Influence of Indian mustard （Brassicajuncea） on rhizosphere soil solution chemistry in long-term contaminated soils： A rhizobox study

This study investigated the influence of Indian mustard (Brassica juncea) root exudation on soil solution properties (pH, dissolved organic carbon (DOC), metal solubility) in the rhizosphere using a rhizobox. Measurement was conducted following the cultivation of Indian mustard in the rhizobox filled four di erent types of heavy metal contaminated soils (two alkaline soils and two acidic soils). The growth of Indian mustard resulted in a significant increase (by 0.6 pH units) in rhizosphere soil solution pH of acidic soils and only a slight increase (< 0.1 pH units) in alkaline soils. Furthermore, the DOC concentration increased by 17–156 mg/L in the rhizosphere regardless of soil type and the extent of contamination, demonstrating the exudation of DOC from root. Ion chromatographic determination showed a marked increase in the total dissolved organic acids (OAs) in rhizosphere. While root exudates were observed in all soils, the amount of DOC and OAs in soil solution varied considerably amongst di erent soils, resulting in significant changes to soil solution metals in the rhizosphere. For example, the soil solution Cd, Cu, Pb, and Zn concentrations increased in the rhizosphere of alkaline soils compared to bulk soil following plant cultivation. In contrast, the soluble concentrations of Cd, Pb, and Zn in acidic soils decreased in rhizosphere soil when compared to bulk soils. Besides the influence of pH and DOC on metal solubility, the increase of heavy metal concentration having high stability constant such as Cu and Pb resulted in a release of Cd and Zn from solid phase to liquid phase.     

Fractionation of heavy metals in shallow marine sediments from Jinzhou Bay, China

This work investigated the distribution and speciation of Cd, Cu, Pb, Fe and Mn in the shallow sediments of Jinzhou Bay, Northeast China, which has been heavily contaminated by nonferrous smelting activities. The concentrations of Cd, Cu and Pb in sediments were found to be 100, 13 and 7 times, respectively, being higher than the national guideline (GB 18668-2002). Sequential extraction test showed that 39%-61% of Cd were exchangeable fractions, indicating that Cd in the sediments posed a high risk to local...     

Releases of phosphate fertilizer industry in the surrounding environment: Investigation on heavy metals and polonium-210 in soil

Distribution of Cu,Zn,Pb,Cr,Ni,Mn concentrations and the activity of polonium-210 in the surrounding area of a phosphate fertilizer industry located on the eastern coast of the Mediterranean Sea has been determined.Nineteen sampling sites were distributed around the industrial zone on a surface area of about 100,000 m2.Atomic absorption spectroscopy and Alpha spectroscopy were used to quantify the heavy elements and polonium-210,respectively.Investigation on a particle scale was conducted by TEM and SEM coupled to EDX and X-ray cartography to determine the nature of heavy elements carriers and their distribution.Heavy elements were mainly concentrated inside the particle size fraction 50 μm.Their levels decreased with distance increasing from the industry.According to the reference soil,enrichment factors were about 10,15,32 and 100 times for Zn,Pb,Cu,and Cr,respectively inside the particle size fraction 50 μm on the closest sites to the industry.The main contaminant sources were transport and storage of row materials and the free release of phosphogypsum waste.Heavy elements were entrapped inside agglomerates of sulfates,phosphates and iron oxihydroxides in a di used shape.Polonium-210 with an enrichment factor of about 56,showed the same behavior of the spatial distribution of the trace elements.     

