镇江地区土壤中重金属Cu和Pb污染状况与空间分布

为了锯镇江地区土壤中重金属Cu和Ph的污染状况与空间分布，对镇江地区表层土壤中的Cu和Pb进行了采样监测。结果表明，镇江地区表层土壤中cu的含量为19．2～273mg／kg，Pb的含量为20．6～3846mg／kg。与全省土壤背景值相比，均有一定程度的富集。对cu和Pb的相互关系进行分析可得出，镇江地区土壤在一定程度上受到农业面源的污染。     

污灌农田土壤镉污染状况及分布特征研究

对沈阳郊区某河沿岸部分乡镇的污灌农田土壤中重金属全镉含量进行了分析,评价了土壤镉污染状况,并探讨了该河沿岸土壤中镉的沿程分布特征、横向分布特征和垂向分布特征.结果表明,农田土壤重金属镉含量范围为0.15～8.23mg/kg,均值为1.75mg/kg.用土壤环境质量标准二级标准值对土壤中的全镉含量进行评价,平均镉污染指数为5.95,为重度污染;用土壤背景值标准评价,平均镉污染指数为5.95,超过当地背景值水平8.39倍,污灌已造成该地区重金属镉污染,且污染程度十分严重.该河渠从上游到下游,沿岸土壤镉含量呈降低趋势;横向分布上,距离该河渠越远,镉含量有逐渐减少的趋势;垂向分布上,表层土壤镉含量最高.     

乌鲁木齐市米东污灌区农田土壤重金属污染评价

对米东污灌区农田土壤重金属含量进行监测分析,利用不同的评价方法和标准对土壤重金属的环境质量进行评价。结果表明:米东污灌区农田土壤重金属含量分别为Cd(0.12±0.06)mg/kg,Cu(40.43±5.30)mg/kg,Zn(78.38±11.04)mg/kg,Pb(11.66±11.79)mg/kg,Ni(20.24±8.05)mg/kg,Cr(75.81±8.05)mg/kg。以国家土壤环境质量标准(二级)为标准评价,各元素的污染指数排序为Cu>Ni>Cr>Zn>Cd>Pb,综合污染指数为0.337,污染程度为安全。以食用农产品产地土壤环境质量要求为标准评价,各元素的污染指数排序为Cu>Ni>Cr>Zn>Cd>Pb,综合污染指数为0.343,污染程度为安全。表明米东污灌区农田土壤重金属含量尚能达到食用农产品产地土壤环境质量要求。Pb、Cu、Zn的平均含量超过乌鲁木齐市土壤背景值,这说明污灌区土壤重金属Pb、Cu、Zn近年来已有所累积,存在一定的污染风险。     

濮阳工业园区土壤重金属背景值及质量评价

为了研究濮阳工业园区土壤重金属背景值,采集了该园区及周边土壤46个样品,测定了土壤中重金属Cu、Zn、Pb、Cr、Cd和Ni的含量,并采用污染负荷指数法和潜在生态危害指数法对土壤质量进行了评价。结果表明:工业园区土壤中Cu、Zn、Pb、Cr、Cd、Ni的背景值分别为36.2、118、49.2、40.6、0.125、15.3 mg/kg;Cu、Zn、Pb、Cd的含量高于河南省土壤重金属背景值;Pb为极强污染,Cu、Zn、Cd为中等污染,重金属污染程度从重到轻的排序为PbZnCuCd,表明濮阳工业园区土壤重金属具有轻微的潜在生态危害。     

贵州省部分地区土壤中酞酸酯类污染现状调查

对贵州省部分地区表层土壤中酞酸酯类的污染状况进行了调查。分别在遵义地区、黔南地区、黔东南地区和毕节地区采集483个土壤样品分析,结果表明,样品中酞酸酯总质量比(ΣPAEs)为未检出~8.22 mg/kg,均值为0.63 mg/kg。其中DEHP和DBP为主要污染物,均值分别为0.32 mg/kg和0.24 mg/kg,检出率分别为90.89%和97.10%。     

