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1.
复合污染土壤中水稻根际元素特性及效应研究   总被引:1,自引:1,他引:0  
【目的】以广东大宝山重金属复合污染农田为生长介质,通过研究水稻不同部位生长量、 金属含量、 对金属的富集系数,及其与根际、 非根际土金属含量、 形态变化的相关关系,探讨根际效应可能对水稻体内金属积累转运以及生物量的影响。【方法】选取了广东大宝山稻田重金属复合污染(As、 Pb、 Fe、 Cu、 Zn)土壤及当地常见的20个水稻品种进行根际袋试验,即将根际袋内的土视为根际土,根际袋外的土视为非根际土,将供试水稻品种种植于根际袋土壤中60天后收获,测定水稻各部位的生长量、 不同金属的含量,根际土和非根际土中各金属有效态的含量。【结果】Fe、 Cu、 Pb、 Zn、 As在根部的富集系数均大于其在茎叶的富集系数,各金属在茎叶和根部的富集能力排序分别为Zn Cu As ≈ Pb ≈ Fe和Fe Zn As Cu Pb。根际土和非根际土中各种金属有效态含量均为Fe Cu Pb Zn As。研究还发现,有效态Fe、 Cu和Zn浓度对整株干重的影响显著,作用强弱顺序为Cu Zn Fe,对水稻生长影响作用显著的三种有效态金属Fe、 Cu和Zn均为植物生长所必需的元素。供试土壤中有效态Cu浓度对水稻的生长所起的作用最强。根际土有效态Fe浓度对根系Fe的积累作用效果显著,有效态As浓度显著抑制了根系Fe的积累,且有效态As浓度的作用强于有效态Fe。【结论】根际土中有效态Fe对株高、 根干重、 茎叶干重和整株干重均起着抑制作用,有效态Cu对水稻生长起到了促进作用。根际土有效态As和非根际土有效态Zn对根部Fe的积累起到了抑制作用,根际土有效态Fe和非根际土有效态Cu则起到了促进作用。非根际土有效态Fe和有效态Zn对水稻根长的增加均起到了促进作用。  相似文献   

2.
秸秆还田是我国培肥地力和增加农田土壤碳固定的重要措施,但进入农田的秸秆存在着活化土壤重金属的风险。为了解不同来源的秸秆对污染水平不同农田土壤重金属活性的影响,采取相应措施防止因秸秆还田对农田土壤重金属的激活,开展了盆栽和田间小区试验研究秸秆还田配施石灰对水田土壤铜、锌、镉、铅活性的影响。盆栽和田间试验在轻度和重度污染2种土壤上同时进行。盆栽试验中施用秸秆包括重污染水稻秸秆、轻污染水稻秸秆和轻污染油菜秸秆3种,石灰用量设对照(0 kg·hm-2)和石灰处理(750 kg·hm-2)2个处理;田间小区试验设对照(不施秸秆和石灰)、秸秆还田及秸秆还田+石灰3个处理。动态观察了试验过程中土壤有效态重金属、重金属形态及水稻籽粒中重金属积累情况。结果表明,试验初期(前20 d)秸秆还田显著增加了水田土壤中水溶性有机碳与水溶性重金属的含量;与对照处理比较,水溶性重金属含量以重度污染土壤增幅较为明显。试验后期(60 d后)秸秆还田对土壤重金属的活性的影响逐渐变得不明显。油菜秸秆还田土壤中水溶性重金属含量低于水稻秸秆还田,重污染水稻秸秆还田土壤中水溶性重金属含量高于低污染水稻秸秆还田。盆栽试验和田间试验的结果都表明,重污染水稻秸秆还田可轻微增加水稻籽粒中镉的积累,但轻度污染水稻秸秆还田与油菜秸秆还田对水稻籽粒镉积累的影响较小;3种秸秆还田对水稻籽粒铅、铜、锌积累的影响不明显。配施石灰可显著降低土壤中水溶性重金属的含量,降低水稻籽粒中重金属的积累。研究认为,在污染农田管理上应控制重污染水稻秸秆还田,在秸秆还田的同时适量配施石灰。  相似文献   

3.
[目的]稻田土壤重金属污染是当前农产品安全生产关注的重要问题.本文比较分析工业和农业污染源稻田土壤重金属的赋存形态及水稻吸收运移,以期为稻田土壤重金属污染控制提供参考.[方法]在长江中下游地区调查选取工业源和农业源重金属污染稻田各27块,在水稻成熟期使用抖根法采集根际土壤及水稻根系和籽粒样品,采用Tessier七步提取...  相似文献   

