Heavy metal availability and impact on activity of soil microorganisms along a Cu/Zn contamination gradient

All the regulations that define a maximum concentration of metals in the receiving soil are based on total soil metal concentration. However, the potential toxicity of a heavy metal in the soil depends on its speciation and availability. We studied the effects of heavy metal speciation and availability on soil microorganism activities along a Cu/Zn contamination gradient. Microbial biomass and enzyme activity of soil contaminated with both Cu and Zn were investigated. The results showed that microbial biomass was negatively affected by the elevated metal levels. The microbial biomass-C （Cmic）/organic C （Corg） ratio was closely correlated to heavy metal stress. There were negative correlations between soil microbial biomass, phosphatase activity and NH4NO3 extractable heavy metals. The soil microorganism activity could be predicted using empirical models with the availability of Cu and Zn. We observed that 72% of the variation in phosphatase activity could be explained by the NH4NO3-extractable and total heavy metal concentration. By considering different monitoring approaches and different viewpoints, this set of methods applied in this study seemed sensitive to site differences and contributed to a better understanding of the effects of heavy metals on the size and activity of microorganisms in soils. The data presented demonstrate the relationship between heavy metals availability and heavy metal toxicity to soil microorganism along a contamination gradient.     

Assessment of lead pollution in topsoils of a southern Italy area: Analysis of urban and peri-urban environment

Exposure to lead (Pb) may affect adversely human health. Mapping soil Pb contents is essential to obtain a quantitative estimate of potential risk of Pb contamination. The main aim of this paper was to determine the soil Pb concentrations in the urban and peri-urban area of Cosenza–Rende to map their spatial distribution and assess the probability that soil Pb concentration exceeds a critical threshold that might cause concern for human health. Samples were collected at 149 locations from residual and non-residual topsoil in gardens, parks, flower-beds, and agricultural fields. Fine earth fraction of soil samples was analyzed by X-ray Fluorescence spectrometry. Stochastic images generated by the sequential Gaussian simulation were jointly combined to calculate the probability of exceeding the critical threshold that could be used to delineate the potentially risky areas. Results showed areas in which Pb concentration values were higher to the Italian regulatory values. These polluted areas were quite large and likely, they could create a significant health risk for human beings and vegetation in the near future. The results demonstrated that the proposed approach can be used to study soil contamination to produce geochemical maps, and identify hot-spot areas for soil Pb concentration.     

氮肥水平对不同土壤CH4排放的影响

鉴于氮肥施用对农田CH₄排放的影响还有很大不确定性,室外盆栽试验于2002年在南京农业大学实施.选取3个供试土壤,各土壤设置对照和低、中、高3个不同氮肥水平,施入尿素量分别为0 g/盆钵(对照) ,0.64g/盆钵,(低氮水平) ,1.28g/盆钵(中氮水平) ,1.93g/盆钵(高氮水平) .结果表明在水稻生长季,不同氮肥(尿素)施用量对稻田土壤CH₄排放影响表现为不同土壤之间,及不同氮肥水平之间CH₄排放均存在显著差异.无氮肥施入的情况下,3种土壤的CH₄季节性累积排放量存在显著差异,分别为6.7g/m²,12.6g/m² 和8.3g/m².施加氮肥后,3种土壤的CH4排放量随氮肥施入量的增加,均表现为降低趋势,不同土壤CH₄排放量存在差异,土壤背景氮含量最高的F(江苏溧水)土壤的CH4排放都比相应氮肥水平下的G(江苏涟水)和H(江苏农科院)土壤的CH₄排放低1倍左右.更进一步发现从低氮到中氮水平,3种土壤CH₄排放量随氮肥用量的增加降低幅度最大,而此时各土壤的NH₄-N含量随氮肥用量增加明显提高,推断造成CH₄排放降低的主要可能原因是各土壤的氨态氮含量的增加所致.从中氮到高氮水平3种土壤的CH₄排放量的变化不尽相同,G和H土壤的CH₄排放量随氮肥用量的增加而降低,而F土壤在中氮和高氮水平下的CH4排放量没有明显变化,值分别为30g/m².     

