发酵鸡粪和有机磷肥对土壤中Pb、Cd污染的影响

研究了湘西地区常用的发酵鸡粪和有机磷肥施用对不同程度Pb、Cd复合污染土壤中乙三胺五醋酸(DTPA)提取态Pb(DTPA-Pb)、DTPA提取态Cd(DTPA-Cd)和土壤酶的影响,并研究了对于种植黑麦草(Lolium perenne L.)的影响。结果表明:(1)施用发酵鸡粪和有机磷肥均能显著改善土壤酸性,一定程度上提高土壤有机质含量。在加入质量浓度200mg/kg总Pb、2mg/kg总Cd复合污染土壤中施用有机磷肥,能有效钝化土壤DTPA-Pb、DTPA-Cd,但在400mg/kg总Pb、4mg/kg总Cd复合污染土壤中钝化效果有限,其优先钝化DTPA-Pb。施用发酵鸡粪不能有效钝化土壤DTPA-Pb、DTPA-Cd。(2)施用发酵鸡粪和有机磷肥均显著提高黑麦草鲜重。虽然施用有机磷肥能更有效的钝化土壤DTPA-Pb、DTPA-Cd,但对于黑麦草种植而言,施用发酵鸡粪能更有效的降低其对Pb和Cd的积累,并且主要积累到根部。(3)施用发酵鸡粪对土壤碱性磷酸酶活性、脱氢酶活性和脲酶活性有显著的促进作用。综合而言,湘西地区种植牧草黑麦草,施用发酵鸡粪比较合适,能有效改善土壤酸性,提高黑麦草鲜重和土壤酶活性,降低黑麦草对Pb和Cd的积累。     

解磷微生物对煤系废弃物粉煤灰的改良效应

燃煤产生大量的粉煤灰虽会严重污染环境,但却含有植物生长必需的营养元素,将其资源化生物利用是一条很好的途径.从粉煤灰和农田土壤中分离筛选出 2 株解磷细菌 CA 和 SL,以紫花苜蓿为供试植物,通过盆栽试验研究接种解磷细菌对粉煤灰基质的改良作用.研究表明,加入解磷细菌后,对粉煤灰基质有一定的改良作用,促进了植物生长,增加了对粉煤灰中难溶性磷的吸收利用,降低了粉煤灰 pH,增加了根际细菌和真菌的数量.从粉煤灰中筛选分离出的菌株 CA的改良作用更显著,苜蓿的地上干重比对照提高了45.1%.解磷微生物的应用对于实现废弃物粉煤灰场的生态恢复提供了新的技术与潜力.     

Oxalic acid activated bone meal for immobilization of Pb and Cd contaminated soils

Environmental Science and Pollution Research - Bone meal (BM) is a cost-effective and low-carbon material to remediate heavy metal contaminated soils. Moreover, its immobilization efficiency for...     

污泥生物炭对土壤中Pb和Cd的生物有效性的影响

以污泥为原料,在500 ℃缺氧条件下制备污泥生物炭,结合X射线能谱（EDS）、环境扫描电镜（SEM）和红外光谱（FTIR）等表征手段,分析添加污泥生物炭后污染土壤pH和Pb与Cd化学形态的变化来探究污泥生物炭对土壤中Pb、Cd的固定效果,并用盆栽方式评估添加污泥生物炭对小青菜生物量及体内重金属含量的影响。结果表明：添加污泥生物炭后,污染土壤的pH随平衡时间的延长显著升高;对于单一污染土壤和复合污染土壤,污泥生物炭对Pb和Cd均有较强的固定作用,而污泥生物炭在复合污染土壤中对Pb的固定效果优于在单一污染土壤中;添加污泥生物炭能提高小青菜的生物量,且能有效降低小青菜对污染土壤中Pb和Cd的吸收。     

Simultaneous adsorption and immobilization of As and Cd by birnessite-loaded biochar in water and soil

Environmental Science and Pollution Research - A novel biochar was prepared by loading birnessite to improve its capability to simultaneously adsorb As(III), As(V), and Cd(II) in water and soil....     

