Effects of Acid Rain on Competitive Releases of Cd, Cu, and Zn from Two Natural Soils and Two Contaminated Soils in Hunan, China

Leaching experiments of rebuilt soil columns with two simulated acid rain solutions (pH 4.6–3.8) were conducted for two natural soils and two artificial contaminated soils from Hunan, south-central China, to study effects of acid rain on competitive releases of soil Cd, Cu, and Zn. Distilled water was used in comparison. The results showed that the total releases were Zn>Cu>Cd for the natural soils and Cd>Zn≫Cu for the contaminated soils, which reflected sensitivity of these metals to acid rain. Leached with different acid rain, about 26–76% of external Cd and 11–68% external Zn were released, but more than 99% of external Cu was adsorbed by the soils, and therefore Cu had a different sorption and desorption pattern from Cd and Zn. Metal releases were obviously correlated with releases of TOC in the leachates, which could be described as an exponential equation. Compared with the natural soils, acid rain not only led to changes in total metal contents, but also in metal fraction distributions in the contaminated soils. More acidified soils had a lower sorption capacity to metals, mostly related to soil properties such as pH, organic matter, soil particles, adsorbed SO₄ ²⁻, exchangeable Al³⁺ and H⁺, and contents of Fe₂O₃ and Al₂O₃.     

城郊土壤共存元素对土壤作物系统Cd、Pb迁移的影响分析——以白银市城郊区为例

通过共存元素对土壤小麦系统Cd、Pb行为影响的调查研究发现：大田条件下共存元素以正对数模式与根系Cd、Pb密切相关，同种元素间相关程度最高；根系Cd、Pb积累主要取决于土壤环境Cd、Pb的含量，共存元素也产生一定的影响，认为要防止重金属通过食物链对人类的危害，就必须降低土壤环境中重金属的总量。     

Screening Capsicum chinense fruits for heavy metals bioaccumulation

Elevated concentrations of heavy metals in edible plants could expose consumers to excessive levels of potentially hazardous chemicals. Sixty-three accessions (genotypes) of Capsicum chinense Jacq, collected from 8 countries of origin were grown in a silty-loam soil under field conditions. At maturity, fruits were collected and analyzed for seven heavy metals (Cd, Cr, Ni, Pb, Zn, Cu, and Mo) concentrations. The main objectives of this investigation were: 1) to determine the concentrations of seven heavy metals in the soil and monitor their accumulation in mature fruits, 2) to categorize the pepper accessions as low or high heavy metal accumulators, and 3) to determine if heavy metal content of the pepper fruit was lower than the permitted limits. Concentrations and relative proportions of heavy metals in pepper fruits of C. chinense varied among accessions. Fruits of Plant Introduction (PI) 355820 accumulated significant concentrations of Cd (0.47 μ g g^?1dry fruit). PI-260522 accumulated the highest concentration of Pb (2.12 μ g g^?1 dry fruit) among the 63 accessions tested. This accession (PI-260522) contained about twice the Pb limit on a fresh weight basis. Among the 63 accessions analyzed, PI-238051 contained the highest levels of Ni (17.2 μ g g^?1). We concluded that high accumulator genotypes may be useful for phytoremediation, while, low accumulator accessions might be appropriate selections for growing on Cd-, Pb-, or Ni-contaminated soils to prevent potential human exposure to heavy metals and health hazards through the food chain.     

Biofilm-overproducing Bacillus subtilis B12ΔYwcc decreases Cd uptake in Chinese cabbage through increasing Cd-immobilizing related gene abundance and root surface colonization