闽东某钼矿周边农田土壤钼和重金属的污染状况

调查了闽东某钼矿周边农田土壤和稻米钼及重金属的污染状况,对土壤钼的人体健康风险进行了评价,探讨了土壤钼的安全阈值。结果表明,部分土壤遭受了铜和镉的污染,以轻度污染为主;部分稻米出现镍和镉的污染,以轻度污染为主;土壤全钼含量为3.30~325.6 mg/kg,最高值高出福建省土壤中钼的环境背景值87倍,说明该区土壤已遭受严重的钼污染。稻米钼含量为0.58~12.04 mg/kg,对人体具有很高的健康风险;根据稻米钼含量与土壤钼含量之间的关系和人体健康风险评价结果,推算出土壤中钼(全钼)的安全阈值不高于4.51 mg/kg。     

某灌区土壤中重金属镉污染调查

对沈阳市郊某污灌区土壤中重金属镉的污染状况进行了调查.结果表明,2000年土壤中镉质量比为0.23 mg/kg～5.55 mg/kg,最高值超标17.5倍;平均值为2.02 mg/kg,属严重污染,污染程度仍处在停耕前水平;污灌区土壤镉含量与土壤深度有关,深度为16 cm～30 cm污染最重,51 cm～80 cm污染最轻.     

镇江地区土壤样品中重金属Cd含量与空间分布

通过对镇江地区土壤样品中 Cd 监测结果统计分析表明，全市69个样品中 Cd 质量比范围为0．06 mg/kg ～1．37 mg/kg，均值为0．23 mg/kg，与全国背景值相比，有一定程度富集；样品中 Cd 质量比成偏态分布，相对标准偏差较大。选用单项污染指数法对 Cd污染程度评价表明，镇江地区83％的土壤样品未受到 Cd 污染，14％为轻度污染，3％为中度污染。结合镇江地区的产业结构分析，电镀行业是土壤 Cd 污染的主要来源，道路运输、农药化肥在一定程度上也加重了污染。     

油菜对铅镉污染土壤的修复效果研究

文章通过盆栽实验分析油菜在不同浓度下对土壤中铅、镉的富集能力,分别配制Pb+Cd浓度为0mg/kg+0mg/kg、200mg/kg+5mg/kg、500mg/kg+10mg/kg、1000mg/kg+15mg/kg、1500mg/kg+20mg/kg的5种模拟污染土壤,种植油菜5个月后收获,通过测定土壤中Pb、Cd的浓度,油菜地上部分、地下部分Pb、Cd的含量,油菜各部位的转运系数和富集系数,结果表明:油菜对土壤Pb、Cd污染具有一定的耐性,在土壤Pb浓度0~200mg/kg、Cd浓度0~5mg/kg范围内,对油菜的生长有促进作用。在土壤Pb浓度200~1500mg/kg、Cd浓度5~20mg/kg范围内,对油菜的生长有抑制作用。油菜根部、茎叶中和籽粒中对Pb的富集系数分别为8.92、11.19和7.66,对Cd的富集系数分别为59.01、80.44和52.42,油菜茎叶对Pb、Cd的富集能力最强。     

三峡库区重庆段淹没区土壤重金属分布及评价

三峡库区重庆段淹没区土壤重金属含量均低于国家土壤环境标准三级,其中铜含量范围为10.7~80.2mg/kg,均值为37.0 mg/kg;铅含量范围为14.6~51.8mg/kg,均值为29.3mg/kg;锌含量范围为47.5~93.3mg/kg,均值为72.7mg/kg;镉含量范围为0.084~0.765mg/kg,均值为0.321mg/kg;汞含量范围为0.032~0.204mg/kg,均值为0.059mg/kg;砷含量范围为4.63~12.7mg/kg,均值为8.65mg/kg。三峡库区淹没区土壤主要受镉铜污染和铅镉污染。     