Effects of Cd and Pb on soil microbial community structure and activities

Background, aim, and scope  

Soil contamination with heavy metals occurs as a result of both anthropogenic and natural activities. Heavy metals could have long-term hazardous impacts on the health of soil ecosystems and adverse influences on soil biological processes. Soil enzymatic activities are recognized as sensors towards any natural and anthropogenic disturbance occurring in the soil ecosystem. Similarly, microbial biomass carbon (MBC) is also considered as one of the important soil biological activities frequently influenced by heavy metal contamination. The polymerase chain reaction–denaturing gradient gel electrophoresis (DGGE) has recently been used to investigate changes in soil microbial community composition in response to environmental stresses. Soil microbial community structure and activities are difficult to elucidate using single monitoring approach; therefore, for a better insight and complete depiction of the soil microbial situation, different approaches need to be used. This study was conducted in a greenhouse for a period of 12 weeks to evaluate the changes in indigenous microbial community structure and activities in the soil amended with different application rates of Cd, Pb, and Cd/Pb mix. In a field environment, soil is contaminated with single or mixed heavy metals; so that, in this research, we used the selected metals in both single and mixed forms at different application rates and investigated their toxic effects on microbial community structure and activities, using soil enzyme assays, plate counting, and advanced molecular DGGE technique. Soil microbial activities, including acid phosphatase (ACP), urease (URE), and MBC, and microbial community structure were studied.     

模拟酸雨对磷酸二氢钾钝化污染土壤Cu、Cd、Pb和P释放的影响

以磷酸二氢钾(PDP)钝化后的重金属污染土壤为研究对象,通过室内土柱淋溶实验,考察在pH为3.5、4.5和5.6的模拟酸雨作用下土壤Cu、Cd、Pb和P的释放特征。结果表明:PDP处理较对照处理显著增加了淋出液中pH、电导率(EC)和总有机碳(TOC)含量,但不同pH模拟酸雨对对照和PDP处理淋出液pH、EC和TOC含量影响较小。对照处理中,正磷酸盐含量维持在较低水平(0.02~0.13 mg·L-1);PDP处理下,正磷酸盐含量在1~3 L和4~12 L分别是《地表水环境质量标准》(GB 3838-2002)五类水标准(总磷含量0.4 mg·L-1)的55.1~819倍和9.46~46.6倍,对地表水表现出较大的富营养化风险。PDP处理较对照处理显著降低了淋溶初期淋出液中的Cu、Cd和Pb含量,但是随模拟酸雨pH降低,对照和PDP处理的土壤淋出液中Cu、Pb含量均未表现出显著差异。因此,PDP处理能够显著钝化污染土壤中的Cu、Cd和Pb,但需关注酸雨淋溶下过量磷释放对地表水富营养化的潜在风险。     

In situ immobilization of cadmium in soil by stabilized biochar-supported iron phosphate nanoparticles

The potential for nanoscale phosphate amendments to remediate heavy metal contamination has been widely investigated, but the strong tendency of nanoparticles to form aggregates limits the application of this technique in soil. This study synthesized a composite of biochar-supported iron phosphate nanoparticle (BC@Fe₃(PO₄)₂) stabilized by a sodium carboxymethyl cellulose to improve the stability and mobility of the amendment in soil. The sedimentation test and column test demonstrated that BC@Fe₃(PO₄)₂ exhibited better stability and mobility than iron phosphate nanoparticles. After 28 days of simulated in situ remediation, the immobilization efficiency of Cd was 60.2 %, and the physiological-based extraction test bioaccessibility was reduced by 53.9 %. The results of sequential extraction procedures indicated that the transformation from exchangeable (EX) Cd to organic matter (OM) and residue (RS) was responsible for the decrease in Cd leachability in soil. Accordingly, the pot test indicated that Cd uptake by cabbage mustard was suppressed by 86.8 %. Compared to tests using iron phosphate nanoparticles, the addition of BC@Fe₃(PO₄)₂ to soil could reduce the Fe uptake of cabbage mustard. Overall, this study revealed that BC@Fe₃(PO₄)₂ could provide effective in situ remediation of Cd in soil.     

Application of phosphate-solubilizing bacteria for enhancing bioavailability and phytoextraction of cadmium (Cd) from polluted soil

In this study, phosphate-solubilizing bacteria (PSB), Bacillus megaterium, were used to enhance Cd bioavailability and phytoextractability of Cd from contaminated soils. This strain showed a potential for directly solubilizing phosphorous from soils more than 10 folds greater than the control without inoculation. The results of pot experiments revealed that inoculation with B. megaterium significantly increased the extent of Cd accumulation in Brassica juncea and Abutilon theophrasti by two folds relative to the uninoculated control. The maximum Cd concentrations due to inoculation were 1.6 and 1.8 mg Cd g⁻¹ plant for B. juncea and A. theophrasti after 10 wk, respectively. The total biomass of A. theophrasti was not significantly promoted by the inoculation treatment, yet the total biomass of B. juncea increased from 0.087 to 0.448 g. It is also worth to mention that B. juncea predominantly accumulates Cd in its stems (39%) whereas A. theophrasti accumulates it in its leaves (68%) after 10 wk. The change of the Cd speciation indicated that inoculation of B. megaterium as PSB increased the bioavailabilty of Cd and consequently enhanced its uptake by plants. The present study may provide a new insight for improving phytoremediation using PSB in the Cd-contaminated soils.     