4.
There is an increasing concern about rice (Oryza sativa L.) soil microbiomes under the influence of mixed heavy metal contamination.We used the high-throughput Illumina MiSeq sequencing approach to explore the bacterial diversity and community composition of soils in four paddy fields,exhibiting four degrees of mixed heavy metal (Cd,Pb and Zn) pollution,and examined the effects of these metals on the bacterial communities.Our results showed that up to 2 104 to 4 359 bacterial operational taxonomic units (OTUs) were found in the bulk and rhizosphere soils of the paddy fields,with the dominant bacterial phyla (greater than 1% of the overall community) including Proteobacteria,Actinobacteria,Firmicutes,Acidobacteria,Gemmatimonadetes,Chloroflexi,Bacteroidetes and Nitrospirae.A number of rare and candidate bacterial groups were also detected,and Saprospirales,HOC36,SC-I-84 and Anaerospora were rarely detected in rice paddy soils.Venn diagram analysis showed that 174 bacterial OTUs were shared among the bulk soils with four pollution degrees.Rice rhizosphere soils displayed higher bacterial diversity indices (ACE and Chao 1) and more unique OTUs than bulk soils.Total Cd and Zn in the soils were significantly negatively correlated with ACE and Chao 1,respectively,and the Mantel test suggested that total Pb,total Zn,pH,total nitrogen and total phosphorus significantly affected the community structure.Overall,these results provided baseline data for the bacterial communities in bulk and rhizosphere soils of paddy fields contaminated with mixed heavy metals.  相似文献   

5.
养分流失和重金属积累是沼液还田资源化利用过程中的主要问题。为探讨利用浮萍吸收氮磷、富集重金属的能力调控沼液施用中环境污染问题的可行性,在上海市金山区开展了水稻田间试验,研究沼液施用条件下添加浮萍对稻田氮素流失和Cu、Pb的影响。试验设置4个处理:常规化肥、常规化肥+浮萍、沼液全量替代化肥和沼液全量替代化肥+浮萍,测定并比较了不同处理下稻田田面水氮素浓度变化、径流水氮素流失负荷,土壤、水稻籽粒及秸秆中Cu和Pb含量差异。结果表明:不同处理田面水总氮、铵态氮(NH_4~+-N)浓度变化趋势基本一致,均在每次施肥后第1d达到峰值,此后逐日递减,在施肥后第5d降至峰值的30%以下;硝态氮(NO_3~–-N)浓度峰值滞后3~7 d。稻田中添加浮萍能够显著降低田面水TN含量,沼液全量替代化肥+浮萍处理的TN总径流流失负荷为3.67 kg·hm~(-2),比常规化肥处理显著降低37.2%。沼液全量替代化肥+浮萍处理土壤Cu和Pb含量为22.65mg·kg~(-1)和49.05mg·kg~(-1),与其他处理间无显著差异;但土壤有效态Cu和Pb含量较常规化肥处理显著提高18.6%和17.5%。不同处理水稻秸秆Cu和Pb、籽粒Pb含量无显著差异,但沼液全量替代化肥+浮萍处理水稻籽粒Cu含量较沼液全量替代化肥处理显著减少41.1%。综上,沼液施用条件下添加浮萍可以降低稻田氮素流失,在控制土壤、籽粒和秸秆中重金属Cu和Pb含量增加方面具有一定效果,在短期内可以作为沼液还田模式下水体和土壤污染有效的调控手段。  相似文献   

6.
Human exposure to toxic heavy metals via dietary intake is of increasing concern. Heavy-metal pollution of a rice production system can pose a threat to human health. Thus, it was necessary to develop a suitable extraction procedure that would represent the content of metal available to rice plants (Oryza sativa L.). The aim of this study was to predict, on the basis of single extraction procedures of soil heavy metals, the accumulation of heavy metals (cadium, lead, copper, and zinc) in rice plants. Six extracting agents [Mehlich 1, Mehlich 3, EDTA (ethylenediaminetetraacetic acid), DTPA–TEA (diethylenetriaminepentaacetic acid–triethanolamine), ammonium acetate (NH4OAc), and calcium chloride (CaCl2)] were tested to evaluate the bioavailability of heavy metals from paddy soils contaminated with lead–zinc mine tailings to rice. The extraction capacity of the metals was found to be of the order EDTA > Mehlich 3 > Mehlich 1 > DTPA–TEA > NH4OAc > CaCl2. The correlation analysis between metals extracted with different extractants and concentrations of the metals in the grain and stalk of the plant showed positive correlations with all metals. The greatest values of correlation coefficients were determined between the NH4OAc- and CaCl2-soluble fractions of soil and contents in plants in all four metals studied. Therefore, NH4OAc and CaCl2 were the most suitable extractants for predicting bioavailability of heavy metals in the polluted soils to rice. The results suggested that uptake of heavy metals by rice was mostly from exchangeable and water-soluble fractions of the metals in the soils. Soil-extractable metals were more significantly correlated with metal accumulation in the stalk than in the grain. The pH had more significant influence on availability of heavy metals in the soils than total content of metals and other soil properties. The bioavailability of metals for rice plants would be high in acidic soils.  相似文献   

