五节芒定居对尾矿砂重金属形态与微生物的影响

在浙江三门尾矿砂堆积地上按定居程度选择4个五节芒（Miscanthus floridulus）定居样地,同时以尾矿砂裸地为对照样地,分别研究了五节芒定居对尾矿砂重金属（铅、锌、铜和镉）形态转化、尾矿砂微生物参数以及二者之间关系的影响。结果表明：五节芒自然定居显著地提高了尾矿砂碳酸盐结合态和硫化物-有机物结合态重金属的含量（P<0.05）,降低了尾矿砂阳离子交换态、铁-锰氧化物结合态和残渣态重金属含量（P<0.05）;除了微生物呼吸熵显著下降（P<0.05）、生物量碳熵不规则变化以外,其他尾矿砂微生物参数均随着五节芒自然定居而显著提高（P<0.05）;典范相关分析表明,尾矿砂微生物参数的总体变化与尾矿砂碳酸盐结合态和硫化物-有机物结合态重金属的含量呈显著正相关（R²=0.9874,0.9939）,而与尾矿砂阳离子交换态、铁-锰氧化物结合态和残渣态重金属含量呈显著负相关（R²=0.9972,0.9964,0.9949）。     

节节草生长对铜尾矿砂重金属形态转化和土壤酶活性的影响

通过盆栽模拟栽培试验,研究了节节草生长对铜尾矿砂重金属形态转化和土壤酶活性的影响。结果表明,节节草生长显著提高了尾矿砂中有机物结合态重金属比例(P0.01),降低了交换态和残渣态重金属比例(P0.05)。土壤过氧化氢酶、脲酶、多酚氧化酶和蔗糖酶活性均随着节节草的生长而不同程度的升高,其中过氧化氢酶和脲酶活性均与植物生长时间呈显著正相关(r过氧化氢酶=0.911,P0.05;r脲酶=0.957,P0.01),多酚氧化酶和蔗糖酶活性在植物生长旺盛期达到峰值,分别是对照组的2.40和2.02倍,随后迅速下降;而磷酸酶活性却显著下降(r磷酸酶=-0.923,P0.05)。土壤酶活性与节节草地下部分干重的相关性大于地上部分;且与土壤有机物结合态重金属的含量呈显著正相关,与交换态和残渣态重金属含量呈显著负相关。节节草生长不仅促进了铜尾矿砂重金属朝螯合态方面转化,有效降低重金属的生物有效性,同时还显著地改善了铜尾矿砂的基质环境和土壤肥力。因此,节节草在铜尾矿废弃地恢复实践中具有较大的应用潜力。     

五节芒定居对尾矿砂微生物群落结构的影响

根据五节芒(Miscanthus floridulus)定居盖度(0、17%、41%、71%和89%),选择了5个尾矿砂研究样地,并分析了尾矿砂微生物群落结构动态及其与土壤理化特性、重金属含量和植物生物量的关系.结果表明:随着五节芒在尾矿砂上的定居,除pH以外,尾矿砂的有机碳、总氮、总磷、NH4+、-N、NO3--N、速效磷的含量、团聚体稳定性和最大持水量均显著性提高,而土壤重金属总量与DTPA可提取量均显著性下降.主分量分析表明,随着五节芒定居,尾矿砂微生物群落总体结构发生了显著变化,其中革兰氏阳性细菌、革兰氏阴性细菌、真菌、放线菌、菌根菌(16:1ω5c和20:3ω3)、藻类脂肪酸含量以及微生物群落多样性(香农-维纳指数)均显著提高,并且与一些土壤理化特性,如NO3--N、速效磷、团聚体稳定性、土壤全氮和五节芒地上、地下生物量存在着显著或极显著正相关关系.仅有革兰氏阴性细菌和菌根菌脂肪酸含量分别与DTPA-铜呈显著负相关.     

