源于基岩矿化、煤炭燃烧及汽车尾气排放等复合污染源。以福建省背景值为参比时,Cd潜在生态风险系数达到"极强风险",As为"较强风险",其余均为"轻微风险";以国家二级标准为参比时,Cd属"较强风险",其余均为"轻微风险"。潜在生态风险指数(Ri)表现为2号崩岗对照区1号崩岗。研究区Cd、As污染已较为严重,应采取相应的安全防范措施。     

天水市蔬菜大棚土壤重金属污染特征及生态风险评价

[目的]对甘肃省天水市蔬菜大棚土壤重金属污染程度和生态风险进行评价,为该地区设施农产品安全生产提供科学依据.[方法]以天水市大棚蔬菜主产区21个乡镇的362个土壤样品为研究对象,用电感耦合等离子体质谱仪(ICP-MS)测定As,Ni,Cu,Zn,Cd,Pb,Hg含量,采用内梅罗综合污染指数和潜在生态风险指数对蔬菜大棚土...     

运城市村级农业土壤重金属的空间分布与原因分析

通过检测运城市南薛村农业土壤8种重金属(Cu、Zn、Cr、Cd、Pb、Ni、As、Hg)含量,分析研究区内重金属空间分布特征和原因。与国家土壤环境标准的二级标准相比,Hg和Ni的超标率分别为16.50%和12.62%,Cd、Pb、As均未超标。按单项污染指数进行评价,主要污染物是Hg,污染指数为1.58,处于轻度污染级别,其余重金属的单项污染指数均小于1,处在安全域内。按内梅罗综合污染指数评价,61.65%的农业土壤重金属污染程度处于安全水平,18.45%的土壤处在警戒线上,15.53%的土壤为中度污染和严重污染,只有个别土壤属轻污染。Zn、Cr、Ni和As的块金效应介于25%~75%之间,同时受农药、化肥和母质因素的影响;Cu、Cd、Pb和Hg的块金效应大于75%,分别受粪肥、污水、汽车尾气和居民生活的影响。8种重金属含量空间分布差异显著,主要原因是不同地块间的生产方式不同,该研究对于试验区农业资源的合理配置、农业生产的科学管理和农产品的安全生产具有重要的指导意义。     

肥料重金属含量状况及施肥对土壤和作物重金属富集的影响

本文对肥料中重金属的含量状况以及施肥对土壤和农作物重金属累积影响的研究进展进行了系统分析和总结。过磷酸钙中锌（Zn）、 铜（Cu）、 镉（Cd）、 铅（Pb）含量高于氮肥、 钾肥和三元复合肥,有机-无机复混肥料中的Pb含量高于其他化肥。有机肥如畜禽粪便、 污泥及其堆肥中的重金属含量高于化肥,猪粪中的Cu、 Zn、 砷（As）、 Cd含量明显高于其他有机废弃物,鸡粪中铬（Cr）含量高;污泥和垃圾堆肥中Pb或汞（Hg）含量高。商品有机肥Zn、 Pb和镍（Ni）含量高于堆肥,Hg含量高于畜禽粪便。多数研究表明,氮磷钾配施与不施肥相比土壤Cd和Pb含量增加,施用有机肥比不施肥提高土壤Cu、 Zn、 Pb、 Cd含量。施用化肥对农作物重金属富集的影响不明确,而施用有机肥可提高作物可食部位Cu、 Zn、 Cd、 Pb 的含量,影响大小与有机肥种类、 用量、 土壤类型和pH以及作物种类等有很大关系。在今后的研究中应着重以下几个方面, 1）典型种植体系下土壤重金属的投入/产出平衡; 2）不同种植体系下长期不同施肥措施对土壤重金属含量、 有效性影响的动态趋势; 3）典型种植体系和施肥措施下土壤对重金属的最高承载年限; 4）现有施肥措施下肥料中重金属的最高限量标准。     

长江中下游小麦产量、土壤酶活性及微生物群落结构对磷肥减施的响应

[目的]在"化肥零增长"背景下,探究磷肥减施对小麦产量及土壤质量的影响,为长江流域中下游地区磷肥减施提供科学依据.[方法]在湖北和浙江麦区,采用种肥同播技术进行田间试验,设置5个处理:1)不施磷肥(CK);2)习惯施磷量(FP);3)习惯施磷量80％(P80);4)习惯施磷量60％(P60);5)习惯施磷量60％+解磷...     