7.
生物质炭与氮肥配施降低水稻重金属含量的盆栽试验   总被引:6,自引:2,他引:4  
针对重金属污染严重的土壤,探索施用氮肥和生物质炭减少水稻重金属吸收的可行性。该研究采用盆栽试验,选用生物质炭、硫硝铵氮肥(简称普通氮肥)和含硝化抑制剂3,4-二甲基吡唑磷酸盐的硫硝铵氮肥(简称3,4-dimethylpyrazolephosphate,DMPP氮肥),设置了5种处理包括对照即未添加氮肥和生物质炭、普通氮肥添加、DMPP氮肥添加、生物质炭+普通氮肥添加和生物质炭+DMPP氮肥添加,研究了不同处理对水稻华航丝苗(Oryza sativa L.)生长和重金属Cu、Zn和Cd吸收特性的影响。结果表明,不配施生物质炭时,DMPP氮肥对水稻籽粒产量无显著(P0.05)影响;生物质炭与普通氮肥或DMPP氮肥配施均能增加水稻籽粒产量:与单施普通氮肥相比,生物质炭与普通氮肥配施水稻籽粒产量显著(P0.05)增加20.3%;与单施DMPP氮肥相比,生物质炭与DMPP氮肥配施水稻籽粒产量显著(P0.05)增加49.3%。与不施肥对照相比,生物质炭与DMPP氮肥配施能降低籽粒Cu、Zn和Cd含量,其籽粒Cu、Zn和Cd质量分数分别显著降低20.0%、21.4%和11.6%。未配施生物质炭时DMPP促进Cu从秸秆向籽粒的转移,配施生物质炭时DMPP促进Cu和Cd从根向秸秆的转移;生物质炭与不同氮肥配施对水稻籽粒/秸秆和秸秆/根Cu、Zn和Cd转运系数的影响因配施氮肥品种不同而存在差异。综上,生物质炭与DMPP氮肥配施可降低籽粒中重金属Cu、Zn和Cd质量分数,促进水稻生长,增加水稻籽粒产量,适宜在多重金属污染稻田施用。  相似文献   

8.
水稻子实对不同形态重金属的累积差异及其影响因素分析   总被引:3,自引:0,他引:3  
在分析成都平原核心区土壤重金属(Cd、Cr、Pb、Cu、Zn)全量、各形态含量及相应点位种植的水稻子实重金属含量的基础上,通过统计分析、空间插值及线性回归方程的模拟,研究了土壤Cd、Cr、Pb、Cu、Zn全量的空间分布状况、各形态重金属含量统计特征,以及水稻子实对重金属各形态的累积差异及其影响因素。结果表明,成都平原水稻土重金属污染较轻,除Cd外,均低于国家土壤环境质量二级标准。土壤中重金属的可交换态含量均较低,Cd主要以铁锰氧化态存在,Cr、Cu、Zn、Pb主要以残渣态存在。水稻子实对5种重金属的累积效应顺序为:Cd>Zn>Cu>Pb>Cr。与水稻重金属累积关系密切的重金属活性形态(可交换态、碳酸盐结合态、铁锰氧化物结合态和有机物结合态)主要有:Cd的碳酸盐结合态、Cr的可交换态、Pb的有机物结合态和Cu的碳酸盐结合态含量;Zn各活性形态对水稻子实含量的影响不明显。土壤理化性质对不同活性形态重金属元素的影响效应各不相同。活性态Cd主要受有机质、pH和容重的影响;活性态Cr与pH、有机质、CEC和容重密切相关;活性态Pb与有机质、容重、中细粉粒、砂粒等均有密切的关系;Cu的活性主要受粘粒、有机质含量的影响;Zn的有效性主要受pH、有机质、砂粒、容重的影响。总的看来,对土壤Cd、Cr、Pb、Cu、Zn各活性形态含量影响效应较强的是有机质、pH、容重,而与土壤吸附性能密切相关的颗粒组成、CEC的影响不甚明显。  相似文献   