稻麦轮作下水稻土重金属形态特征及其生物有效性

在成都平原稻麦轮作下86个土样中重金属全量和各形态含量分析的基础上,采集分析相应点位上种植的主要粮食作物小麦和水稻籽粒的重金属含量,通过描述性统计分析、相关性分析及线性回归方程的模拟,研究了土壤中重金属的形态分布特征及其生物有效性。统计分析结果表明：土壤中Cr、Cu、Pb、Zn各形态含量的分配顺序为：残渣态〉有机物结合态〉铁锰氧化物结合态〉碳酸盐结合态〉可交换态,而Cd各形态含量的分配顺序为：铁锰氧化物结合态〉残渣态〉碳酸盐结合态〉有机物结合态〉可交换态。若以活性态（非残渣态含量）而论,Cd的活性最高,Cr的活性最低。除Cr外,各元素全量与各活性形态之间的关系较为密切。土壤中全Cd含量与4种活性形态Cd含量间的相关性均达极显著水平;Cu、Zn全量分别与其铁锰氧化物和有机物结合态含量,Pb全量分别与其可交换态和铁锰氧化物含量间的相关系数达显著或极显著水平。用卫生部颁布的食品中重金属限量卫生标准评价稻麦籽粒重金属累积情况,其结果表明,小麦籽粒（旱作）中的Cd、Cr、Cu、Pb分别超标14.71%、8.70%、6.50%和17.40%,而水稻籽粒（水作）仅有Pb和Cd含量超标10.90%和8.70%。不同形态重金属对水稻和小麦籽粒中重金属累积的影响效应不同，从多元线性回归方程的回归系数来看：稻一麦籽粒中Cd含量受到土壤中各活性形态Cd含量的影响。除铁锰氧化态Cd和有机物结合态Cd含量分别对小麦和水稻籽粒中Cd的累积表现出负效应外，其余均为正效应。可交换态Cu含量对稻-麦籽粒Cu累积的效应最大，其次受碳酸盐结合态Cu含量的影响。稻一麦籽粒Pb含量的累积受土壤各活性态Pb含量影响效应的差异不甚明显。稻-麦籽粒Zn含量与土壤各活性态Zn含量间无显著线性关系。     

铜尾矿库区土壤与植物中重金属形态分析

对铜陵铜尾矿区土壤和植物中重金属形态进行了研究.结果表明,尾矿库区种植地极端贫瘠,有机质含量仅2.6～.8 g·kg^-1,而土壤Cu、Cd、Pb、Zn含量皆高于对照土壤,其中Cu含量达809.30～1 39.4 mg·kg^-1,Cd含量达3.2～6.3 mg·kg^-1,达到对照土壤30～60倍.结缕草和三叶草体内重金属含量与土壤重金属交换态及有机结合态含量成正相关,与碳酸盐结合态、铁锰氧化物结合态成显著或极显著负相关,与矿物态含量相关性不显著.在两种优势植物中,Cu、Zn、Pb均以活性较低的醋酸提取态、盐酸提取态和残渣态为主;Zn在根系和茎叶中,NaCl提取态占有较大比例,而Cd均以NaCl提取态为主.     

露地栽培向设施栽培转变对菜田土壤重金属含量及形态的影响

为了研究露地栽培向设施大棚栽培转变对土壤重金属含量的影响,对武汉市郊区露地和设施塑料大棚两种栽培条件下菜田土壤重金属Cd、Cr和Pb各形态含量及分布特征进行了研究。结果显示,露地和大棚栽培条件下土壤重金属元素Cr和Pb各种形态含量之间没有明显差异,但Cd各种形态含量间有显著差异;从露地到大棚,土壤中Cd酸可提取态含量从露地的0.62 mg/kg上升到大棚的1.19 mg/kg,其次是Cd残渣态、有机结合态、氧化态和碳酸盐结合态;Cd总含量从露地的0.79 mg/kg升高到大棚的1.58 mg/kg,显著超过土壤环境质量标准中的Cd含量标准值(0.3 mg/kg),达到严重污染水平。Cd碳酸盐结合态和氧化态占总量的比例有所降低,而酸可提取态占总量的比例有所升高。说明从露地到设施大棚栽培,促使了土壤中部分Cd碳酸盐结合态和氧化结合态向酸可提取态转变,提高了土壤中Cd的生物有效性。因此,在设施大棚栽培快速发展的情况下,要加强重金属Cd对土壤污染的治理,减少重金属Cd对蔬菜的毒害。     