辽河干流坝间耕地土壤重金属污染特征研究

通过对辽河干流坝间10个断面耕地土壤0~5 cm、5~15 cm、15~30 cm沉积层重金属铜、镉、锌、铅含量测定,评价了该区土壤重金属污染程度,并采用地质累积指数法评价单一重金属污染状况与潜在生态危害指数,综合评价重金属生态危害程度。研究结果表明,该区土壤铜、铅、锌与镉含量均值分别为32.42 mg?kg~(-1)、38.23 mg?kg~(-1)、47.35 mg?kg~(-1)和1.625 mg?kg~(-1);铅、锌含量均值在达牛渡口最大,分别为55.54 mg?kg~(-1)和80.51 mg?kg~(-1);铜、镉含量均值在通江口处最大,分别为50.24 mg?kg~(-1)和3.103 mg?kg~(-1)。除镉外,铅、铜、锌含量各断面不同深度浓度均低于全国土壤环境质量Ⅱ级标准,镉含量均值是全国土壤环境质量Ⅱ级标准的1.70倍,最大值为3.402 mg?kg~(-1);辽河大桥上游干流镉含量是下游镉含量的6.47倍。镉的地质累积指数值在坝间均显污染,其中,辽河大桥以上各断面显强污染。通江口至毓宝台特大桥重金属潜在生态风险指数值最强。各断面镉对多种金属潜在生态风险指数值的贡献达78.77%~98.23%,贡献率与潜在生态危害指数(RI)呈正相关。多种重金属潜在生态风险指数值变化趋势与镉地质积累指数分布趋势相同,最大值出现于通江口断面。     

基于涡度相关法的长江中下游稻田水分利用效率变化规律

揭示水稻生态系统水分利用效率（Water Use Efficiency,WUE）的变化规律,有助于动态评价稻田水碳循环过程和农业用水效益。该研究利用涡度相关法得到中国长江中下游双季稻田的3年通量数据,研究生态系统尺度的稻田WUE季节变化规律及其年际差异,揭示生态系统夜间呼吸消耗对稻田水分利用的影响,阐明WUE与净生态系统生产力（Net Ecosystem Productivity,NEP）和ET的关系。结果表明：双季稻WUE季节尺度变化特征与NEP基本一致,呈现出先增大、后减小的趋势,表明其季节变化由NEP主导,取决于作物自身以生育期为尺度的生长发育规律。早、晚稻日均WUE均在拔节孕穗期达到峰值,且在生长中期均维持较高水平,日均WUE分别达到5.8、5.5 g/kg。早、晚稻全生育期WUE均值分别为(3.3±0.3)、(3.4±0.4) g/kg,生态系统夜间呼吸消耗使WUE下降40%以上。不同稻季WUE的年际差异达到9.2%～12.4%,其中抽穗开花期差异最大。不同纬度的稻田WUE存在差异,该研究得到的中国长江中下游稻田WUE高于菲律宾、巴西等热带地区稻田,但低于中国东北辽河三角洲稻田,与小麦、玉米等农田生态系统相比,稻田WUE也较低。研究结果可为评价中国长江中下游稻作区农业用水效率以及优化水碳管理模式提供依据。     

Accumulation and potential sources of heavy metals in soils of the Hetao area, Inner Mongolia, China