乌鲁木齐表层土壤中氟元素的分布特征

研究了乌鲁木齐市不同功能区表层土壤中水溶性氟（Ws-F）的含量。结果表明：土壤Ws-F平均含量为5.36 mg/kg,变幅为1.55~12.53 mg/kg。其中,工业区（7.13 mg/kg）〉绿化区（5.73 mg/kg）〉商业区（5.71 mg/kg）〉居民区（4.93 mg/kg）〉农业区（3.08 mg/kg）。乌鲁木齐市土壤中Ws-F含量已高于我国地氟病发生区表层土壤Ws-F的平均值（2.50 mg/kg）,应引起有关部门的高度重视。     

上海市土壤氟含量风险管控限值探讨

受工业活动影响,上海市典型工业区表层土壤氟中位值普遍高于"七五"背景值。针对工业企业场地土壤氟化物高值现象,目前仍缺乏相关的管理标准体系,且基于总量的评估分析方法已无法满足日益增长的精细化管理需求。详细梳理了国内外氟化物相关标准体系,并对上海市土壤氟限值进行了探讨。基于上海市典型工业场地特征参数计算得到的土壤氟化物筛选值高于上海市土壤"七五"背景值,与上海市工业场地调查得到的土壤氟化物高值基本持平;第一类、第二类用地的氟化物筛选建议值分别为1 980、10 000 mg/kg。与氟化物相比,水溶态氟化物是影响作物体内氟含量的重要因素,且在淋溶等作用下会对地下水安全构成威胁。考虑到水溶态氟化物的环境行为与风险,建议针对农田土壤开展水溶性氟化物含量限值研究。     

铜陵市义安区蔬菜产地镉污染调查与评价

通过在铜陵市义安区5个乡镇点对点采集蔬菜及土壤样品,分析其中镉含量,并运用土壤及农产品综合质量影响指数(IICQ)对蔬菜产地镉污染状况作评价。结果表明,义安区蔬菜产地土壤镉平均值为0.56 mg/kg,高于背景值。32.5%的土壤样品镉质量比高于风险筛选值而低于风险管制值,7.5%的样品镉质量比高于风险管制值,集中在D乡镇。8种蔬菜样品的IICQ范围在0.01～7.34之间,D乡镇的污染程度最严重。蔬菜镉富集系数存在差异性,叶菜类较块茎类对镉的吸收能力更强,蔬菜产地蔬菜样品整体符合安全食用标准。     

Risk assessment and distribution of soil Pb in Guangdong, China

In this study, the spatial distributions of soil lead (Pb) concentration in three horizontal soils in Guangdong, China, were surveyed and analyzed using geostatistics and geography information systems (GIS). Findings indicated that the Pb geometric mean concentration of 23.3 mg/kg in surface soils was found to be higher than those in global soils, which ranged from 2.3–235 mg/kg. In addition, the Pb geometric mean concentrations from A- to C-horizon were found to be 23.3, 27.2, and 28.6 mg/kg, respectively. The classification of a soil Pb environmental risk in an area was likewise presented based on the different levels of environmental quality of Pb and was done by GIS technology. Accordingly, there is a higher local concentration of Pb in the surrounding areas of Guangzhou where there is higher population density and in the north of Guangdong, which is a historic mining area. The results obtained by the environmental risk assessment reveal that about 46% of total surveyed area was above the background value, that is, 2.7% of the total area was at risk of pollution.     

Organic pollutants in compost and digestate. Part 2. Polychlorinated dibenzo-p-dioxins, and -furans, dioxin-like polychlorinated biphenyls, brominated flame retardants, perfluorinated alkyl substances, pesticides, and other compounds