绿洲土Cd、Pb、Zn、Ni复合污染下重金属的形态特征和生物有效性

通过模拟基于干旱区绿洲土壤Cd-Pb-Zn-Ni复合污染下的油菜盆栽试验,采用Tessier五步连续浸提法探究了重金属复合污染对油菜生长的影响及其各形态的转化归趋和生物有效性.结果显示,随着Cd-Pb-Zn-Ni复合胁迫水平的升高,油菜的干重先增加后减小,根系的生长由促进作用转变为抑制作用;对照土壤中4种重金属元素均以残渣态为主要赋存形态,可交换态的含量均很小;随着外源重金属的添加,油菜种植土壤中4种重金属元素的各形态含量随之增加,Cd、Pb、Zn的可交换态和Ni的碳酸盐结合态对外界胁迫响应强度最大,Cd、Pb、Zn、Ni的活性增加,且Cd、Pb的主要赋存形态迅速转变为碳酸盐结合态和铁锰氧化态,Zn的主要赋存形态由残渣态和碳酸盐结合态过渡到碳酸盐结合态和铁锰氧化态,Ni的主要赋存形态为碳酸盐结合态;Cd、Zn在茎叶中的含量大于根系,Pb、Ni反之,油菜能将Cd、Zn更多的运输至茎叶,Pb、Ni则主要积累在根系;油菜茎叶吸收Cd和油菜各部位吸收Zn的主要贡献形态为可交换态,根吸收Cd的主要贡献形态由可交换态转变为有机结合态,根吸收Pb和油菜各部位吸收Ni的主要贡献形态为碳酸盐结合态.     

三江源区不同退化程度高寒草原土壤呼吸特征

为了研究高寒草原退化对土壤呼吸的影响, 对三江源区不同退化程度的高寒草原土壤呼吸进行了测定, 分析了土壤呼吸与生物量、土壤温度以及土壤湿度的相关性, 结果表明: 1)不同退化程度的高寒草原土壤呼吸均表现出一定的月动态, 这种月动态在不同退化程度间各有不同。2)高寒草原在退化演替序列上生长季平均土壤呼吸速率呈先增加后降低的变化趋势, 其中在中度退化程度下达到最高值((2.46 ± 0.27) μmol·m^-2·s^-1), 显著高于未退化((1.92 ± 0.11) μmol·m^-2·s^-1)和重度退化((1.30 ± 0.16) μmol·m^-2·s^-1)水平(p < 0.01), 与轻度退化((2.22 ± 0.19) μmol·m^-2·s^-1)无显著差异(p > 0.05), 重度退化程度下呼吸速率显著低于其他退化水平(p < 0.01)。3)地上生物量和土壤呼吸存在极显著线性正相关关系(p = 0.004), 而地下生物量与土壤呼吸的相关性不很显著(p = 0.056)。4)除重度退化外, 未退化、轻度退化和中度退化高寒草原土壤呼吸与土壤温度显著正相关; 土壤呼吸与土壤湿度的二项式拟合方程在轻度退化程度下达到显著水平(p < 0.05), 而在未退化、中度退化和重度退化程度下均达到极显著水平(p < 0.01)。     

强还原过程对设施菜地土壤重金属形态转化的影响

设施菜地由于污水灌溉、粪肥施用等导致重金属污染.本文通过土柱淹水同时添加玉米秸秆培养和后期通水淋洗,研究强还原法对设施土壤重金属(Cd、Cu、Pb和Zn)形态转化的影响.结果表明: 强还原处理使土壤pH显著降低,玉米秸秆处理变化更显著;土壤氧化还原电位(Eh)迅速下降至-280 mV左右.玉米秸秆处理可以促进土壤中Cd、Cu、Pb和Zn活化,第9天土壤中有机物及硫化物结合态和残渣态Cd、Cu、Pb和Zn含量比重下降;至15 d培养结束,土壤中4种重金属含量较对照分别减少18.1%、19.0%、16.1%和15.7%.玉米秸秆处理可以增加土壤中Cd和Zn的溶出量,但是Cu的溶出量减少;胶体结合态Cd和Pb含量较对照增加、Cu较对照显著减少、Zn没有显著变化.强还原可以引起设施土壤重金属活化,提高蔬菜积累重金属的风险,而且其随土壤水分的运移可能导致水体的污染.     

土著重金属抗性细菌强化对尾矿重金属的活化作用

重金属抗性细菌可通过多种机制影响重金属在环境中的可移动性。以梅坑尾矿为研究对象调查了土著重金属抗性细菌强化对重金属化学形态的影响。该尾矿富含Pb(3947.285 mg/kg)和Zn(6202.939 mg/kg),Pb、Zn和Cd主要集中于铁锰氧化物结合态和残渣态,但Cu却主要集中于有机结合态和残渣态。经3周连续强化和7周淹水培养后,尾矿中铁锰氧化物结合态金属总体下降,但可交换态、碳酸盐结合态和有机结合态金属上升,说明土著重金属抗性细菌对尾矿重金属有明显的活化作用。其中Bacillus Z7的活化效果最显著,通过该菌强化,尾矿中的铁锰氧化物结合态Cd、Pb、Cu和Zn分别下降了35.42%(2.991 mg/kg)、33.29%(981.867 mg/kg)、30.57%(1.761mg/kg)和29.29%(803.165 mg/kg)。因此,这些细菌,尤其是Bacillus Z7,可以和超级累植物一起用于尾矿的萃取修复。     

