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Response of an agricultural soil to pentachlorophenol (PCP) contamination and the addition of compost or dissolved organic matter 总被引:1,自引:0,他引:1
Rosalia Scelza Maria Antonietta Rao Liliana Gianfreda 《Soil biology & biochemistry》2008,40(9):2162-2169
The response of a fresh, agricultural soil when contaminated with pentachlorophenol (PCP) and supplemented with compost (C) or dissolved organic matter (DOM) was studied in the laboratory. The concentration of PCP and the changes in various functionally related properties (i.e. microbial biomass, basal respiration, soil hydrolase and oxidoreductase activity) were measured over 150 d. Variations in the main physical and chemical properties of the soils were also monitored. Two different doses of compost (C1 = 0.27% and C2 = 0.83%, corresponding to 10 and 30 t ha−1, respectively) or DOM (D1 = 0.07% and D2 = 0.2%) equivalent to the carbon content of the two compost doses C1 and C2 were used and the following five systems were investigated: soil (S), soil–compost (S-C1 and S-C2) and soil–DOM (S-D1 and S-D2). PCP concentrations declined progressively and significantly with time. This effect was most pronounced for the soils amended with the lower compost dose C1 (S-C1) and with the two DOM (S-D1 and S-D2) amounts. Significantly reduced amounts of PCP were extracted after its 500-d residence in the various systems. Higher amounts of the residual PCP were extracted from the humic acids (HA), fulvic acids (FA) and humin–mineral (HU) fractions of the 500 d aged samples than from the same unfractionated samples, indicating that the residual PCP preferentially accumulated in the organic fractions of soil. The soil showed an endogenous microbial activity as indicated by basal respiration, microbial biomass and all the enzymatic activities tested (dehydrogenase, glucosidase, phosphatase, arylsulphatase and urease). Addition of the PCP severely depressed some of the tested biochemical properties suggesting an inhibitory effect on microbial activity. Conversely, higher basal respiration, and similar β-glucosidase and phosphatase activities were measured in comparison with the controls. No significant effects were observed following the addition of two doses of the compost or the DOM. Fungal colonies belonging to the taxonomic group of Ascomycetes and identified as Byssochlamys fulva developed with time in all the PCP-contaminated samples. Growth of B. fulva in vitro in the presence of PCP showed that the isolate was tolerant to 12.5 and 25 mg l−1 PCP and degraded 20% of its initial concentration in 8 d. Overall, the results indicate that many complex processes occurred in the contaminated soil and combinations of these determined the response to PCP contamination. The sorption of PCP to the soil matrix (which increased with time) and its degradation/transformation by indigenous soil microbial activity were likely involved. Both the processes appeared to be favoured by the presence of dissolved organic matter. 相似文献
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建立液液萃取-QuEChERS净化-高效液相色谱-串联质谱法测定可溶性粉中五氯酚酸钠含量的新方法。 可溶性粉先用水溶解后加入1moL/L 盐酸1mL调pH至4左右,加入乙醚液液萃取到乙醚层,蒸干乙醚,乙腈复溶,QuEChERS净化管净化后高效液相色谱-串联质谱测定,标准曲线外标法定量。 五氯酚酸钠在0.50~100μg/L质量范围内线性关系良好,相关系数为0.9994,检出限0.5μg/kg,定量限1.0μg/kg,可溶性粉剂中五氯酚酸钠添加量为1.0、5.0、10.0μg/kg时,五氯酚酸钠的平均回收率为80.2%~94.0%,相对标准偏差小于7%。 该方法快速、高效且价格低廉,适用于饲料添加剂可溶性粉中五氯酚酸钠的快速筛查分析测定。 相似文献
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为了解五氯酚(PCP)降解过程中参与PCP降解的微生物多样性,本文应用16SrRNA基因克隆文库方法对PCP厌氧生物降解体系中细菌群落的组成和相对丰度进行了研究。结果表明,TM7类群的微生物在整个细菌群落中占有最大丰度(48.6%),检测到的序列与在三氯乙烯污染的地下水中检测的克隆子有一定的序列相似性(93.6%)。丰度位居第二的微生物类群为β-变形菌纲(Betaproteobacteria)细菌,其中的一些克隆子(10.8%)与脱氯微生物Dechlorosoma suillum具有极高的序列同缘性(99.7%)。此外,也检测到少数Clostridium属[厚壁菌门(Firmicutes)类群]的微生物。克隆文库中发现许多序列(占整个克隆文库的51.3%)与Gen Bank中已报道的序列具有较远的同源性(小于93.4%),它们可能代表新的微生物。本研究进一步拓宽了对PCP降解微生物多样性的认识。 相似文献
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The phytoremediation of xenobiotics depends upon plant-microbe interactions in the rhizosphere, but the extent and intensity of these effects are currently unknown. To investigate rhizosphere effects on the biodegradation of xenobiotics, a glasshouse experiment was conducted using a specially designed rhizobox where ryegrass seedlings were grown for 53 days in a soil spiked with pentachlorophenol (PCP) at concentrations of 8.7±0.5 and 18±0.5 mg kg−1 soil. The soil in the rhizobox was divided into six separate compartments at various distances from the root surface. Changes in PCP concentrations with increasing distance from the root compartment of the rhizobox were then assessed. The largest and most rapid