广州市蔬菜地重金属剂量对蔬菜富集重金属的影响--以菜心为例

调查并分析了广州市蔬菜地土壤和菜心中主要重金属元素质量分数，通过多元统计分析建立了菜心中某一重金属元素和土壤中元素的数学回归模型。结果表明，Cd更易在菜心体内造成累积；总体上菜心中重金属质量分数与其在土壤中的质量分数有一定的相关性，菜心中Pb、As的积累分别取决于土壤中Pb、As的质量分数，土壤中Pb和As还分别促进了菜心对Cr、Hg的吸收，Pb对菜心中Cd的累积表现为协同作用；土壤重金属质量分数临界值可为今后无污染蔬菜的生产提供参考依据。     

土壤和沉积物中的聚合有机质对多环芳烃分布和提取的影响

为了研究土壤和沉积物中凝聚型有机碳(碳黑、干酪根)的含量及其对多环芳烃(PAHs)分布和提取的影响,分别用三氟醋酸(TFA)和在375℃下通氧燃烧的方法从珠江三角洲2个污染土壤和5个河口沉积物样品中提取酸非水解有机碳(NHC)和碳黑(BC);用索氏抽提法和不同溶剂的加速溶剂萃取法(包括连续加速萃取法ASESum和标准溶剂萃取法ASESTD)抽提土壤和沉积物中的多环芳烃,并在不同温度梯度(25℃到150℃)下用水为溶剂加速溶剂萃取其水溶态.结果表明,1)NHC是珠江三角洲土壤和沉积物中总有机碳的重要组成部分,NHC碳明显高于BC碳,NHC和BC分别占土壤和沉积物中有机碳的25.6%￣73.8%和4.64%￣17.3%.2)3种有机溶剂(丙酮、甲苯1、甲苯2)连续抽提的PAHs含量是索氏抽提的2.11倍;5种ASE方法(丙酮、甲苯1、甲苯2、ASESum、ASESTD)提取的PAHs含量与NHC含量存在明显的相关性,而且比PAHs含量与BC或无定型有机碳(AOC)含量的相关性更明显.3)在不同温度梯度下水溶态PAHs浓度符合Van’tHoff方程.研究说明除了BC外,非水解有机碳对土壤和沉积物中PAHs的分布和提取具有重要影响.     

太湖地区3种水稻土不同温度培养中有机碳库变化及其对升温的响应

全球变暖下土壤有机碳储存的变化是土壤与全球变化研究的热点问题.本研究选择了3种太湖地区代表性水稻土的表层土壤,分别进行20℃和25℃的室内恒温培养,监测培养过程中总有机碳、溶解性有机碳和微生物量碳的变化动态,试图了解这些土壤的有机碳分解过程对全球变暖的响应特点.结果表明,这些土壤培养中总有机碳变化可以用一级衰变动力学方程或对数衰减方程描述,但动力学特征依培养温度的不同而异.升温大大促进了铁渗水耕人为土和潜育水耕人为土中有机碳的分解与呼吸损失,而铁聚水耕人为土没有显著变化.供试土壤总有机碳损失的Q₁₀系数分别为:潜育水耕人为土(11.1～14.1)＞铁渗水耕人为土(4.4～6.4)＞铁聚水耕人为土(0.63～0.73).这一方面说明温度敏感性在同一地带的不同土壤间的差异超过文献上报道的不同气候带的差异,但另一方面揭示了水稻土可能是一类对全球升温敏感响应的人为土.溶解性有机碳和微生物量的碳的变化还提示不同温度培养下水稻土微生物群落结构可能改变,因而影响到土壤有机碳库的生物有效性在温度条件下的变化.可以认为,土壤升温下有机碳的变化不但与土壤有机碳的性质有关,而且与土壤性质控制下的生物条件的改变有关.故土壤升温下有机碳的损失不仅仅是温度对分解过程的反应速度的影响.当然,对于不同土壤间的这种差异还需从有机碳-土壤环境-土壤生物的相互关系上做进一步的工作.     