Recycling of EDTA solution after soil washing of Pb, Zn, Cd and As contaminated soil

Soil washing with EDTA is known to be an effective means of removing toxic metals from contaminated soil. A practical way of recycling of used soil washing solution remains, however, an unsolved technical problem. We demonstrate here, in a laboratory scale experiment, the feasibility of using acid precipitation to recover up to 50% of EDTA from used soil washing solution obtained after extraction of Pb (5330 mg kg⁻¹), Zn (3400 mg kg⁻¹), Cd (35 mg kg⁻¹) and As (279 mg kg⁻¹) contaminated soil. Up to 100% of EDTA residual in the washing solution and 100%, 97%, 98% and 100% of initial Pb, Zn, Cd and As concentration in the solution, respectively, were removed in an electrolytic cell using a graphite anode. We employed the recovered EDTA and treated washing solution to prepare recycled soil washing solution with the same potential for extracting toxic metals from soil as the original. The efficiency of soil washing depends on the EDTA concentration. Using twice recycled 30 mmol EDTA kg⁻¹ soil, we removed 44%, 20%, 53% and 61% of Pb, Zn, Cd and As, respectively, from contaminated soil.     

超声强化淋洗修复Pb、Cd、Cu复合污染土壤

针对传统淋洗法修复土壤中重金属效率较低的问题,研究了超声强化淋洗技术以提高重金属去除率。以铅（Pb）、镉（Cd）、铜（Cu）为目标污染物,在0.05 mol·L-1柠檬酸、0.05 mol·L-1EDTA和0.05 mol·L-1皂角苷作为淋洗剂条件下,使用传统振荡、超声强化以及超声波加振荡3种不同的作用方式,对Pb、Cd、Cu的去除率进行比较,并对3种不同淋洗方式后Pb、Cd、Cu的形态变化进行了探讨。结果表明,当使用柠檬酸和皂角苷作为淋洗剂进行振荡淋洗时,重金属洗脱效果不理想。超声对于强化柠檬酸洗脱效果并不明显,而对于强化皂角苷洗脱重金属效果明显,平均去除率提高了120.47%。当淋洗剂为EDTA时,土壤样品在传统振荡2 h作用下,对Pb、Cd、Cu的去除率依次为50.33%、76.65%和47.35%,而在超声波30 min条件下对Pb、Cd、Cu的去除率依次为82.19%、83.31%和53.89%,平均去除率高出28.60%,可显著提高重金属去除率,缩短淋洗时间。但超声波30 min加传统振荡2 h相较于单纯超声强化效果提升不明显。通过对比3种淋洗方式后土壤中的Pb、Cd、Cu形态发现,酸可提取态的重金属在超声强化作用后有明显降低,同时超声强化对于铁锰氧化物结合态、有机物结合态和残渣态也具有较好的去除能力。因此,超声强化在化学淋洗中的应用具有一定的可行性,是一种简单、极快速去除污染场地中重金属Pb、Cd、Cu的增效手段。     

磷酸盐稳定化处理铅污染土壤及铅的形态分析

以某铅酸蓄电池厂铅污染土壤为供试土壤,投加不同比例的磷酸二氢钾稳定化处理污染土壤,测定土壤中铅的浸出浓度,以考察磷酸二氢钾对土壤中铅的稳定化效果,并采用BCR（European Community Bureau of Reference）连续提取法进行形态分析,分析磷酸二氢钾对土壤中铅形态分布的影响。结果表明：随着磷酸二氢钾投加比的增加,各处理组铅的浸出液浓度呈下降趋势,投加比为6%时铅的浸出含量可满足《生活垃圾填埋场污染控制标准》中0.25 mg·L-1的浓度限值,达到了预期的稳定化效果。随处理时间延长,磷酸二氢钾对土壤中铅各形态分布变化规律如下：酸可提取态铅和可还原态铅含量呈下降的趋势,可氧化态和残渣态铅则呈增大的趋势。各形态铅含量在前10 min都快速变化,随后变化趋缓。经过磷酸二氢钾处理过的污染土与污染原土相比,酸可提取态和可还原态显著降低,可氧化态和残渣态显著提高。     