9.
我国水稻种植面积和产量分别占世界23%和40%.人类活动,如农药和除草剂施用、采矿、污水灌溉,已经导致了一些地区水稻土污染.开发能够控制、减少水稻对重金属吸收和经食物链传递的技术与方法,对确保食物安全具有重要意义.硫(S)有6个化合态,土壤硫化合物种类多,其在土壤中转化相当复杂,在土壤环境化学研究中具有重要地位.本文收集了国内外有关文献,评述了S在水稻土中的含量、形态及转化,重点阐述了S在根际微域化学行为及其与水稻吸收重金属之间的关联,并提出了未来应开展的主要研究方向.  相似文献   

10.
The geochemical behavior of metals, including Fe, Mn, Pb and Zn, in contaminated paddy soils was investigated during the cultivation of rice crops through laboratory microcosm experiments. From the two paddy fields contaminated by mine tailings, Siheung and Deokeum in Korea, paddy soils were collected and analyzed for their geochemical characteristics. The Siheung paddy soil showed higher levels of heavy metals, whereas the higher potential for the release of metals was anticipated due to the extremely acidic conditions at Deokeum. In microcosm experiments of flooded paddy soils over 18 weeks, Fe and Mn were released in subsurface pore waters by reductive dissolution, and Pb and Zn were dissolved in high amounts at the surface by oxidation of sulfides. Although amorphous Fe oxide-rich layers were formed at the surface of both paddy soils, the release of Pb and Zn were controlled at the surface by these layers only under slightly alkaline conditions at Siheung. Lead and Zn were associated with the reducible and carbonate fractions at the surface paddy soil of Siheung from the sequential extraction on core samples collected during the flooded period. In the acidic conditions at Deokeum, Pb and Zn were continuously released until the late stage of flooding. A great increase in the exchangeable fraction of metals was observed after the soils had drained. The bioavailability of metals for rice crops would be high under acidic conditions at Deokeum, despite the lower levels of heavy metal contamination.  相似文献   

11.
为了解施用不同种类有机物对污染农田土壤重金属行为的影响,布设了田间小区试验,观察研究施用6种不同类型有机物对土壤水溶性重金属和农作物对重金属吸收等的影响。试验设7个处理,分别为对照(不施有机肥)、施新鲜水稻秸秆、新鲜鸡粪、鸡粪堆肥、新鲜猪粪、猪粪堆肥和商品有机肥,动态检测土壤中水溶性重金属含量、田面水中重金属浓度及收获水稻籽粒中重金属含量的变化。结果表明,与不施有机物的对照处理比较,施用各类有机物在试验前期均可明显提高土壤中水溶性重金属和田面水中重金属的含量,总体上以施用新鲜猪粪的最高,其次为新鲜鸡粪,施用商品有机肥的最低。土壤中水溶性重金属含量随试验时间增长逐渐下降。施用各类有机物对水稻籽粒中重金属的积累影响不明显。土壤中水溶性重金属及田面水中重金属含量均与相应的水溶性碳(DOC)浓度呈显著相关性,表明因有机物施用增加土壤中DOC浓度可能是土壤中水溶性重金属含量增加的主要原因;而不同有机物对土壤重金属活性影响的差异可能与有机物本身的分解程度及可释放DOC大小有关。但施用有机物引起的农田土壤水溶性重金属含量的增加是暂时的,对水稻生长后期籽粒中重金属积累的影响不明显。  相似文献   

12.
以苏南某冶炼厂原址场地附近土壤、水稻为对象,研究了土壤及水稻籽粒中重金属(Cu、Pb、Cd)污染状况及其迁移、累积特征。结果表明,研究区土壤重金属综合污染指数均大于3,污染等级超过5级,属重度污染且各重金属间污染程度呈现Cd〉Cu〉Pb的特征,水稻籽粒中重金属Pb、Cd超标严重。在迁移、累积方面,表层土壤重金属呈现出由东南向西北方向扩散的趋势,且向下迁移及在水稻籽粒中累积的趋势明显,各重金属在水稻籽粒中富集能力的大小顺序为Cu〉Cd〉Pb。  相似文献   