loss of PCP in planted soil was at 3 mm from the root zone where total PCP decreased to 0.20 and 0.65 mg kg−1, respectively with the two PCP treatments. The degradation gradient followed the order: near-rhizosphere>root compartment>far-rhizosphere soil zones for both concentrations where ryegrass was grown. In contrast, there was no difference in PCP concentration with distance in the unplanted soil. The increases in both soil microbial biomass carbon and the activities of soil urease and phosphatase were accompanied by the enhanced degradation of PCP, which was higher in the near-rhizosphere than far-rhizosphere soil. The results suggest that the effect of root proximity is important in the degradation of xenobiotics such as PCP in soil. 相似文献
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Summary Every second month for 2 years a beech forest floor was treated with pentachlorophenol and 2,4,5-trichorophenoxyacetic acid each in two concentrations. The microbial biomass and its respiration activity in the three litter horizons were measured during this time and during a recovery period of 2 years after the treatment was stopped. The microbial biomass, mainly fungi, was decreased dose-responsively, as was the respiration rate. The doubling time of the fungal biomass was estimated to be about 50–100 days in the F horizon, and considering the natural decreases and recovery times observed, it is suggested, following Domsch et al. (1983), that a biomass decrease of 75%–93.75% is tolerable, a decrease of less than 75% is negligible, and a decrease of over 93.75% is critical. 相似文献
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Summary The acute toxicity of Cd (chloride), chloroacetamide, 3,4-dichloroaniline and pentachlorophenol to the earthworm Eisenia fetida andrei was determined using the OECD (1984) artificial soil and contact testing procedures. To investigate the influence of two soil characteristics (pH and organic-matter content), the toxicity of the chemicals was also determined in two natural sandy soils. It is concluded that the filter-paper contact test cannot be recommended to predict earthworm toxicity of these chemicals in soil. Toxicity in soil was influenced by both pH and organic-matter content. Differences between LC50 values in the high-organic-matter artificial soil and in an acid, low-organic-matter sandy soil were, however, not greater than a factor of 3–4. The results of this study therefore support the use of a well-defined artificial soil substrate for standardized earthworm toxicity tests. 相似文献
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杨树品系在五氯酚污染土壤上的生长适宜性试验 总被引:1,自引:0,他引:1
为筛选用于五氯酚污染土壤植物修复的备选植物材料,采用土培试验,设置5个不同浓度的五氯酚污染处理,通过观测植株地茎、株高和生物量等3个指标对8个不同的供试杨树品系进行了生长适应性评价.结果显示,LA08-N26生物量最大,株高受土壤中五氯酚浓度的影响最小;LA02-N26和2A07N33生物量小于LA08-N26,其株高及地茎受到的影响较小.这3个杨树品系均在五氯酚污染土壤上具有较强的适应能力,可以作为修复五氯酚污染土壤的备选植物材料.其余供试品系因观测指标易受污染浓度影响,初步判断不适合在五氯酚污染的土壤上生长. 相似文献
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Yan He Jianming Xu Xiaofei Lv Zhaohui Ma Jianjun Wu Jiachun Shi 《Soil biology & biochemistry》2009,41(9):1807-1813
To understand root–soil–microbe interactions in rhizo-depletion of xenobiotics, we conducted a glasshouse study using specially designed laminar rhizoboxes which allow intact layers of near- (1–5 mm) and far- (>5 mm) rhizosphere soil to be harvested separately from root surfaces without the removal of the root material itself. Plant (Lolium perenne L.) seedlings were grown for 90 days in a soil treated with PCP at 20 and 50 mg kg−1. Changes in PCP depletion, soil microbial biomass and community structure (as indicated by phospholipid fatty acids (PLFAs) profiles) with increasing distance from the root surfaces were then assessed after harvesting. Surprisingly, depletion of PCP in the planted rhizoboxes exhibited a nonlinear dependence on the distance to root surfaces, with the most rapid loss in the 2 or 3 mm near-rhizosphere layers, contrasting to the well-known linear gradient of root exudates and mineral nutrients etc. (generally, the extent gradually decreased with increasing distance from the root surface). Soil microbial biomass carbon, however, decreased linearly as expected with increasing distance from the roots. The microbial community structures as indicated by PLFA profiles showed distance-dependent selective enrichment of competent species that may be responsible for efficient PCP depletion. The results suggest that root exudates induced modifications of microbial communities in the PCP contaminated rhizosphere and spatially modified the dominant species within these communities, resulting in the nonlinear PCP depletion pattern. 相似文献