Arsenic speciation for the phytoremediation by the Chinese brake fern, Pteris vittata

Arsenic(As)speciation for the phytoremediation by the Chinese brake fern was studied.In particular,the mechanism of how plants induce compounds containing thiol(SH)and proteins by As exposure in terms of the relationship between As and phosphate uptaken into plant cells was examined.Pteris vittata callus could effciently reduce As(V)to As(III)by the rapid introduction of reductase and synthesize thiols leading to phytochelatins production.Furthermore,Pteris vittata could control phosphate concentration in t...     

野外条件下土壤砷浓度对蜈蚣草砷富集特征的影响

以As超富集植物蜈蚣草广泛分布的湖南省郴州市为例,调查了不同As污染程度下植物对As的富集和转运特点.结果表明,在野外条件下根际土壤中As浓度相对较低时(64～1000mg/kg),蜈蚣草地上部As浓度随根际土壤中As浓度的增加而逐渐增加,而在根际土壤中As浓度相对较高(1000～2712mg/kg)时,蜈蚣草地上部As浓度表现为逐渐下降的趋势.在调查的所有样点中,蜈蚣草对As的转运系数介于1.08到6.03之间,显示出超富集植物的典型特征.结果还表明,在污染区土壤As浓度存在很大的空间变异性,根际土壤与非根际土壤之间的As浓度也存在很大差异.因此,在野外调查时最好是直接采取距离植物根部最近的根际土壤.     

不同磷肥对砷超富集植物蜈蚣草修复砷污染土壤的影响

施肥是提高重金属污染土壤的植物修复效率的必要强化措施之一.通过研究农业生产中常用磷肥对砷超富集植物蜈蚣草生长、砷累积及氮磷钾吸收的影响,确定可提高蜈蚣草修复砷污染土壤能力的最佳磷肥类型.结果表明,与不施砷对照组相比.添加砷处理中施用相应磷肥的蜈蚣草总生物量中蜈蚣草均有所降低(除钙镁磷肥外);在添加砷的情况下,钙镁磷肥、磷酸二氢钙和磷酸二氢铵等3个施磷处理总生物量相对较高.显著高于其他磷肥处理和不施磷处理(0.83 g/pot);地上部砷累积量由大到小的顺序为:磷酸二氢钙>钙镁磷肥>磷酸二氢铵>磷酸二氢钾>磷酸二氢钠>不施磷>过磷酸钙;磷酸二氢钙处理的砷去除效率高达7.28%.由此可见,磷肥能一定程度提高砷超富集植物的修复能力,但不同磷肥对其砷去除效率的影响可达数倍之差,磷酸二氢钙是首选磷肥类型,综合考虑土壤pH、N、P和有效态砷等各种因子,磷酸二氢铵和钙镁磷肥也可作备选肥料类型.     

A combined process coupling phytoremediation and in situ flushing for removal of arsenic in contaminated soil

Phytoremediation and soil washing are both potentially useful for remediating arsenic(As)-contaminated soils.We evaluated the effectiveness of a combined process coupling phytoremediation and in situ soil flushing for removal of As in contaminated soil through a pilot study.The results showed that growing Pteris vittata L.(P.v.) accompanied by soil flushing of phosphate(P.v./Flushing treatment) could significantly decrease the total As concentration of soil over a 37 day flushing period compared with the single flushing(Flushing treatment).The P.v./Flushing treatment removed 54.04% of soil As from contaminated soil compared to 47.16% in Flushing treatment,suggesting that the growth of P.vittata was beneficial for promoting the removal efficiency.We analyzed the As fractionation in soil and As concentration in soil solution to reveal the mechanism behind this combined process.Results showed that comparing with the control treatment,the percent of labile arsenate fraction significantly increased by 17% under P.v./Flushing treatment.As concentration in soil solution remained a high lever during the middle and later periods(51.26–56.22 mg/L),which was significantly higher than the Flushing treatment.Although soil flushing of phosphate for more than a month,P.vittata still had good accumulation and transfer capacity of As of the soil.The results of the research revealed that combination of phytoremediation and in situ soil flushing is available to remediate As-contaminated soils.     