Decolorization of molasses melanoidins and palm oil mill e uent phenolic compounds by fermentative lactic acid bacteria

Lactobacillus plantarum SF5.6 is one of the lactic acid bacteria (LAB) that has the highest ability of molasses melanoidin (MM) decolorization among the 2114 strains of LAB. The strains were isolated from spoilage, pickle fruit and vegetable, soil and sludge from the wastewater treatment system by using technical step of enrichment, primary screening and secondary screening. This LAB strain SF5.6 was identified by 16S rDNA analysis and carbohydrate fermentation (API 50 CH). The top five LAB strains having high MM decolorization (> 55%), namely TBSF5.8-1, TBSF2.1-1, TBSF2.1, FF4A and SF5.6 were selected to determine the optimal condition. It was found that the temperature at 30°C under facultative conditions in GPY-MM medium (0.5% glucose, 0.1% peptone, 0.1% yeast extract, 0.1% sodium acetate, 0.05% MgSO4 and 0.005% MnCl2 in MM solution at pH 6) giving a high microbial growth and MM decolorization for all five strains. It was noticed that the decolorization of MM by LAB strains might be cell growth associated. L. plantarum SF5.6 grew rapidly within one day while the other strains took 2–3 days. This L. plantarum SF5.6 could rapidly decolorize MM to 60.91% without any lag phase, and it also had the ability to remove 34.00% phenolic compounds and 15.88% color from treated palm oil mill e uent.     

Heavy metals in rice and garden vegetables and their potential health risks to inhabitants in the vicinity of an industrial zone in Jiangsu, China

Contamination of soil and agricultural products by heavy metals resulting from rapid industrial development has caused major concern. In this study, we investigated heavy metal (Cu, Zn, Pb, Cr, Hg and Cd) concentrations in rice and garden vegetables, as well as in cultivated soils, in a rural-industrial developed region in southern Jiangsu, China, and estimated the potential health risks of metals to the inhabitants via consumption of locally produced rice and garden vegetables. A questionnaire-based survey on dietary consumption rates of foodstuffs showed that rice and vegetables accounted for 64% of total foodstuffs consumed, and over 60% of rice and vegetables were grown in the local region. Average concentrations of Cr, Cu, Zn, Cd, Hg and Pb were 0.75, 2.64, 12.00, 0.014, 0.006 and 0.054 mg/kg dw (dry weight) in rice and were 0.67, 1.18, 4.34, 0.011, 0.002 and 0.058 mg/kg fw (fresh weight) in garden vegetables, respectively. These values were all below the maximum allowable concentration in food in China except for Cr in vegetables. Leafy vegetables had higher metal concentrations than solanaceae vegetables. Average daily intake of Cr, Cu, Zn, Cd, Hg and Pb through the consumption of rice and garden vegetables were 5.66, 16.90, 74.21, 0.10, 0.04 and 0.43 μg/(kg·day), respectively. Although Hazard Quotient values of individual metals were all lower than 1, when all six metal intakes via self-planted rice and garden vegetables were combined, the Hazard Index value was close to 1. Potential health risks from exposure to heavy metals in self-planted rice and garden vegetables need more attention.     

Carbonaceous particles in the atmosphere and precipitation of the Nam Co region, central Tibet

A continuous air and precipitation sampling for carbonaceous particles was conducted in a field observatory beside Nam Co, Central Tibetan Plateau during July of 2006 through January of 2007. Organic carbon (OC) was the dominant composition of the carbonaceous particles both in the atmosphere (1660 ng/m³) and precipitation (476 ng/g) in this area, while the average elemental carbon (BC) concentrations in the atmosphere and precipitation were only 82 ng/m³ and 8 ng/g, respectively. Very high OC/BC ratio suggested local secondary organic carbon could be a dominant contribution to OC over the Nam Co region, while BC could be mainly originated from Southern Asia, as indicated by trajectory analysis and aerosol optical depth. Comparison between the BC concentrations measured in Lhasa, those at “Nepal Climate Observatory at Pyramid (NCO-P)” site on the southern slope of the Himalayas, and Nam Co suggested BC in the Nam Co region reflected a background with weak anthropogenic disturbances and the emissions from Lhasa might have little impact on the atmospheric environment here, while the pollutants from the Indo-Gangetic Basin of Southern Asia could be transported to the Nam Co region by both the summer monsoon and the westerly.     