Biofilm-producing bacteria can decrease Cd uptake in vegetables, but mechanisms underlying this effect are poorly characterized. In this study, two mutant strains B12ΔYwcc and B12ΔSlrR were constructed from a biofilm-producing Bacillus subtilis strain B12. Then, the impacts of strain B12 and its high biofilm-producing mutant strain B12ΔYwcc and low biofilm-producing mutant strain B12ΔSlrR on Cd availability and uptake in Chinese cabbage and the related mechanisms were investigated in the Cd-polluted soil. Strain B12 and its mutants B12ΔYwcc and B12ΔSlrR increased the dry biomasses of edible tissues by 54%–130% compared with the controls. Strain B12 and its mutant B12ΔYwcc reduced the soil available Cd content by 36%–50% and root and edible tissue Cd contents by 23%–50% compared with the controls. Furthermore, the mutant strain B12ΔYwcc reduced the edible tissue Cd content by 40% and increased the polysaccharide content by 23%, invertase activity by 139%, and gene copies of the cumA by 4.5-fold, epsA by 7.1-fold, and cadA by 4.3-fold, which were involved in Cd adsorption in the rhizosphere soils, respectively, compared with strain B12. The polysaccharide content and cumA, epsA, and cadA gene copy numbers showed significantly reverse correlations with the available Cd content. Notably, the mutant strain B12ΔYwcc showed better ability to colonize the vegetable root surface than strain B12. These findings demonstrated that the biofilm-overproducing mutant strain B12ΔYwcc increased the polysaccharide production and Cd-immobilizing related cumA, epsA, and cadA gene copies, resulting in lower Cd availability and accumulation in Chinese cabbage in the Cd-polluted soil.     

Cultivar-dependent rhizobacteria community and cadmium accumulation in rice: Effects on cadmium availability in soils and iron-plaque formation

The association between the rhizospheric microbial community and Cd accumulation in rice is poorly understood. A field trial was conducted to investigate the different rhizobacterial communities of two rice cultivars with high Cd accumulation (HA) and low Cd accumulation (LA) at four growth stages. Results showed that the Cd content in the roots of the HA cultivar was 1.23 - 27.53 higher than that of the LA cultivar (0.08 - 10.5 µg/plant) at four stages. The LA cultivar had a significantly lower Cd availability in rhizosphere and a higher quantity of iron plaque (IP) on the root surface than the HA cultivar at four stages. This resulted in the reduction of Cd concentration in IPs and Cd translocation from IP-to-root. Microbial analysis indicated that the LA cultivar formed a distinct rhizobacterial community from the HA cultivar and had less α-diversity. The rhizosphere of the LA cultivar was enriched in specific bacterial taxa (e.g., Massilia and Bacillus) involved in Cd immobilization by phosphate precipitation and IP formation by iron oxidization. However, the rhizosphere in the HA cultivar assembled abundant sulfur-oxidizing bacteria (e.g., Sulfuricurvum) and iron reduction bacteria (Geobacter). They promoted Cd mobilization and reduced IP formation via the metal redox process. This study reveals a potential approach in which specific rhizobacteria decrease or increase Cd accumulation in rice on contaminated soil and provides a new perspective for secure rice production.     

外源Cd在不同类型土壤中的稳定化特征

为明晰镉(Cd)在不同类型土壤中的稳定化特征和有效性差异,以四川省6种主要的农耕土壤酸性紫色土、中性紫色土、石灰性紫色土、灰潮土、典型黄壤和漂洗黄壤为研究对象,通过土壤培养试验,对外源Cd进入土壤后的稳定化时间、化学形态和有效Cd含量进行了对比分析,进一步结合盆栽试验下各土壤中小白菜生物量和Cd含量,探讨了外源Cd在6种土壤中的化学行为和污染效应.结果表明：(1)6种土壤的有效Cd含量在外源Cd添加后的15 d内迅速降低,后趋于平稳.稳定后,漂洗黄壤和酸性紫色土的有效Cd含量显著高于其他4种土壤,石灰性紫色土最低(1.01 mg·kg^-1);(2)6种土壤中的Cd均以可交换态的占比最高(42.51%～56.07%),其次,漂洗黄壤和典型黄壤中的铁锰氧化物结合态Cd,石灰性紫色土中的碳酸盐结合态和灰潮土中的有机络合态Cd的占比相对较高;(3)低含量Cd处理下(0.5 mg·kg^-1),6种土壤中小白菜的生长均无明显抑制,生物量与对照无显著差异,但可食部位Cd含量却有不同程度地富集,表现为典型黄壤和漂洗黄壤显著高于其他4种土壤;高含量Cd处理下(...     