砷-菲对蜈蚣草根部不同碳基团的影响

采用离体鲜根实验和固态13C核磁共振技术(13C-NMR)研究蜈蚣草根部对砷和菲的吸收特征及根部碳基团的影响作用.结果表明,蜈蚣草根部在无蒸腾作用的条件下能够有效地吸收砷和菲,添加菲能够促进离体鲜根对砷的吸收,添加砷也可提高菲的吸收,与对照相比,菲提高了15%~53%.蜈蚣草离体鲜根中以烷氧基C为主,羧基C比例最低,且主要为羧酸、酯和酰胺类羧基C,添加砷和菲会显著增加蜈蚣草离体鲜根中羧基C的比例.蜈蚣草离体鲜根为应对砷和菲的胁迫形成了分子结构更为稳定和复杂的芳香类有机质,从而提高离体鲜根的抗性和适应性.     

贵州兴仁煤矿开采旧址重金属Cd、 Hg和As在常见蕨类及其根际土壤中的含量与积累特征研究

本文对贵州兴仁某处煤矿区旧址自然定居的优势蕨类7科10属(分别为蕨菜、华中介蕨、栗蕨、狗脊、芒萁、顶芽狗脊、耳羽岩蕨、光里白、蜈蚣草和岭南铁角蕨)及其根际土壤重金属(Cd、Hg和As)含量进行了调查分析。结果表明,植物根际土壤Cd含量为0. 03～1. 9 mg/kg,超过了国家土壤二级标准; Hg和As含量分别为0. 5～15 mg/kg和537～5 330 mg/kg,均超过了国家土壤三级标准,其中As超标严重。蕨类植物中蜈蚣草富集As效果最佳,地上部分As含量达1 710 mg/kg,转运系数为1. 4。岭南铁角蕨地上部分Cd含量可高达1 490μg/kg,转运系数达56,具有极强的Cd富集能力。通过相关性分析发现,蕨类吸收Cd和As的量与根际土p H呈显著正相关关系(P0. 05),吸Hg量则与p H呈显著负相关(P0. 05)。土壤中重金属的可交换态与蕨类对重金属的吸收总量均呈显著正相关关系(P0. 05)。单因子污染指数法计算结果显示,废渣堆附近土壤Hg和As污染十分严重,其中As污染已扩散到下游区域。潜在生态风险程度评估表明,该煤矿区重金属Cd、Hg和As复合污染严重,其高风险程度应引起相关部门重视。     

四川汉源万顺铅锌矿区蜈蚣草共附生细菌群落结构对重金属的响应特征

为了充分挖掘重金属污染地区植物共附生细菌资源,提高重金属污染土壤生态修复的效率,利用变性梯度凝胶电泳(Denaturing Gradient Gel Electrophoresis,DGGE)技术,对四川省汉源县万顺铅锌矿区蜈蚣草根状茎中共附生细菌多样性和群落结构进行了研究,并分析了共附生细菌群落结构与蜈蚣草根状茎中有效重金属间的关系.结果表明,不同采样点间的蜈蚣草共附生细菌多样性存在明显差异,多样性指数和丰富度指数均表现为尾矿矿口弃渣区选矿区农田.基于DGGE回收条带序列的系统发育显示,蜈蚣草共附生细菌包括芽孢杆菌属(Bacillus)、伯克氏菌属(Burkholderia)、根瘤菌属(Rhizobium)、假单胞菌属(Pseudomonas)、肠杆菌属(Enterobacteria)和弯曲杆菌属(Campylobacter)等细菌类群.相关性分析表明,共附生细菌多样性指数和丰富度指数均与有效Cu、Cd、Pb、Zn和As含量呈显著正相关(p0.05).冗余分析(Redundancy Analysis,RDA)显示,有效As是影响蜈蚣草共附生细菌群落结构的关键因子,对砷含量较高的采样点,砷对蜈蚣草共附生细菌群落有促进作用,在砷含量相对较低的采样点,共附生细菌群落与砷呈负相关.研究表明,蜈蚣草存在丰富的共附生细菌种群,这些种群受蜈蚣草中有效重金属含量的影响明显,在修复重金属特别是砷污染土壤方面表现出潜在应用价值.     