废物水泥窑共处置产品中重金属释放量研究

通过模拟煅烧实验制取水泥熟料,并采用国标GB/T 17671-1999制取混凝土样品.选用EA NEN7371和EA NEN7375浸出方法,利用基于菲克扩散第二定律的一维扩散模型对废物水泥窑共处置产品（混凝土）中重金属长期累积释放量进行了研究.结果表明,混凝土中重金属的最大释放量低于总量;各种重金属在混凝土中的扩散系数不同,且Cr>As>Ni>Cd; Cr、As、Ni和Cd 30a的累积释放量分别为4.43、 0.46、 1.50和0.02 mg/kg,释放率（累积释放量/最大释放量）分别为27.0%、 18.0%、 3.0%和0.2%;扩散系数是影响重金属累积释放量的重要因素,且两者表现出较好的相关性;Cr和As的扩散系数较大（分别为1.15E-15 m²/s和6.42E-16 m²/s）,应重点控制其进入水泥窑处置过程的总量.     

我国主要蔬菜和粮油作物的砷含量与砷富集能力比较

根据国内外文献报道,对蔬菜和粮油作物中砷的累积特点和富集能力进行总结和分析.结果表明.清洁区和污染区蔬菜的砷含量变幅分别为0.001-1.07 mg·kg-1和0.001-8.51 mg·kg-1(鲜重),均值分别为0.035 mg·kg-1和0.068 mg·kg-1不同种类蔬菜的砷含量由大到小,依次为:叶菜类>根茎类>茄果类>鲜豆类;清洁区和污染区粮油作物的砷含量变幅分别为0.001-2.20 mg·kg-1和0.007-6.83 mg·kg-1(干重),均值分别为0.081 mg·kg-1和0.294 mg·kg-1,其中水稻的砷含量显著高于小麦和玉米.从富集系数来看,叶莱类蔬菜的砷富集系数最高,芹菜、蕹菜、茼蒿、芥菜等蔬菜的抗砷污染能力较弱.粮食作物玉米的抗砷污染能力较强.与蔬菜砷限量标准(GB4810-1994)相比,我国砷污染区的蔬菜中有32.2%的样本砷含量超标,其中叶菜类和根茎类的超标率分别为47.9%和12.8%.与粮食砷限量标准(GB4810-1994)比较,我国污染区粮油作物的样本砷超标率为34.8%,其中水稻的超标率高达42.9%.玉米和小麦的超标率均高于20%.     

两种生物沥滤-电动修复联合技术的比较

比较研究了生物沥滤和电动修复不同的结合方式对污泥中重金属处理效果的影响.在先进行生物沥滤4d之后用电动修复技术对污泥进行处理,试验结束之后污泥中的Cu含量为60.5mg·kg-1,Zn含量为170mg·kg-1;而采用同步生物沥滤和电动修复试验时,处理结束后污泥中Cu含量为122.8mg·kg-1,Zn含量为110mg·kg-1.利用2种修复技术处理污泥,污泥中重金属含量均达到我国污泥土地农田利用的标准,但先生物沥滤后电动修复可以减少能耗.     

厦门贝类养殖区重金属的含量分布特征与潜在生态危害评价

根据2005年4月和10月厦门贝类养殖区环境调查资料,着重对贝类养殖区海水、表层沉积物中重金属的含量分布进行分析,并对贝类养殖区的生态环境进行质量评价及潜在生态危害评价.结果表明:厦门贝类养殖区海水中Cu、Pb、Cd、Zn、Hg、As的平均含量分别为1.06 μg/L,1.23 μg/L, 0.05 μg/L,6.28 μg/L,0.033 μg/L,1.01 μg/L;沉积物中Cu、Pb、Cd、Zn、Hg、As的平均含量分别为20.0×10-6,39.5×10-6,0.07×10-6,97.3×10-6,0.05×10-6,7.20×10-6.生态质量评价结果表明,贝类养殖区海水重金属的含量符合第二类海水水质标准要求,处于清洁水平.养殖区沉积物重金属的含量符合第一类海洋沉积物质量标准,属于较清洁水平.潜在生态危害评价结果,Hg、As和Cd的潜在生态危害系数大于Cu、Pb、Zn,表明和Hg、As、Cd的潜在危害大于Cu、Pb、Zn,但整个养殖区沉积物中重金属的潜在危害属于轻微,养殖环境良好.