氯化铁和硫酸铁对酸性土壤中有效态镉和铅污染的修复作用

采用浸泡实验法研究了氯化铁和硫酸铁对酸性土壤中有效态镉和铅污染的修复效果,结果表明,氯化铁和硫酸铁均能有效去除土壤有效态镉和铅污染,Fe(Ⅲ)用量为50~100 mmol/kg时,有效态Cd和Pb的去除效果可达70%~96%。氯化铁和硫酸铁能去除土壤中的水溶态、碳酸盐结合态、腐殖酸结合态、铁锰氧化物结合态和强有机结合态Cd和Pb及交换态Cd。氯化铁和硫酸铁对Cd均既有洗脱修复作用又有固定修复作用,且洗脱修复作用的贡献稍大;氯化铁用量较小时(50 mmol/kg)对Pb既有固定修复又有洗脱修复作用,固定修复作用稍大;用量较大时(100 mmol /kg),对Pb只有洗脱修复作用。硫酸铁对Pb的修复作用则以固定修复作用为主,洗脱修复作用很小。     

超声波强化EDTA-Na2对土壤中Pb、Cd去除效果及形态变化的影响

通过3种洗脱方式（TE,EDTA-Na2传统洗脱方式;UE-1,超声波先作用于土壤后再加入EDTA-Na2洗脱;UE-2,超声波强化EDTA-Na2洗脱）对湖南典型矿区周边重金属复合污染农田土壤进行洗脱处理,研究了3种洗脱方式对土壤中Pb和Cd的洗脱效果及洗脱前后土壤中Pb和Cd的形态分布。结果表明：3种洗脱方式均对土壤中Pb和Cd有较好的洗脱效果,其中UE-2对土壤中Pb和Cd洗脱率均大于TE和UE-1;在作用时间为5~480 min时,UE-2对郴州土壤中Pb和Cd的洗脱率分别为43.9%~55.9%和63.6%~74.4%,对衡阳土壤中Pb和Cd的洗脱率分别为63.1%~80.9%和74.7%~86.7%,相对于传统萃取方式（TE）,UE-2洗脱方式使土壤中Pb和Cd的洗脱率提高了将近25%;与未洗脱土壤相比,UE-2洗脱方式能显著降低土壤中Pb的Fe-Mn氧化物结合态和残渣态含量,显著降低Cd的残渣态、Fe-Mn氧化物结合态和酸可提取态含量;UE-2洗脱方式能显著降低土壤中Cd的TCLP提取态含量,而使Pb的TCLP提取态含量有所增加。     

FeCl3-柠檬酸对土壤中Pb和Cd淋洗动力学特征

采集辽宁省某锌厂周边农田耕作层（0~20 cm）土壤样品,以FeCl3-柠檬酸为淋洗剂,研究在不同pH、温度和离子强度的实验条件下,其对土壤中Pb和Cd的淋洗动力学特征及淋洗机理。结果表明,在实验条件下,随淋洗时间延长,土壤中Cd、Pb的淋洗量不断增加,Pb、Cd的淋洗过程可分为快速反应阶段、慢速反应阶段和解吸平衡阶段;当pH=3、4、5和6,温度为25、35和45℃,离子强度为0.01、0.05、0.2和0.5 mol·L-1时,描述土壤中Pb、Cd淋洗动力学过程时Elovich方程（R2=0.787 0~0.994 8,SE=0.000 2~0.024 2）均优于双常数方程（R2=0.819 2~0.995 5,SE=0.007 6~0.294 5）优于一级动力学方程（R2=0.219 8~0.632 1,SE=0.052 9~0.815 5）,说明在不同环境条件下,该淋洗动力学过程为非均相扩散过程;随pH（6~3,pH=5除外）降低、温度（25~45℃）升高和CaCl2浓度（0.01~0.5 mol·L-1）升高,Pb、Cd淋洗量均增大。     