铅锌矿区蜈蚣草内生放线菌的多样性及群落结构

为了认识重金属累积对植物内生菌的影响,采用变性梯度凝胶电泳(denaturing gradient gel electrophoresis,DGGE)技术及序列分析对四川汉源铅锌矿区蜈蚣草内生放线菌的多样性进行了研究,并分析了内生放线菌多样性与Pb、Zn、Cu和Cd等主要重金属之间的相互关系.结果表明,蜈蚣草不同部分内生放线菌的群落结构和多样性存在一定的差异,多样性指数在2.79~3.29之间,与其他非重金属污染环境植物内生放线菌的多样性指数相似,说明在重金属污染地区仍然存在较为多样的内生放线菌类群.相关分析表明,蜈蚣草内生放线菌多样性指数与Cu、Cd和Pb的含量之间存在显著负相关.DGGE条带序列系统发育显示,链霉菌(Streptomyces)、假诺卡氏菌(Pseudonocardia)、小单孢菌(Micromonospora)、Xianggella为蜈蚣草内生放线菌优势类群,拟诺卡氏菌(Nocardiopsis)、小双孢菌(Microbispora)、马杜拉放线菌(Actinomadura)、弗兰克氏菌(Frankia)以及一些未培养放线菌也在蜈蚣草中存在.研究表明铅锌矿区蜈蚣草内生放线菌存在丰富的多样性,重金属的累积影响了内生放线菌的分布.     

接种丛枝菌根真菌对蜈蚣草吸收铀的影响

采用盆栽土壤实验,模拟铀(uranium,U)污染土壤,以蜈蚣草(Pteris vittata L.)为研究材料,每盆接种丛枝菌根真菌地表球囊霉(Glomus versiforme,Gv)30 g,探索蜈蚣草菌根对U污染土壤不同时间段的修复效果.结果表明,蜈蚣草菌根侵染率2013年9月最低为57.14%,2014年3月最高为75.20%,呈先上升后下降的年周期变化规律;同一时期蜈蚣草的生物量(干重)Gv组显著高于CK组,根系最为明显;接种Gv组蜈蚣草各器官总U含量均显著高于CK组,且被吸收的U主要固定在根部,Gv组根部总U含量均高于同一时期CK组;接种Gv组基质中总U含量小于CK组,其中接种Gv后蜈蚣草对铁锰氧化态和硫化物态U的吸收效果最好;基质中各形态U随培养时间的延长含量均呈下降趋势.接种Gv组比CK组富集系数大,且均大于1;菌根侵染率与富集系数呈显著正相关关系.以上结果说明接种Gv促进蜈蚣草对U的吸收,因此,蜈蚣草丛枝菌根真菌共生体对治理U污染土壤有良好的应用前景.     

高岭土吸附态铜对鲤鱼鱼鳃的生物有效性

为了验证高岭土颗粒吸附态铜对鲤鱼鳃部的生物有效性并从形态的角度对其可能的机理进行说明,本研究在保持水相溶解态铜浓度不变、高岭土颗粒吸附态铜浓度递增的条件下进行了暴露实验,并利用MINTEQA2化学平衡计算软件分析了鱼鳃微环境中铜的形态分布特征.暴露实验的结果表明鲤鱼鳃样的铜吸收率随颗粒态铜浓度的递增而增加; 形态分析的结果表明颗粒吸附态铜在鱼鳃微环境中会发生一定程度的离解,从而转化为可被鱼鳃直接吸收的形态.     