13.
A pot experiment, in which composted pig manure was applied to soils at rates of 0%, 0.5%, 1.5%, 3.0%, and 5.0% (W/W) to simulate additions of different amounts of cadmium (Cd), copper (Cu), and zinc (Zn) to soil, was conducted to assess accumulation of metals by rice (Oryza sativa L.) plants from soils treated with manure. Results indicated that Cd concentrations in rice grains were more than the limit of 0.2 mg kg?1 when 0.14 mg kg?1 or more Cd was loaded to Ferralsols by manure application, but it was not more than the limit in Calcaric Cambisols. Zinc contents in polished rice grains did not exceed the permissible limit of 50 mg kg?1 in two soils. Copper concentrations in rice grain were slightly more than the limit of 10 mg kg?1 in Ferralsols but not in Calcaric Cambisols. Results suggested greater risk of heavy‐metal contamination from manure to paddy rice in Ferralsols than in Calcaric Cambisols.  相似文献   

14.
Agricultural intensification has led to the use of high inputs of chemical fertilizers into rice-cultivated lands, and nitrogen and heavy metals in runoff loss from land were a major environmental problem. It is important to mitigate nitrogen and heavy metal pollution for the water body. The nitrogen and heavy metal transformation in the rice field surface water was studied by applied combined organic and inorganic nitrogen fertilizer plus the nitrification inhibitor 3,4-dimethylpyrazole phosphate (DMPP) in the sandy loam paddy soil and blue clayey paddy soil. The results showed that, the application of DMPP in the rice field in organic and inorganic fertilizer combined application models decreased the heavy metal average concentration of total Cu, Zn, and Cd by 22.1 to 30.2, 33.1 to 36.9, and 10.9 to 17.5% in surface water, respectively. Furthermore, in the sandy loam paddy soil and blue clayey paddy soil, the nitrate, nitrite, and total inorganic nitrogen concentrations decreased by 44.4 and 59.6, 90.3 and 88.6, and 14.2 and 25.4% in the rice field surface water with the DMPP addition, in the organic and inorganic fertilizer combined application models in the rice field, respectively. DMPP could be used as an effective nitrification inhibitor to decline the potential nitrogen and heavy metals runoff loss in the combined application models of organic and inorganic fertilizers in some rice fields, minimizing the nitrogen and heavy metal transformation risk from agricultural fields to the water body and being beneficial for protecting the ecological environment.  相似文献   

15.
水稻是我国重要的粮食作物,由于受重金属污染威胁日益增大,其安全生产问题备受关注。通过综述我国稻田土壤及稻米镉污染现状、镉污染土壤改良剂研究进展以及稻米对镉富集的品种间差异,认为在土壤中镉的去除修复技术无法在短时间内实现的前提下,镉排异型水稻品种的筛选与利用是实现其安全生产的一个新的有效措施。在此基础上,配合一些污染土壤改良剂的使用,会进一步增强其安全生产水平。  相似文献   

16.
应卫明  章申 《土壤学报》1988,25(4):366-373
本文探讨了海南岛玄武岩上发育的热带地球化学景观中土壤重金属与机械组成,矿物成分和矿物组合之间的关系。结果表明,砖红壤粘粒并不富集重金属元素,这与砖红壤各粒级矿物分布特征有关,在其粉粒级和砂粒级中有大量氧化铁矿物,面粘粒级中主要是高岭石和三水铝矿。此外,水稻土随粒径变大,重金属含量减少,这同水稻土随粒径增大,粘土矿物迅速减少,长石、石英增多有关。这和一般土壤重金属在不同粒级中分布规律相符合。  相似文献   

17.
不同磷肥浓度下土壤-水稻系统重金属的时空累积特征   总被引:1,自引:0,他引:1  
针对磷肥是水稻田重金属污染的主要来源,采用田间试验与室内分析相结合的研究方法,在吉林省九台市饮马河老稻田区,开展5种磷肥浓度处理对土壤-水稻系统重金属Cd和Pb的时空累积、分布特征研究。结果显示,磷肥中Cd和Pb含量高于土壤背景值,但没有超出国家土壤环境质量(二级)限定范围。磷肥施入土壤后,部分滞留在土壤里,少量向地上部分迁移,水稻根部累积重金属含量较高。随水稻生育期的变化,成熟期重金属在根、叶和籽实累积量最大,茎的重金属累积量在孕穗期达到最大。重金属Cd在水稻各器官的迁移能力为根〉籽粒〉叶〉茎,Pb的迁移能力为根〉叶〉籽粒〉茎,Cd在水稻地上部分的迁移能力要明显强于Pb。磷肥施用量和重金属含量的关系可用线性回归方程来模拟,相关性检验显示重金属累积量与磷肥施用浓度均达到显著相关(P〈0.01)(除根中Cd含量与磷肥浓度达到0.05显著水平),说明水稻栽培生产中过量使用磷肥,能产生重金属对土壤和稻米的污染,进而导致重金属对人畜健康的潜在威胁。  相似文献   