Compost and digestate are important recycling fertilizers and have beneficial effects on soil parameters. However, they can contain significant amounts of organic pollutants. Here, the first comprehensive data set on dibenzo-p-dioxins and -furans (PCDD/F), dioxin-like polychlorinated biphenyls (DL-PCB), brominated flame retardants, perfluorinated alkyl substances (PFAS), pesticides, phthalates, nonylphenol and chlorinated paraffins (CP) in source-separated compost and digestate from Switzerland is presented (n = 3-18). The median summation 17PCDD/F and summation 12DL-PCB concentrations were at 3.2 ng I-TEQ kg(-1)dry weight (dw) and 3.0 ng WHO-TEQ kg(-1)dw, respectively. Brominated diphenyl ether 209 (BDE 209) accounted for 72% of the total polyBDE content (10 microg kg(-1)dw). Hexabromocyclododecane (HBCD) and tetrabromobisphenol A (TBBPA) levels were at 100 and 0.51 microg kg(-1)dw, respectively. PFAS were identified for the first time in compost and digestate (median concentration 6.3 microg kg(-1)dw, summation 21compounds). Out of 269 pesticides analysed, 30 fungicides, 14 herbicides, eight insecticides and one acaricide were detected. Di-(2-ethylhexyl)phthalate (DEHP) median concentration accounted for 280 microg kg(-1)dw and nonylphenol was below the detection limit of 1 mg kg(-1)dw. The sum of short and medium chain CP was between 90 and 390 microg kg(-1)dw. The concentrations observed were at or above the levels found in background soils, which are the main recipient of compost and digestate. Where actually applied, compost can contribute considerably to the total input of organic pollutants to the soil. However, on a total Swiss agricultural area base, inputs seem to be limited.     

沧州地区氟元素在不同介质中的分布

以沧州地区的地下水、土壤和小麦中的氟元素为研究对象,探讨氟元素在地下水、土壤和小麦等不同介质中的含量、空间分布与来源成因。通过绘制各介质中氟元素分布图,获得氟元素在各介质中不同深度的含量及水平空间上的分布特征。结果显示,当地深层地下水氟含量平均为2.25 mg/L,高于浅层地下水的平均值0.80 mg/L;深层和浅层土壤氟含量接近,平均值分别为557.18、569.20 mg/kg;小麦中的氟含量最高值为0.96 mg/kg,当地小麦氟含量均低于国家标准限值(1.0 mg/kg)。根据氟元素的分布特点分析,当地深层地下水与土壤的氟元素来源一致,而不同于浅层地下水中的氟;小麦的氟元素分布受浅层土壤氟影响较大。     

Recent Trends and Patterns of Nutrient Concentrations in Small Agricultural Streams in Sweden

Long-term median total phosphorus (TotP) and total nitrogen (TotN) concentrations were 0.08 and 5.5 P/N (mg L^-1), respectively, in 10 agricultural streams monitored since 1988 in Sweden. The areas ofthe respective catchments are 2–20 km². The period 1992/2002 was characterised by stable hydrological conditions without any flow trends in nearly all of the streams. The highest average TotP concentration, 0.17 mg P L^-1, was found in a small agriculturalstream in the largest Swedish agricultural plain. The soil texture is here characterised by a large specific surface area of the soil particles, and the agriculture by cereal production. The second highestaverage TotP concentration, 0.14 mg P L ^-1, was measured in the surface water from a catchment characterised partly by clay soils andby production of potato, spring cereals and grass. This catchment had twice as many fields with a calculated high risk for P losses comparedwith another monitored catchment in the same watershed (River Rönneå). There was a significant downward TotP trend during 1992/2002 of 0.0012 mg P L^-1 yr^-1 (Sen's slope estimator) in the catchment where many fields risk P losses and which had a reduced P manure application rate of –20% during 1995/2000. In recent years practically no manure has been spread during autumn. Bypass flow of nitrate through one soil has been suggested to influence the LOWESS (LOcally WEighted Scatterplot Smothing) fitting curve of TotN. Total nitrogen concentration decreased in most of the catchment. The average downward slope was similar to a general TotN reduction of 0.069 mg N L^-1 yr^-1. During the period 1992/2002 this was equal to slightly more than 10 per cent. Cultivation of catch crops wasrelatively uncommon until 2002, but this practice is expected to expandto larger areas during 2003 and in the future.