Characteristics and diversity of microbial communities in lead–zinc tailings under heavy metal stress in north-west China

High-throughput 16S rRNA and 18S rRNA sequencing were performed to study the changes of soil microbial diversity and community structure under different heavy metal pollution levels in Chengxian lead–zinc mining area, Gansu Province. In this study, we characterized the main physicochemical properties, multiple heavy metal pollution, and microbial community structure of the soil in the tailings. The results show that the soil near the tailings pond was alkaline, barren and the heavy metals were seriously polluted. The microbial diversity and richness of S1 and S2 sites were significantly lower than that of CK2 site (P < 0·05), indicating that the heavy metal pollution could change the physicochemical properties and microbial community structure in soil. Among 97 identified core operating taxa of fungal communities, Ascomycota, Teguta and Basidiomycota were dominant at the phylum level, while among 1523 identified core operating taxa of bacterial communities, Actinomycota was dominant at the phylum level. In addition, the redundancy analysis and Spearman correlation analysis showed that the physicochemical properties and the heavy metal concentration had significant effects on the composition and distribution of soil microbial community. The basic characteristics of soil physicochemical properties, multiple heavy metal pollution and microbial community structure in the tailings were revealed, hoping to provide a basis for ecological rehabilitation of tailings by revealing the variance rule of microbial community diversity in the future.     

高寒半湿润沙地植物与土壤微生物多样性对植被恢复的响应

为探究植被恢复对高寒半湿润沙化脆弱生态系统的恢复效应,明确植物群落与土壤微生物多样性对恢复的响应,为高寒沙化植被恢复提供科学支撑。以青藏高原东南缘沙化地为对象,通过连续种植老芒麦(Elymus sibiricus)进行植被恢复,分析连续3年恢复后,植物群落物种组成与多样性的变化,土壤微生物群落不同季节数量与多样性的变化,探讨植物与土壤微生物多样性对植被恢复的响应特征。结果表明:老芒麦作为建群种促进植被恢复过程,3年后植物群落物种数量相较对照增加了13种,而物种种类相较对照新增14种,川甘亚菊(Ajania potaninii)从群落中消失,总体表现为短命植物和对水分需求较高的植物种类增加,植物群落物种多样性增加;土壤中微生物群落和微生物数量季节性变化剧烈,在非生长季节后期(4月),土壤细菌含量相较对照组增加了1.2倍(0-15 cm)与1.8倍(15-30 cm),真菌含量相较对照组增加了0.5倍(0-15 cm)和5.1倍(15-30 cm),放线菌相较对照组增加了1.5(0-15 cm)倍和4倍(15-30 cm);土壤微生物多样性显著增加。种植老芒麦恢复高寒半湿润沙化脆弱生态系统,促进了植物群落物种多样性与土壤微生物群落多样性恢复,这将有助于高寒沙化生态系统恢复过程。     

Soil-covered strategy for ecological restoration alters the bacterial community structure and predictive energy metabolic functions in mine tailings profiles

Native soil amendment has been widely used to stabilize mine tailings and speed up the development of soil biogeochemical functions before revegetation; however, it remains poorly understood about the response of microbial communities to ecological restoration of mine tailings with soil-covered strategy. In this study, microbial communities along a 60-cm profile were investigated in mine tailings during ecological restoration of two revegetation strategies (directly revegetation and native soil covered) with different plant species. The mine tailings were covered by native soils as thick as 40 cm for more than 10 years, and the total nitrogen, total organic carbon, water content, and heavy metal (Fe, Cu, and Zn) contents in the 0–40 cm intervals of profiles were changed. In addition, increased microbial diversity and changed microbial community structure were also found in the 10–40 cm intervals of profiles in soil-covered area. Soil-covered strategy rather than plant species and soil depth was the main factor influencing the bacterial community, which explained the largest portion (29.96%) of the observed variation. Compared directly to revegetation, soil-covered strategy exhibited the higher relative abundance of Acidobacteria and Deltaproteobacteria and the lower relative abundance of Bacteroidetes, Gemmatimonadetes, Betaproteobacteria, and Gammaproteobacteria. PICRUSt analysis further demonstrated that soil-covered caused energy metabolic functional changes in carbon, nitrogen, and sulfur metabolism. Given all these, the soil-covered strategy may be used to fast-track the establishment of native microbial communities and is conducive to the rehabilitation of biogeochemical processes for establishing native plant species.