18.
采集南方几种重金属污染下的水稻土,通过室内培养的方法研究土壤CO2排放的动态变化以及微生物学指标的差异。结果表明,在60d的培养期内,前7d土壤呼吸速率较高,占了整个排放量的30.89%~64.37%,并且这一阶段重金属对土壤呼吸速率的影响最大。重金属对土壤微生物生物量的影响表现出增加、抑制与无显著性差异的结果,而重金属对微生物熵及微生物代谢熵(qCO2)的影响却是极显著的,同时表现出增加与降低的不同结果。这说明土壤呼吸以及不同的微生物学指标,在长期的复合重金属污染条件下,其表现并不一致,微生物熵与代谢熵用于基本性质差异较大的土壤时,对重金属的响应更为灵敏。此外,土壤重金属的累积还能提高土壤中有机碳的含量。  相似文献   

19.
水稻土镉污染与水稻镉含量相关性研究   总被引:1,自引:0,他引:1  
采用盆栽试验的方法,考察了水稻土中重金属镉(Cd)的浓度对水稻生长及Cd富集的影响以及Cd在水稻植株的分布情况,并进一步研究了糙米(可食部位)对Cd的富集量与土壤中Cd总量的关系。结果表明,在各个浓度Cd胁迫下,根、茎叶、稻壳、糙米相比,2个品种水稻都是根累积的Cd含量要高于茎叶和稻壳、糙米,即根〉茎叶〉稻壳〉糙米;在水稻的茎叶细胞中,Cd主要分布在细胞壁,细胞可溶性成分,细胞器Cd的分布量较少,即细胞壁〉可溶性部分〉细胞器及膜部分;随Cd浓度增加,茎叶中的Cd积累量极显著增加,各细胞组分中的Cd含量均显著增加;根据国标GB 2762—2005对大米中Cd的限量标准(≤0.2 mg.kg^-1),水稻土土壤总Cd临界值分别为2.0 mg.kg^-(1博优225)、3.1 mg.kg^-(1矮糯)。因此,在污染土壤上宜选种食用部位重金属积累低的水稻品种,以减少人类吸收重金属的风险。  相似文献   

20.
酸性矿石废水短期污染对水稻土的影响   总被引:1,自引:1,他引:1  
邓冬梅  邱玉龙  王银杏  易敏  孙宇飞 《土壤》2016,48(4):754-761
以受酸性矿石废水(ARD)污染1年的水稻田为研究对象,根据“ARD–土壤–水稻”体系中Cu、Cd、Pb和Zn等重金属含量,评价污染风险,分析ARD初期污染土壤中重金属的迁移特性;并分析土壤酸化潜力、理化性质和土壤脱氢酶含量,研究其与土壤重金属间的关系,探讨土壤污染特征,为酸性矿石废水(ARD)短期污染土壤的治理提供依据。结果表明:ARD的p H在2~3,其Cu和Cd分别超过国家V类水标准8.53倍和13倍。受ARD污染1年后,土壤中已有不同程度的Cu的富集,其中污染最严重的污1土壤中Cu(64.0 mg/kg)均超过国家二级标准(50.0 mg/kg),但污染土壤上水稻中的重金属大部分富集在根中,稻米中的重金属均远低于国家食品卫生标准。ARD污染也造成不同程度的土壤酸化和功能衰减,污1样地酸化和功能衰减最严重,其土壤p H和净产酸量(ANG)分别为3.5和H2SO4 12.4 kg/t,土壤脱氢酶活性已降为TBF 0.002 mg/(kg干土?24h)。此外,土壤中重金属含量和土壤酸化及土壤其他理化性质有一定关系,如土壤中总Cu和有效态Cu均和土壤中p H、NAGPH、Fe和SO42–极显著相关(P0.01),而土壤中Cu和Cd均和有效硅和电导率极显著相关(P0.01)。  相似文献   

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