北京地区菜田土壤抗生素抗性基因的分布特征

为研究北京地区菜田土壤抗生素抗性基因(antibiotic resistance genes,ARGs)的污染状况和分布特征,采集了11个长期施用粪肥蔬菜基地的温室土壤和大田土壤,进行了抗生素以及ARGs种类和丰度的检测.结果表明,菜田土壤中四环素类抗生素残留量最高,其次为磺胺类抗生素,温室土壤抗生素残留普遍高于大田土壤.温室和大田土壤磺胺类抗性基因sul1、sul2和四环素类抗性基因tet L的检出率均为100%.温室土壤的Ⅰ类整合子(int I1)检出率比大田土壤高1.5倍.定量PCR的检测结果表明,菜田土壤中sul2和tet L的相对丰度介于10-4~10-2之间,温室土壤sul2和tet L的相对丰度普遍高于大田土壤.sul2的相对丰度与磺胺二甲嘧啶和强力霉素的含量显著正相关(P0.05),tet L相对丰度与抗生素含量无明显相关性(P0.05).本研究结果对于掌握北京地区农田土壤ARGs的污染现状,以及从ARGs角度评估农艺措施具有重要的指导意义.     

Photocatalytic remediation of γ-hexachlorocyclohexane contaminated soils using TiO2 and montmorillonite composite photocatalyst

TiO2 and montmorillonite composite photocatalysts were prepared and applied in degrading γ-hexachlorocyclohexane(γ-HCH)in soils.After being spiked with γ-HCH,soil samples loaded with the composite photocatalysts were exposed to UV-light irradiation.The results indicated that the photocatalytic activities of the composite photocatalysts varied with the content of TiO2 in the order of 10%＜70%＜50%＜30%.Moreover,the photocatalytic activity of the composite photocatalysts with TiO2 content 30% was higher than that of the pure P25 with the same mass of TiO2.The strong adsorption capacity of the composite photocatalysts and quantum size effect may contribute to its increased photocatalytic activities.In addition,effect of dosage of composite photocatalysts and soil pH on γ-HCH photodegradation was investigated. Pentachlorocyclohexene,trichlorocyclohexene,and dichlorobenzene were detected as photodegradation intermediates,which were gradually degraded with tlle phOtOdegradation evolution.     

胡敏酸在土壤中的迁移

研究了不同条件下胡敏酸在土壤中的迁移过程.结果表明,其迁移过程表现出较大的差异,在溶液pH值、胡敏酸浓度和溶液流速均较高时,胡敏酸迁移的阻滞因子和在土壤中的吸附系数均较低,有利于胡敏酸在土壤中的迁移;在溶液pH值、胡敏酸浓度和溶液流速均较低时,土壤对胡敏酸迁移的阻滞作用较大.胡敏酸的迁移还与土壤性质有关,土壤黏粒含量和阳离子交换量越高,胡敏酸在土壤中吸附的越多,越不利于迁移.在土壤中的吸附是胡敏酸迁移的主要控制因素,在预测胡敏酸在水土环境中迁移时,应该充分考虑不同条件下胡敏酸在不同性质土壤中的吸附.     

Spatial variability of organochlorine pesticides （DDTs and HCHs） in surface soils from the alluvial region of Beijing, China

The spatial variability in the concentrations of 1,2,3,4,5,6-hexachlorocyclohexane (HCH) and 1,1,1-trichloro-2,2-bis-(p-chlorophenyl) ethane (DDT) in surface soils was studied on the basis of the analysis of 131 soil samples collected from the surface layer (0-20 cm depth) of the alluvial region of Beijing, China. The concentrations of total HCHs (including α-, β-, γ-, and δ-isomers) and total DDTs (i ncluding p,p'-DDT, p,p'-DDD, p,p'-DDE, and o,p'-DDT) in the surface soils tested were in the range from nondetectable to 31.72 μg/kg dry soil, with a mean value of 0.91, and from nondetectable to 5910.83 μg/kg dry soil, with a mean value of 32.13,respectively. It was observed that concentrations of HCHs in all soil samples and concentrations of DDTs in 112 soil samples were much lower than the first grade (50 μg/kg) permitted in "Environment quality standard for soils in China (GB15618-1995)". This suggests that the pollution due to organochlorine pesticides was generally not significant in the farmland soils in the Beijing alluvial region. In this study, the spatial distribution and trend of HCHs and DDTs were analyzed using Geostatistical Analyst and GS (513).Spatial distribution indicated how these pesticides had been applied in the past. Trend analysis showed that the concentrations of HCHs,DDTs, and their related metabolites followed an obvious distribution trend in the surface soils from the alluvial region of Beijing.