煤矸石堆场Fe、Mn迁移累积效应研究

通过对贵州织金典型煤矿区矸石堆场周边地表水体及耕地进行调查与采样分析,探讨了煤矸石堆场Fe、Mn元素迁移对周边地表水体及耕地累积效应的影响。研究结果表明:受煤矸石堆场酸性排水的影响,煤矸石堆场周边溪沟水Fe、Mn含量分别达0.81~32.14mg/L、1.17~8.42mg/L,超过"集中式生活饮用水地表水源地标准"限值的3~107、12~84倍。堆场周边旱作土中Fe、Mn含量分别达63 530~85 990mg/kg、243.1~910.1mg/kg,水稻土达46 940~75 810mg/kg、144.5~409.1mg/kg,Fe、Mn累积指数旱作土分别达1.61、2.97,水稻土分别达1.24、1.33。随着与堆场距离的增大,水稻土Fe、Mn含量逐步降低,在500m范围内Fe降低了35%,Mn降低了61%,而旱作土变化规律不明显。     

Volatile organic compound emissions from straw-amended agricultural soils and their relations to bacterial communities: A laboratory study

A laboratory study was conducted to investigate volatile organic compound(VOC) emissions from agricultural soil amended with wheat straw and their associations with bacterial communities for a period of 66 days under non-flooded and flooded conditions. The results indicated that ethene, propene, ethanol, i-propanol, 2-butanol, acetaldehyde, acetone,2-butanone, 2-pentanone and acetophenone were the 10 most abundant VOCs, making up over 90% of the total VOCs released under the two water conditions. The mean emission of total VOCs from the amended soils under the non-flooded condition(5924 ng C/(kg·hr)) was significantly higher than that under the flooded condition(2211 ng C/(kg·hr)). One "peak emission window" appeared at days 0–44 or 4–44, and over 95% of the VOC emissions occurred during the first month under the two water conditions. Bacterial community analysis using denaturing gradient gel electrophoresis(DGGE) showed that a relative increase of Actinobacteria, Bacteroidetes, Firmicutes and γ-Proteobacteria but a relative decrease of Acidobacteria with time were observed after straw amendments under the two water conditions. Cluster analysis revealed that the soil bacterial communities changed greatly with incubation time, which was in line with the variation of the VOC emissions over the experimental period. Most of the above top 10 VOCs correlated positively with the predominant bacterial species of Bacteroidetes, Firmicutes and Verrucomicrobia but correlated negatively with the dominant bacterial species of Actinobacteria under the two water conditions. These results suggested that bacterial communities might play an important role in VOC emissions from straw-amended agricultural soils.     

泉州市表层土中多环芳烃的含量、来源及其生态风险评价

采集了泉州市不同功能区的33个表层土壤（0～10 cm）样品,利用超高效液相色谱系统（UPLC）-荧光检测器法,研究了土壤中15种优控多环芳烃的含量和分布特征,并利用比值法、因子分析和多元线性回归法对其来源进行了分析,以及采用苯并（a）芘的毒性当量浓度（TEQBaP）评价了土壤中PAHs的生态风险.结果表明,土壤中15...     

酸化土壤中铝及其植物毒性

本文综述了(1)影响土壤酸化的因素和铝的活化过程;(2)铝对植物的毒害症状,植物对铝的相对抗性以及铝的形态与植物毒性的关系;(3)影响铝毒性的外界因素如磷、钙和有机质;(4)铝的毒性机理,铝可能作用于生物膜、钙调素、DNA和ATP。最后提出了一些铝质土壤的改良措施。     

广东省耕地资源的动态变化特征

耕地资源问题已成为制约广东省农业以至社会经济发展的主要因素之一。本文通过分析该省耕地资源数量、质量变化特征及各地区耕地资源的流失、净增减情况,得出耕地资源动态变化特征,并简要地阐述了产生这些变化的机制和原因,最后提出了保护耕地资源的基本对策     

红壤区耕地有机物质的利用现状与开发策略

应用大量的调查和试验数据,论述了红壤区耕地有机物质资源的种类、数量及分布状况;分析了目前有机物质利用的现状及存在问题;探讨了开发有机肥料资源的对策。     

A meta-analysis of heavy metals pollution in farmland and urban soils in China over the past 20 years