贝壳粉对污染土壤中Pb、Zn、Cd的稳定化作用

价廉易得且无二次污染的稳定剂开发是重金属污染土壤稳定化修复的关键。以铅蓄电池污染场地Pb污染土壤(CQ土壤样品)及铅锌冶炼厂周边Pb、Zn、Cd复合污染土壤(ZZ土壤样品)为研究对象,用贝壳粉进行稳定化研究,通过毒性特征浸出测试(TCLP)评价其稳定化效果。X射线衍射(XRD)和X射线荧光光谱(XRF)等分析结果表明,贝壳粉的主要成分为CaCO3。稳定化实验结果表明:贝壳粉在2%(质量分数,下同)~10%的添加量下,CQ土壤样品中Pb的浸出浓度降低22%~62%;ZZ土壤样品中Pb、Zn、Cd的浸出浓度分别降低11%~91%、26%~65%、18%~64%。贝壳粉添加后土壤pH升高可能会使重金属形成氢氧化物沉淀;部分重金属可能会通过离子交换作用形成碳酸盐沉淀。经贝壳粉稳定化后土壤中重金属浸出浓度降低,有效降低了重金属的迁移性,因此贝壳粉可作为稳定剂应用于重金属污染土壤的修复。     

How contamination sources and soil properties can influence the Cd and Pb bioavailability to snails

To better understand the fate of metals in the environment, numerous parameters must be studied, such as the soil properties and the different sources of contamination for the organisms. Among bioindicators of soil quality, the garden snail (Cantareus aspersus) integrates multiple sources (e.g. soil, plant) and routes (e.g. digestive, cutaneous) of contamination. However, the contribution of each source on metal bioavailability and how soil properties influence these contributions have never been studied when considering the dynamic process of bioavailability. Using accumulation kinetics, this study showed that the main assimilation source of Cd was lettuce (68 %), whereas the main source of Pb was the soil (90 %). The plant contribution increased in response to a 2-unit soil pH decrease. Unexpectedly, an increase in the soil contribution to metal assimilation accompanied an increase in the organic matter (OM) content of the soil. For both metals, no significant excretion and influence of source on excretion have been modelled either during exposure or depuration. This study highlights how the contribution of different sources to metal bioavailability changes based on changes in soil parameters, such as pH and OM, and the complexity of the processes that modulate metal bioavailability.     

赤泥添加对石灰性土壤中Pb、Cd形态分布及小麦根系的影响

通过田间种植小麦实验,研究添加不同剂量拜耳赤泥（0%、1%、2%、3%、4%和5%）对重金属污染的石灰性土壤Pb、Cd化学形态和小麦幼苗根系的影响。培养1个月,添加赤泥显著地提高了土壤pH值,提高幅度随赤泥投加量增加而增大。培养3个月,添加不同剂量的赤泥均明显降低土壤中可交换态Pb和Cd的含量,赤泥投加量为5%时效果最为显著,分别比对照下降90%和72%。添加赤泥对所种植小麦幼苗的根系也有影响。种植5个月,小麦根系总根长、总表面积和总体积等随添加赤泥的剂量增加呈现先增大后减小的趋势,赤泥投加量为3%时增幅最大,总根长、总表面积和总体积分别比对照增加88.23%、75%和90.32%。研究表明,赤泥可作为重金属污染的石灰性土壤的理想改良剂,但考虑到小剂量赤泥（即1%~3%）促进重金属污染农田中小麦根系的生长,建议在种植区采用小剂量赤泥（即3%）处理的重金属污染修复方案。     

矿区土壤中重金属元素含量异常的调查

对某金矿区下游土壤重金属元素含量异常区进行了调查,研究了异常元素的空间分布和相态组成.通过对土壤、水、农产品、大气沉降物等的采样分析表明,土壤中重金属元素含量异常是由于矿山开采,废水排放,下游引水灌溉造成的.对异常元素的环境影响进行了分析评价,并提出了土壤治理建议.     

Use of bone meal amendments to immobilise Pb, Zn and Cd in soil: A leaching column study

The aim of this study is to test the stabilisation of metals in contaminated soils via the formation of low-solubility metal phosphates. Bone apatite, in the form of commercially available bone meal, was tested as a phosphate source on a mine waste contaminated made-ground with high levels of Pb, Zn and Cd. Triplicate leaching columns were set up at bone meal to soil ratios of 1:25 and 1:10, in addition to unamended controls, and were run for 18 months. The columns were irrigated daily with a synthetic rain solution at pH of 2, 3, and 4.4. After 100 days, the leachate Pb, Zn and Cd concentrations of all amended columns were significantly reduced. For 1:10 treatments, release of these metals was suppressed throughout the trial. For 1:25 treatments, Zn and Cd concentrations in the leachates began to increase after 300 days. DTPA and water extractions showed that Pb and Cd were more strongly held in the amended soils. This study concludes that the complexity of soil processes and the small quantities of metals sequestered precluded determination of a metal immobilisation mechanism.