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1.
Bacterial-feeding nematodes can promote the bacterial activity through feeding.Bacterial abundance and their activity affect the degradation of polycyclic aromatic hydrocarbons (PAH) such as phenanthrene.The effects of bacterial-feeding nematodes,bacteria,and their interactions on the degradation of phenanthrene with or without glucose were studied through a microcosm experiment.The results showed that up to 57.0% of phenanthrene in mineral medium contaminated with phenanthrene was degraded in the control with bacteria alone and bacteria with the presence of nematodes and/or glucose increased the degradation of phenanthrene by 25.6% to 36.6%.Although both nematode and bacteria abundance decreased gradually,catechol 2,3-dioxygenase (C23O) activity increased during the incubation period.Compared with bacteria alone,the presence of nematodes significantly increased C23O activity as well as the abundance of bacteria;this effect was more pronounced when glucose was present.The results imply that nematodes might promote the removal of phenanthrene from medium by stimulating bacteria and C23O activities. 相似文献
2.
湿热灭菌和氯化汞灭菌对双液相体系中PAHs降解的影响 总被引:1,自引:0,他引:1
WANG Cong-Ying WANG Fang WANG Tao YANG Xing-Lun BIAN Yong-Rong F. O. KENGARA LI Zeng-Bo JIANG Xin 《土壤圈》2011,21(1):56-64
A two-liquid-phase(TLP) soil slurry system was employed to quantify the efficiencies of autoclaving and mercuric chloride sterilization in the dissipation of polycyclic aromatic hydrocarbons(PAHs).The fates of 11 PAHs(naphthalene,fluorene,phenanthrene,anthracene,fluoranthene,pyrene,benzo(a)anthracene,benzo(a)pyrene,benzo(b)fluoranthene,benzo(k)fluoranthene,dibenzo(a,h)anthracene) were recorded over 113 days of incubation.No microorganisms were detected in the HgCl 2-sterilized soil slurries during the whole incubation period,indicating very effective sterilization.However,about 2%-36% losses of PAHs were observed in the HgCl 2 sterilized slurry.In contrast to the HgCl 2-sterilized soil slurry,some microorganisms survived in the autoclaved soil slurries.Moreover,significant biodegradation of 6 PAHs(naphthalene,fluorene,phenanthrene,anthracene,fluoranthene and pyrene) was observed in the autoclaved soil slurries.This indicated that biodegradation results of PAHs in the soil slurries,calculated on basis of the autoclaved control,would be underestimated.It could be concluded that the sterilization efficiency and effectiveness of HgCl 2 on soil slurry was much higher than those of autoclaving at 121℃ for 45 min. 相似文献
3.
三叶草对污染土壤中芘的去除研究 总被引:1,自引:0,他引:1
XU Sheng-You CHEN Ying-Xu LIN Kuang-Fei CHEN Xin-Cai LIN Qi LI Feng WANG Zhao-Wei 《土壤圈》2009,19(2):265-272
Phytoremediation has been used as an emerging technology for remediation of soil contamination with polycyclic aromatic hydrocarbons (PAHs), ubiquitous persistent environmental pollutants derived from natural and anthropogenic processes, in the last decade. In this study, a pot experiment was conducted to investigate the potential of phytoremediation of pyrene from spiked soils planted with white clover (Trifolium repens) in the greenhouse with a series of pyrene concentrations ranging from 4.22 to 365.38 mg kg-1. The results showed that growth of white clover on pyrenecontaminated soils was not affected. The removal of pyrene from the spiked soils planted with white clover was obviously higher than that from the unplanted soils. At the end of the experiment (60 d), the average removal ratio of pyrene in the spiked soils with white clover was 77%, which was 31% and 57% higher than those of the controls with or without micobes, respectively. Both roots and shoots of white clover took up pyrene from the spiked soils and pyrene uptake increased with the soil pyrene concentration. However, the plant-enhanced dissipation of soil pyrene may be the result of plant-promoted microbial degradation and direct uptake and accumulation of pyrene by white clover were only a small part of the pyrene dissipation. Bioconcentration factors of pyrene (BCFs, ratio of pyrene, on a dry weight basis, in the plant to that in the soil) tended to decrease with increase in the residual soil pyrene concentration. Therefore, removal of pyrene in the contaminated soils was feasible using white clove. 相似文献
4.