Soil contamination by heavy metals is a problem in agricultural irrigation systems.To assess the accumulation and sources of heavy metals in the Yongji irrigation district of the Hetao area,Inner Mongolia,China,195 soil samples from 39 sites(0–100 cm)were collected,and Zn,Cu,Pb,Cr,and Cd concentrations were analyzed.The mean concentrations were 107.17,32.48,12.31,53.53,and 0.22 mg kg-1,respectively,with no significant differences between soil depths(P>0.05).Concentrations of Zn,Cu,and Cd were higher than the background levels,with moderate accumulation;the contamination factor(CF)values were 1.9,1.7,and 1.9,respectively,and the geoaccumulation index(Igeo)was>0.Concentrations of Pb and Cr were lower than,or close to,the background levels(CF<1,Igeo<0),indicating that they originated from a natural source.The monomial potential ecological risk index(Eri)for Zn,Cu,Pb,and Cr was low;Eri for Cd was 55.73,implying a moderate risk.The grade of potential ecological risk index of the five heavy metals(RI)was low,declining from south to north.The studied soils were contaminated with Zn,Cu,and Cd;principal component(PC)analysis implicated the enrichment of Cd and partial Cu(high loading in PC 2)was related to agricultural activities;Zn and partial Cu,closely associated with PC 3,may have originated from irrigation water from the Yellow River.Future agricultural development should focus on fertilizer and pesticide application and the quality of irrigation water.     

拉林河流域土壤重金属污染特征及来源解析

该文选取拉林河流域表层土壤为研究对象,通过对土壤重金属的含量和空间分布分析、污染评价、以及潜在生态风险评价,了解土壤重金属的分布特征和污染现状,并利用正定矩阵因子分解法（PMF）探索土壤重金属污染的来源。结果表明,表层土壤中Cr、As、Pb、Cu、Zn、Ni、Mn、V的平均含量均低于背景值,Co和Se略微高于背景值,部分土壤样点Cd和Ni超过国家土壤环境质量标准的二级标准。研究区土壤污染的主要金属元素为Cd和Hg,地累积指数表明受到污染的样品比例分别达到45.1%和37.0%,其潜在生态危害指数平均值分别为49.83和70.29。根据PMF计算结果,拉林河流域表层土壤重金属累积主要受自然源、农药肥料源、工业排放源的影响。其中,自然本底对研究区土壤中重金属的影响最大,贡献率为38.0%,其次是农药和肥料施用,贡献率为32.6%,燃煤和工业排放源的贡献率稍低,为29.4%。     

环境与人为因子对水稻土有机质变化的影响——以长江中下游平原为例

Changes in soil organic matter (SOM) can affect food security,soil and water conservation,and climate change.However,the drivers of changes in SOM in paddy soils of China are not fully understood because the effects of agricultural management and environmental factors are studied separately.Soil,climate,terrain,and agricultural management data from 6 counties selected based on representative soil types and cropping systems in China were used in correlation analysis,analysis of variance,and cforest modeling to analyze the drivers of changes in SOM in paddy soils in the Middle and Lower Yangtze River Plain from 1980 to 2011.The aims of this study were to identify the main factors driving the changes in SOM and to quantitatively evaluate their individual impacts.Results showed that the paddy SOM stock in the study area increased by 12.5％ at an average rate of 0.023 kg m-2 year-1 over the 31-year study period.As a result of long-term rice planting,agricultural management practices had a greater influence than soil properties,climate,and terrain.Among the major drivers,straw incorporation,the most influential driver,together with fertilization and tillage practices,significantly increased the accumulation of SOM,while an increase in temperature significantly influenced SOM decomposition.Therefore,to confront the challenge of rising temperatures,it is important to strengthen the positive effects of agricultural management.Rational fertilizer use for stabilizing grain production and crop straw incorporation are promising measures for potential carbon sequestration in this region.     

汾河太原段土壤中Hg、Cr空间分布与污染评价

为了探明汾河太原段土壤中Hg、Cr污染情况,在GIS支持下,运用地统计学方法,测定分析了汾河太原段两岸土壤中重金属Hg、Cr的含量和空间分布特征,采用单因子法对土壤中Cr、Hg的污染进行评价。结果表明：汾河太原段土壤中Hg含量高于山西省土壤背景值和中国土壤背景值,Cr含量与背景值相当;土壤中Hg和Cr半方差函数模型为高斯模型,属于空间中等程度相关,Hg和Cr有相似的空间分布格局,总体分布趋势为北中部和南部地区相对较高,北部和中南部相对较小;污染评价表明Hg污染较Cr污染严重,但所有土壤Hg含量均在国家土壤环境质量二级标准之内;土壤Hg、Cr污染防治应结合其空间分布格局和区域污染特征综合考虑。