A total of 713 research papers about field monitor experiments of heavy metals in farmland and urban soils in China, published from 2000 to 2019, were obtained. A meta-analysis was conducted to evaluate the level of China's heavy metal pollution in soils, mainly focusing on eight heavy metals. It was found that the average concentrations of cadmium (Cd), lead (Pb), zinc (Zn), copper (Cu), mercury (Hg), chromium (Cr), nickel (Ni), and arsenic (As) in China were 0.19, 30.74, 85.86, 25.81, 0.074, 67.37, 27.77 and 8.89 mg/kg, respectively. Compared with the background value (0.097 mg/kg), the Cd content showed a twofold (0.19 mg/kg) rise in farmland soils and a threefold (0.29 mg/kg) rise in urban soils. The decreasing order of the mean I_geo was Cd (1.77) > Pb (0.62) > Zn (0.60) > Cu (0.58) > Hg (0.57) > Cr (0.54) > Ni (0.47) > As (0.28). Nearly 33.54% and 44.65% of sites in farmland and urban soils were polluted with Cd. The average concentrations of eight heavy metals were not sensitive change in recent two decades in farmland and urban soils. The average P_n values for urban (2.52) and farmland (2.15) soils showed that heavy metal pollution in urban soils was more serious than that in farmland, and the middle Yangtze River regions, where industrial activity dominates, were the most polluted. The meta-analysis comprehensively evaluated the current pollution situation of soil heavy metal, and provided important basis for soil management and environment prevention in China.     

Solubility and Potential Mobility of Heavy Metals in Two Contaminated Urban Soils from Stockholm,Sweden

The solubility and potential mobility of heavy metals (Cd, Cu,Hg, Pb and Zn) in two urban soils were studied by sequential andleaching extractions (rainwater). Compared to rural (arable) soils on similar parent material, the urban soils were highlycontaminated with Hg and Pb and to a lesser extent also with Cd,Cu and Zn. Metal concentrations in rainwater leachates were related to sequential extractions and metal levels reported fromStockholm groundwater. Cadmium and Zn in the soils were mainly recovered in easily extractable fractions, whereas Cu and Pb were complex bound. Concentrations of Pb in the residual fractionwere between two- and eightfold those in arable soils, indicatingthat the sequential extraction scheme did not reflect the solidphases affected by anthropogenic inputs. Cadmium and Zn conc. inthe rainwater leachates were within the range detected in Stockholm groundwater, while Cu and Pb conc. were higher, whichsuggests that Cu and Pb released from the surface soil were immobilised in deeper soil layers. In a soil highly contaminatedwith Hg, the Hg conc. in the leachate was above the median concentration, but still 50 times lower than the max concentration found in groundwater, indicating the possibilityof other sources. In conclusion, it proved difficult to quantitatively predict the mobility of metals in soils by sequential extractions.     

基于APCS-MLR和PMF模型的赤泥堆场周边耕地土壤重金属污染源解析

为探究重庆某赤泥堆场周边耕地土壤重金属污染特征和来源,分析土壤中8种重金属元素（Cd、Cr、Hg、Ni、Pb、As、Cu和Zn）含量和空间分布特征,利用单因子污染指数法和内梅罗综合污染指数法对土壤重金属污染特征进行评价,并在相关性分析的基础上采用APCS-MLR和PMF模型定量解析重金属来源.结果表明,除土壤Cr外,其他7种重金属元素含量均值均高于重庆市土壤背景值.土壤重金属整体处于中度污染水平,其中Cd、Hg和As为中度污染,Pb、Cu、Ni和Zn为轻度污染.土壤Cr、Ni、Pb、Cu和Zn空间分布格局相似,相互间呈极显著正相关（P < 0.01）;Cd、Hg和As空间分布特征有较大差异,且相互间相关性不显著（P > 0.05）.源解析表明,研究区土壤重金属来源较为复杂,APCS-MLR和PMF模型均能解析出4种相同的污染源,分别为赤泥堆场渗滤排放和自然来源、火力发电排放源、农业活动与自然来源和有色金属冶炼排放源.两种模型源解析结果差异较小,APCS-MLR模型中4种污染源贡献率分别为51.8%、18.0%、15.9%和14.3%,而在PMF模型中分别为45.9%、12.8%、21.5%和19.8%.     

金属矿区周边农田土壤与农作物重金属健康风险评估

为探明金属矿区周边农田土壤与农作物重金属污染特征与人体健康风险,通过对矿区周边农田土壤和农作物进行样品采集并分析测定其Cd、Pb和As等重金属含量,采用地累积指数法、富集系数法和综合潜在生态风险指数法,研究土壤和农作物重金属的污染特征与综合潜在生态风险,采用蒙特卡罗模拟法进行土壤和农作物重金属的健康风险评估.结果表明,凉桥村土壤重金属污染主要是Cd、As和Pb,分别有100%、100%和75%以上土壤样品超过农田土壤筛选值（GB 15618-2018）,农作物中Cd、Pb、As、Cr和Ni这5种重金属的含量,均超标《食品安全国家标准食品中污染物限量》（GB 2762-2017）严重;地累积指数和富集系数表明Cd和As污染严重,综合潜在生态风险指数（RI）普遍高于600,具有极高生态风险,其中Cd、As和Pb贡献最大,贡献率分别为77.8%、14.4%和3.1%.健康风险评估表明,凉桥村居民通过摄入农作物以及误食土壤造成较高的致癌风险（致癌风险>10-6）以及非致癌健康风险（危害商值>1）;蒙特卡罗模拟人群健康风险分析显示,凉桥村土壤重金属污染暴露途径下具有较高致癌与非致癌风...