稳定化处理砷污染土壤对3种修复植物的生态效应

为探索某矿区高浓度砷污染土壤的污染控制与生态修复,以粉煤灰、干化污泥、粉碎花生壳、硫酸亚铁（Fe₂SO₄）和磷酸二氢钾（KH₂PO₄）为稳定剂,采用其不同组合对矿区土壤进行稳定化处理,以蜈蚣草、香根草、苎麻为供试植物,研究稳定化处理对土壤中As的形态转化及其对修复植物的生态效应.结果表明,添加不同稳定剂组合处理后,土壤pH值、有机质、阳离子交换量显著增加,增幅分别为：24.4%~29.0%、23.3%~41.1%、17.8%~45.0%;10%粉煤灰、10%干化污泥和1% Fe₂SO₄组合处理对土壤中的As稳定化作用最佳,可交换态As和碳酸盐结合态As含量下降最显著,降幅分别为62.3%、55.3%;添加KH₂PO₄会活化土壤中As,10%粉煤灰、10%干化污泥和1% KH₂PO₄组合处理,土壤中可交换态As、碳酸盐结合态As含量显著增加,增幅分别为26.9%、101.9%.不同稳定剂的组合处理能不同程度的提高3种植物生物量、影响As在植物中的富集、增加植物对As的累积量.3种植物生物量的大小表现为苎麻 > 蜈蚣草 > 香根草.粉煤灰、干化污泥和粉碎花生壳组合处理使蜈蚣草和苎麻地上部分生物量干重增加最显著;粉煤灰、干化污泥、粉碎花生壳、Fe₂SO₄和KH₂PO₄组合处理使香根草地上部分生物量干重增加最显著.10%粉煤灰、10%干化污泥和1% Fe₂SO₄组合处理使蜈蚣草、香根草和苎麻地上部分As含量下降最显著,降幅分别为45.5%、29.5%和53.9%;而10%粉煤灰、10%干化污泥和1% KH₂PO₄的组合处理使蜈蚣草、香根草和苎麻地上部分As含量显著增加,增幅分别为：12.8%、25.2%和62.7%.粉煤灰、干化污泥、粉碎花生壳、Fe₂SO₄和KH₂PO₄组合处理使蜈蚣草、香根草和苎麻地上部分对As的累积量都达到最大值,与对照相比,分别增加了3.7倍,12.8倍和3.3倍.3种植物对As的富集能力和累积量表现为蜈蚣草 > 香根草 > 苎麻.     

A novel colorimetric method for field arsenic speciation analysis

Accurate on-site determination of arsenic (As) concentration as well as its speciation presents a great environmental challenge especially to developing countries. To meet the need of routine field monitoring, we developed a rapid colorimetric method with a wide dynamic detection range and high precision. The novel application of KMnO₄ and CH₄N₂S as effective As(Ⅲ) oxidant and As(V) reductant, respectively, in the formation of molybdenum blue complexes enabled the differentiation of As(Ⅲ) and As(V). The detection limit of the method was 8 μg/L with a linear range (R² = 0.998) of four orders of magnitude in total As concentrations. The As speciation in groundwater samples determined with the colorimetric method in the field were consistent with the results using the high performance liquid chromatography atomic fluorescence spectrometry, as evidenced by a linear correlation in paired analysis with a slope of 0.9990-0.9997 (p < 0.0001, n = 28). The recovery of 96%-116% for total As, 85%-122% for As(Ⅲ), and 88%-127% for As(V) were achieved for groundwater samples with a total As concentration range 100-800 μg/L. The colorimetric result showed that 3.61 g/L As(Ⅲ) existed as the only As species in a real industrial wastewater, which was in good agreement with the HPLC-AFS result of 3.56 g/L As(Ⅲ). No interference with the color development was observed in the presence of sulfate, phosphate, silicate, humic acid, and heavy metals from complex water matrix. This accurate, sensitive, and easy-to-use method is especially suitable for field As determination.     