     

Comparative study on effects of four energy plants growth on chemical fractions of heavy metals and activity of soil enzymes in copper mine tailings

Four gramineous energy plants, Miscanthus sacchariflorus, M. floridulus, Phragmites australis, and Arundo donax were grown on copper tailings in the field for four years. Their phytoremediation potential was examined in terms of their effects on the fractions of heavy metals and soil enzyme activities. Results showed that plantation of these four gramineous plants has improved the proportion of organic material (OM)-binding fraction of heavy metals in copper tailings as a whole, and reduced the proportion of exchangeable and residual fractions. In particular, M. sacchariflorus growth improved significantly the proportion of the OM-binding fractions of Cu (1.73 times), Cd (1.71 times), Zn (1.18 times), and Pb (3.14 times) (P < 0.05) and reduced markedly the residual fractions of Cu (64.45%), Cd (82.38%), Zn (61.43%), and Pb (73.41%) (P < 0.05). Except for A. donax, the growth of other three energy plants improved the activity of phosphatase, urease and dehydrogenase in copper tailings to some extent. In particular, the activity of soil phosphatase and urease in planted tailings differed significantly from that of control (P < 0.05). The effect of M. sacchariflorus growth on soil enzyme was the highest, followed by P. australis, M. floridulus, and A. donax. The content of each heavy metal fraction in soil was correlated with soil enzyme activities, especially the content of OM-binding fraction, which correlated significantly with the activities of phosphatase, urease and dehydrogenase in soil. According to the effects of four gramineous plants growth on activity of soil enzymes and fractions of heavy metals, M. sacchariflorus had the optimal effects for phytoremediation. Therefore, M. sacchariflorus was a candidate plant with great potential for the revegetation of heavy metal tailings.     

放射性污染对铀矿区土壤微生物群落结构的影响

为探究放射性及其伴生污染对铀矿区附近土壤微生物群落功能多样性的影响，采集退役铀矿冶周围不同辐射值的土壤为研究对象，通过测定其土壤理化性质、土壤可培养微生物计数及Biolog-ECO微孔板培养，分析土壤放射性污染程度及理化性质对土壤微生物群落功能多样性和数量的影响。结果表明，矿区放射性污染土壤中重金属含量普遍较高，尤其是铅已超出管控标准。随着辐射值的增加，土壤中可培养微生物数量显著下降，特别是放线菌和真菌的数量；微生物群落功能多样性指数、物种丰富度指数、优势度、均一性指数显著下降；对碳源利用也逐渐下降，尤其是对酚酸类和胺类碳源，利用率分别下降25.8%、29.7%。RDA分析发现放射性核素是该区域驱动土壤微生物群落代谢发生变化的主要因素。铀矿区放射性污染及伴随的重金属污染明显改变土壤微生物群落结构，抑制了土壤微生物群落的代谢活性，造成土壤微生物群落功能多样性下降。     

Association of microbial community composition and activity with lead,chromium, and hydrocarbon contamination

Microbial community composition and activity were characterized in soil contaminated with lead (Pb), chromium (Cr), and hydrocarbons. Contaminant levels were very heterogeneous and ranged from 50 to 16,700 mg of total petroleum hydrocarbons (TPH) kg of soil(-1), 3 to 3,300 mg of total Cr kg of soil(-1), and 1 to 17,100 mg of Pb kg of soil(-1). Microbial community compositions were estimated from the patterns of phospholipid fatty acids (PLFA); these were considerably different among the 14 soil samples. Statistical analyses suggested that the variation in PLFA was more correlated with soil hydrocarbons than with the levels of Cr and Pb. The metal sensitivity of the microbial community was determined by extracting bacteria from soil and measuring [(3)H]leucine incorporation as a function of metal concentration. Six soil samples collected in the spring of 1999 had IC(50) values (the heavy metal concentrations giving 50% reduction of microbial activity) of approximately 2.5 mM for CrO(4)2- and 0.01 mM for Pb2+. Much higher levels of Pb were required to inhibit [14C]glucose mineralization directly in soils. In microcosm experiments with these samples, microbial biomass and the ratio of microbial biomass to soil organic C were not correlated with the concentrations of hydrocarbons and heavy metals. However, microbial C respiration in samples with a higher level of hydrocarbons differed from the other soils no matter whether complex organic C (alfalfa) was added or not. The ratios of microbial C respiration to microbial biomass differed significantly among the soil samples (P < 0.05) and were relatively high in soils contaminated with hydrocarbons or heavy metals. Our results suggest that the soil microbial community was predominantly affected by hydrocarbons.     