不同性质硅肥影响土壤生物有效态镉砷的主要因素

为研究硅肥影响土壤中生物有效态镉(Cd)和砷(As)的主要因素,选择不同性质的3种碱性硅肥[Na₂SiO₃、 CaSiO₃与ASSF (pH 9～11)]和一种弱酸偏中性可溶硅肥(NSSF,pH 5～6)并通过添加不同用量硅肥(25～800 mg·kg^-1,以Si计)开展室内土盆试验,淹水共育21 d后对土壤基本理化性质进行检测,同时利用薄膜扩散梯度(DGT)提取土壤生物有效态Cd和As.结果表明,不同性质硅肥施用对土壤基本理化性质的影响差异显著,具体来说：3种碱性硅肥均显著提升土壤pH值(P<0.05),其中Na₂SiO₃提升土壤pH能力最强;而NSSF的施用则显著降低土壤pH值但提升了土壤Eh值(P<0.05),每单位质量(mg) Si添加量的NSSF可使土壤pH下降0.001 7个单位;在Si添加量达到400 mg·kg^-1后,3种碱性硅肥和NSSF土壤pH和Eh变化都趋于平缓. 4种不同性质硅肥提升土壤有效硅含量能...     

干旱区土壤小麦根系界面Cd行为的环境影响研究——以甘肃省白银市区耕作灰钙土为例

通过大田环境-土壤-作物系统Cd行为的环境影响研究，初步发现，共存元素Cd、Cu、Ni、Pb、Zn对Cd元素在土壤-作物根系界面行为的影响表现为正效应，其影响顺序为Cd>Pb>Cu>Zn>Ni；pH值、粘粒、粗粉粒含量与根系Cd含量呈负相关；磷和砂粒含量与根系Cd含量呈正相关；细粉粒、粗粘粒、有机质和CEC     

Cd/Sb/Pb复合污染对竺麻生长及吸收富集特征的影响

通过盆栽试验,分析了不同浓度Cd/Sb/Pb复合作用下苎麻的生长响应及重金属吸收、富集和迁移特征变化。结果表明,低浓度Cd/Sb/Pb复合处理对苎麻生长及生物量没有产生明显影响,而高浓度条件下则产生明显抑制效应,株高变矮,茎粗变细及生物量明显减少。苎麻体内Cd、Pb和Sb吸收量与污染土壤具有直接相关性,随复合处理浓度增加明显增大。至最高污染浓度处理时,苎麻体内重金属吸收量以Cd>Sb>Pb,地上部含量分别达335.74 mg/kg、157.55 mg/kg和92.31 mg/kg。复合处理下苎麻地上部对Cd、Sb和Pb的富集系数分别在0.67~0.88、0.13~0.17和0.05~0.06之间,均表现为随复合处理浓度增加而减少变化。苎麻Cd、Sb和Pb的转运系数分别为0.81~0.92、0.38~0.46和0.53~0.73,其中Cd、Sb的转运系数随复合处理浓度增加而增大,Pb则随复合处理浓度增加而减少。苎麻对重金属Cd/Sb/Pb复合污染具有较好吸收累积及转运能力,相比生物量小的植物而言,是目前修复重金属Cd/Sb/Pb复合污染的理想植物。     

铝钛改性MCM-41材料对污水中铅镉的吸附研究

研究了改性MCM-41材料对污水中重金属铅、镉离子的吸附行为。在MCM-41材料中加入Al、Ti两种诱因金属离子来合成新的Al-Ti-MCM-41及Ti-Al-MCM-41改性材料,通过氮气吸附-脱附等温线对Al-Ti-MCM-41(Al/Ti=1∶1)及Al-Ti-MCM-41(Al/Ti=2∶1)样品进行了表征,并采用改性后的MCM-41材料为吸附剂对含有二价铅、镉离子的溶液进行吸附实验,考察了吸附剂投加量,Pb2+、Cd2+初始质量浓度和吸附温度对吸附的影响。结果表明:改性Al-Ti-MCM-41(Al/Ti=1∶1)材料的最可几孔径和比孔容分别为16.68 nm和0.046 cm3/g,由BJH计算得到的平均孔径为17.02 nm;Al-Ti-MCM-41(Al/Ti=2∶1)的最可几孔径和比孔容分别为16.88 nm和0.083 cm3/g,由BJH计算得到的平均孔径为17.08 nm。Al-Ti-MCM-41(Al/Ti=1∶1)对Cd2+的吸附率为99.8%;Al-Ti-MCM-41(Al/Ti=2∶1)对Pb2+的吸附率为99.96%;Pb2+和Cd2+的吸附容量随吸附剂投加量的增加而降低,随离子初始浓度的增大而增加;温度越高越有利于吸附。该研究重点考察改性MCM-41材料在重金属铅镉离子污染治理中的性能,从而为解决重金属铅镉的污染,加强环境保护提供理论支撑和技术支持,具有明确的现实意义。