Arsenic uptake and transport of Pteris vittata L. as influenced by phosphate and inorganic arsenic species under sand cu｜ture

In order to understand the similarity or difference of inorganic As species uptake and transport related to phosphorus in As-hyperaccumulator, uptake and transport of arsenate (As(Ⅴ)) and arsenite (As(Ⅲ)) were studied using Pteris vittata L. under sand culture. Higher concentrations of phosphate were found to inhibit accumulation of arsenate and arsenite in the fronds of P. vittata. The reduction in As accumulation was greater in old fronds than in young fronds, and relatively weak in root and rhizome. Moderate increases, from 0.05 to 0.3 mmol/L, in phosphate reduced uptake of As(Ⅲ) more than As(Ⅴ), while the reverse was observed at high concentrations of phosphate (≥ 1.0 mmol/L). Phosphate apparently reduced As transport and the proportion of As accumulated in fronds of P. vittata when As was supplied as As(Ⅴ). It may in part be due to competition between phosphorus and As(Ⅴ) during transport. In contrast, phosphate had a much smaller effect on As transport when the As was supplied as As(Ⅲ). Therefore, the results from present experiments indicates that a higher concentration of phosphate suppressed As accumulation and transport in P. vittata, especially in the fronds, when exposure to As(Ⅴ); but the suppression of phosphate to As transport in the root or rhizome may be insignificant when P. vittata when exposure to As(Ⅲ) under sand culture conditions. The finding will help to understand the interaction of P and As during their uptake process in P. vittata.     

磷肥对砷污染土壤的植物修复效率的影响:田间实例研究

通过田间试验研究施用磷肥对砷超富集植物蜈蚣草(PterisvittataL.)生长和砷污染土壤修复效率的影响.结果表明,适量施用磷肥促进蜈蚣草的生长,显著提高其生物量,但过量施用磷肥对植物产量无贡献.随着磷肥施用量的增加,蜈蚣草地上部砷含量呈先增加后减少的趋势,理论上在施磷量为340kg·hm-2时,砷含量可达最高(1622mg·kg-1).磷的含量与施磷量呈极显著的正相关关系.施磷量为200kg·hm-2的砷累积量最高,是不施磷处理砷累积量的2 4倍及600kg·hm-2施磷量砷累积量的1 2倍.种植蜈蚣草7个月后,土壤总砷均有不同程度的下降,施磷量为200kg·hm-2的土壤中砷含量下降5 0mg·kg-1,土壤修复效率最高(7 84%).对照和600kg·hm-2施磷量处理的土壤修复效率分别为2 31%和6 63%.理论上达到最大土壤修复效率所需施磷量为369kg·hm-2.施用磷肥可以维持土壤有效态砷含量在蜈蚣草种植前后变化不大,保证蜈蚣草下个生育期对砷的吸收.这些结果说明施用磷肥是蜈蚣草等砷超富集植物在现场修复中的必要手段,优化施磷技术可大大提高砷污染土壤的修复效率.     

Arsenic uptake and transport of Pteris vittata L.as influenced by phosphate and inorganic arsenic species under sand culture

In order to understand the similarity or difference of inorganic As species uptake and transport related to phosphorus in As-hyperaccumulator,uptake and transport of arsenate(As(V))and arsenite(As(III))were studied using Pteris vittata L.under sandculture.Higher concentrations of phosphate were found to inhibit accumulation of arsenate and arsenite in the fronds of P.vittata.The reduction in As accumulation was greater in old fronds than in young fronds,and relatively weak in root and rhizome.Moderateincreases,from 0.05 to 0.3 mmol/L,in phosphate reduced uptake of As(III)more than As(V),while the reverse was observed at highconcentrations of phosphate(1.0 mmol/L).Phosphate apparently reduced As transport and the proportion of As accumulated in frondsof P.vittata when As was supplied as As(V).It may in part be due to competition between phosphorus and As(V)during transport.Incontrast,phosphate had a much smaller effect on As transport when the As was supplied as As(III).Therefore,the results from presentexperiments indicates that a higher concentration of phosphate suppressed As accumulation and transport in P.vittata,especially inthe fronds,when exposed to As(V);but the suppression of phosphate to As transport may be insignificant when P.vittata exposed toAs(III)under sand culture conditions.The finding will help to understand the interaction of P and As during their uptake process in P.vittata.     