五节芒对重金属污染土壤微生物生物量和呼吸的影响

选择3个五节芒在重金属污染地的定居点作为研究样地,其中两个为Pb/Zn矿尾矿砂堆积地（W：黄岩铅锌尾矿;Y：三门铅锌尾矿）,一个为冶炼厂附近污染农田（N）,分别测定其根围与根际土壤微生物基础呼吸、微生物量碳、微生物量氮、土壤理化特性和土壤重金属含量.结果表明：根际土壤微生物基础呼吸和微生物量氮均显著地高于根围土壤（P<0.05）,除了N样地外,微生物量碳在根围与根际之间差异不显著（P>0.05）.根际土壤有机碳、总氮（Y样地除外）和离子交换量（N样地除外）低于根围土壤.根际重金属（Pb、Zn、Cu、Cd）总量与DTPA（二乙三胺五乙酸）可提取量普遍低于根围土壤.冗余分析（RDA）表明,根围和根际土壤微生物与土壤理化特性呈不同程度的正相关,而与土壤重金属含量呈现不同程度的负相关.主分量及回归分析同样证明土壤微生物总体变化与土壤理化特性呈正相关（根围R²=0.653;根际R²=0.690）,而与重金属含量呈负相关（根围R²=0.610;根际R²=0.662）.     

不同水肥条件下番茄土壤微生物群落多样性及其与产量品质的关系

采用内含子切接点引物 (Intron-splice junction primer) 和长随机引物的PCR (Polymerase chain reaction, 聚合酶链) 标记技术, 就黄土高原不同水肥处理对日光温室番茄土壤微生物群落多样性进行了研究, 并对产量、品质的影响进行了分析。结果表明, 所用的6个引物共能扩增出182条稳定清晰的条带, 其中142条为多态性条带, 多态性条带为78.02%。聚类分析与主坐标分析表明, 水肥对土壤微生物群落多样性的变化有不同的影响。土壤微生物群落多样性指数与番茄产量、果实的Vc、可溶性蛋白质含量成正相关, 尤其与Vc的相关系数达0.9211, 而与可溶性固形物含量成负相关关系。6个水肥组合中WmFh (中水高肥) 土壤微生物群落多样性指数最高, 且番茄果实的Vc、可溶性蛋白质含量及产量显著高于其他处理, 可溶性固形物含量较低。该组合有利于土壤微生物群落的多样性和稳定性的提高, 利于土壤生态环境的改善和番茄优良品质的形成。     

德兴铜矿尾矿重金属污染对土壤中微生物多样性的影响

【目的】为更好地了解重金属污染与微生物多样性之间的相互作用关系,以江西德兴铜矿4#尾砂库为研究对象,采集野外实地样品共16件进行分析(包括尾砂样品以及周围农田和菜地土壤样品)。【方法】一方面对样品中可培养异养细菌进行平板计数,一方面采用变性梯度凝胶电泳(Denaturing gradient gel electrophoresis,DGGE)对样品中可培养和不可培养微生物分子生态多样性进行研究;同时采用PCA(Principle component analysis)方法分析样品理化性质、重金属及主要元素与可培养细菌数量及微生物多样性之间的相互关系。【结果】元素分析结果表明该尾矿区样品受到不同程度重金属Cu、Cd、Zn、Ni、Pb和Cr的污染;可培养异养细菌在尾砂样品中数量最少,在菜地和农田土壤样品中有明显增加;多样性指数(Shannon-Weaver index H)计算结果发现H最大值出现在距离尾矿中等距离、重金属浓度在中等程度的样品中。PCA分析结果表明可培养异养菌数量与理化性质如有机碳、有机质、含水率等相关性较大,重金属影响不明显;而多样性指数H除与上述理化性质相关性较大外,还受到重金属Ag、Zn、As、Pb、Ni、Cr等的影响,而在样品中含量普遍比较高的重金属如Cu、Cd等并不成为影响微生物多样性的主要因素。【结论】从这些长期受重金属污染的野外实地样品来看,以上结果说明不同重金属浓度对微生物多样性的影响可能并不是实验室研究的简单的线性关系。