海藻酸锆/聚N-异丙基丙烯酰胺半互穿网络凝胶球的除磷性能

利用离子交联和自由基聚合反应制备了一种海藻酸锆/聚(N-异丙基丙烯酰胺)半互穿网络凝胶球(ZA/PNIPAM),用于吸附水中的磷酸盐.考察了溶液初始pH、吸附剂投加量、初始磷酸盐浓度和共存阴离子等因素对凝胶球吸附性能的影响.结果表明:ZA/PNIPAM在pH=2时可获得较大的吸附能力;随着投加量的减少、初始磷酸盐浓度的升高,凝胶球的吸附性能逐渐增大;SO_4~(2-)对吸附性能影响较Cl~-和NO_3~-明显.准二级动力学模型和颗粒内部扩散模型可以较好地拟合动力学吸附数据,表明表面吸附和颗粒内部扩散是吸附速率的主要控制步骤.吸附等温线数据可以较好地被Freundlich模型描述,表明吸附过程为非均匀多分子层吸附.FTIR、XPS、零电荷点(pH_(pzc))的结果以及相关吸附数据揭示凝胶球吸附磷酸盐的机制为静电吸附(物理吸附)以及配位交换(化学吸附)的共同作用.经过4次循环再生后,ZA/PNIPAM吸附性能保持稳定,具有良好的重复使用性.     

螯合剂添加对蜈蚣草修复砷污染土壤效果的影响分析

用盆栽试验的方法,研究了3种可生物降解螯合剂谷氨酸二乙酸四钠（GLDA）、甲基甘氨酸二乙酸（MGDA）、乙二胺二琥珀酸（EDDS）和1种传统螯合剂乙二胺四乙酸（EDTA）,在不同浓度（0,1.25,2.50,5.00,10.00 mmol/kg）下对蜈蚣草吸收土壤中As的影响。研究表明:4种螯合剂在1.25 mmol/kg时均能显著提高蜈蚣草生物量。EDDS在10 mmol/kg时根际土壤生物有效态As的含量最高,较空白组CK提高了69.2%。GLDA在10.00 mmol/kg时根际土壤As较原土壤降低了28.84%。浓度为5.00 mmol/kg的EDDS处理的蜈蚣草对As的富集系数BCF最高,为7.99,是CK的1.70倍。综合蜈蚣草生物量和对As的BCF值来看,5.00 mmol/kg MGDA地上部分对As积累量最大,其值为2648.65 μg/pot,较CK提高了65.92%。已被广泛应用于修复土壤Cd和Zn领域的新型螯合剂GLDA和MGDA在修复土壤As污染同样具有明显的潜力。     

氧化镁基生物质炭高效去除水体中磷的特性

利用花生壳为前驱体,在高温限氧条件下,将氧化镁(MgO)负载于生物质炭(BC)表面制备出氧化镁基生物质炭(MgOBC)复合材料.系统研究了MgO-BC对水体中P的吸附特性,并探讨了溶液pH值、接触时间、竞争离子等因素对P的吸附效果的影响.结果表明,P的最佳吸附初始pH为7~9,过酸过碱的环境均不利于P的吸附;P的吸附过程可在540 min内达到平衡,且动力学曲线较好地符合伪一级和伪二级动力学模型,拟合系数可达97.3%和99.0%;当Cl~-、HCO_3~-、NO_3~-等共存离子的量浓度达到P的10倍时,MgO-BC对P仍具有较强的吸附能力;P的吸附过程较好地符合Langmuir等温模型,拟合系数达99%,理论最大吸附容量为138.07 mg·g~(-1),远高于其它未经改性或改性的生物质炭和几种典型P吸附剂的吸附容量.此外,吸附P后的复合材料可作为肥料施入土壤,可有效实现P的再利用.综上所述,该MgO-BC复合材料在净化实际P污染水体中有着广阔的应用前景.     

遵义市湘江河表层沉积物中重金属赋存形态及潜在生态风险

遵义市湘江河流经主城区,沿岸人口密度大,流域内生活污水和工农业活动产生的重金属汇入湘江河,为了解该河段的重金属污染分布特征及评价潜在生态风险,采用改进的BCR连续提取法提取并分析遵义市主城区湘江河8个表层沉积物样本中9种重金属元素的赋存形态,分别使用电感耦合等离子体原子发射光谱法测定w（Cu）、w（Zn）、w（Pb）、w（Cd）、w（Cr）、w（Mn）和w（Ni）,原子荧光光度法测定w（As）和w（Hg）.结果表明:①w（Cu）、w（Zn）、w（Pb）、w（Cd）、w（Cr）、w（Mn）、w（Ni）、w（As）和w（Hg）的平均值分别为64.89、313.75、75.93、1.44、93.95、1507.98、33.74、13.50和0.68 mg/kg,除w（As）外,其他重金属的平均值均高于贵州沉积物重金属背景值.②w（Cu）、w（Zn）、w（Pb）、w（Cd）、w（Mn）和w（Hg）在不同采样点间的变异系数分别为54.91%、93.33%、78.73%、85.00%、106.46%和93.44%,受人为活动的干扰较大.Cu与Cr、Zn与Pb、Cd与Pb之间存在极显著正相关关系（P < 0.01）,其污染来源可能具有同源性.③重金属的赋存形态在不同采样点间的空间分布差异较大,Cu、Pb、Cr、Ni、As和Hg的主要赋存形态为残渣态,占比分别为52.72%、59.31%、84.39%、79.09%、89.14%和99.87%;Mn以酸提取态为主,占比为61.58%;Cd以可氧化态为主,占比为50.19%.次生相与原生相分布比值法（RSP）评价结果显示,Cr、Ni、As和Hg对湘江河水环境产生潜在生态危害的风险较低,Mn和Cd的生态危害风险较高.      

钙、氯对磷酸盐稳定污染土壤中铅的促进作用研究

为探讨促进磷酸盐稳定污染土壤中铅的方法,在全铅含量为517 mg·kg-1的铅冶炼污染土壤中加入5 mmol·kg-1磷酸盐,同时加入10mmol·kg-1硝酸钙或5 mmol·kg-1氯化钾,在15%或30%的含水率下培养40 d,之后种植黑麦草.结果表明,与单独施用磷酸盐相比,采用磷酸盐与钙、氯结合或增加培养期间的土壤含水率后,土壤DTPA-Pb含量下降3.92%~26.1%;对于同一添加剂处理,培养期间土壤含水率从15%增加到30%,土壤有效铅(DTPA-Pb)含量下降8.83%~24.4%.增加土壤含水率后,土壤有效磷(Olsen-P)含量均显著升高(p0.05).土壤铅的EXAFS分析表明,与未施用磷酸盐的对照相比,土壤中加入磷酸盐后矿物态铅的比例由57%上升至81%,加施钙、氯或增加土壤含水率后,多数处理矿物态铅的比例有所下降,而有机结合态铅比例上升.与对照相比,污染土壤中施用磷酸盐后,植物产量大幅增加,但施用钙、氯或增加培养期间含水率后,部分处理植物产量有所下降.以上结果表明,在铅冶炼污染土壤中加入磷酸盐时,加入钙、氯或者增加土壤含水率均有利于铅的稳定,但以上措施可能对植物生长产生不利影响.