蚯蚓与黑麦草相互作用对土壤中荧蒽去除的影响 总被引:1,自引:0,他引:1
Earthworms can promote the bioremediation of contaminated soils through enhancing plant growth and microorganism development. The individual and combined effects of earthworms and ryegrass (Lolium multiflorum Lam.) on the removal of fluoranthene from a sandy-loam alluvial soil were investigated in a 70-d microcosm experiment. The experiment was set up in a complete factorial design with treatments in four replicates: without earthworms or ryegrass (control, CK), with earthworms only (E), with ryegrass only (P), and with both earthworms and ryegrass (EP). The residual fluoranthene, microbial biomass C, and polyphenol oxidase activity in the soil changed significantly (P<0.01) with time. In general, the residual concentration of fluoranthene in the soil decreased sharply from 71.8-88.7 to 31.7-37.4 mg kg 1 in 14 d, and then decreased gradually to 19.7-30.5 mg kg 1 on the 70th d. The fluoranthene concentration left in the soil was the least with both earthworms and ryegrass, compared to the other treatments at the end of the experiment. Half-life times of fluoranthene in the E, P, and EP treatments were 17.8%-36.3% smaller than that of CK. More fluoranthene was absorbed by earthworms than ryegrass. However, the total amounts of fluoranthene accumulated in both the ryegrass and earthworms were small, only accounting for 0.01%-1.20% of the lost fluoranthene. Therefore, we assumed that microbial degradation would play a dominant functional role in fluoranthene removal from soil. We found that earthworms significantly increased microbial biomass C and polyphenol oxidase activity (P<0.01) in the presence of ryegrass at the end of the experiment. Furthermore, microbial biomass C and polyphenol oxidase activity were significantly (P<0.05) and negatively related to the residual fluoranthene concentration. This implied that earthworms might promote the removal of fluoranthene from soil via stimulating microbial biomass C and polyphenol oxidase activity. 相似文献
5.
金沙江干热峡谷中退化的土壤生态系统生物学特征初探 总被引:4,自引:0,他引:4
Distribution characteristics of soil animals,microorganisms and enzymatic activity were studied in the dry red soil and Vertisol ecosystems with different degradation degrees in the Yuanmou dry hot valley of the Jinsha River,China.Results showed that Hymenoptera,Araneae and Collembola were the dominant groups of soil animals in the polts studied.The numbers of groups and individuals and density of soil animals in the dry red soil series were higher than those in the Vertisol series,and the numbers of individuals and density of soil animals decreased with the degree of soil degradation.Bacteria dominated microbiococnosis not only in the dry red soils but also in the Vertisols.Microbial numbers of the dry red soil series were higher than those of Vertisol series,and decreased with the degree of soil degradation.The activities of catalase,invertase,urease and alkaline phosphatase declined with the degradation degree and showed a significant decline with depth in the profiles of both the dry red soils and the Vertisols,but activities of polyphenol oxidase and acid and neutral phosphatase showed the same tendencies only in the Vertisols.It was concluded that the characteristics of soil animals,microorganisms and enzymatic activity could be used as the bio-indicators to show the degradation degree of the dry red soils and Vertisols.Correlation among these soil bio-indicators was highly significant. 相似文献
6.
土壤中多环芳烃的微生物降解: 降解途径及其影响影子 总被引:4,自引:0,他引:4
Adverse effects on the environment and high persistence in the microbial degradation and environmental fate of polycyclic aromatic hydrocarbons (PAHs) are motivating interest. Many soil microorganisms can degrade PAHs and use various metabolic pathways to do so. However, both the physio-chemical characteristics of compounds as well as the physical, chemical, and biological properties of soils can drastically influence the degradation capacity of naturally occurring microorganisms for field bioremediation. Modern biological techniques have been widely used to promote the efficiency of microbial PAH-degradation and make the biodegradation metabolic pathways more clear. In this review microbial degradation of PAHs in soil is discussed, with emphasis placed on the main degradation pathways and the environmental factors affecting biodegradation. 相似文献
7.
PANG Jun-Zhu QIAO Yu-Hui SUN Zhen-Jun ZHANG Shuo-Xin LI Yun-Le ZHANG Rui-Qing 《土壤圈》2012,22(5):726-735
Earthworms,one of the most important macroinvertebrates in terrestrial ecosystems of temperate zones,exert important influences on soil functions.A laboratory microcosm study was conducted to evaluate the influence of the earthworm Eisenia fetida on wheat straw decomposition and nutrient cycling in an agricultural soil in a reclaimed salinity area of the North China Plain.Each microcosm was simulated by thoroughly mixing wheat straw into the soil and incubated for 120 d with earthworms added at 3 different densities as treatments:control with no earthworms,regular density(RD)with two earthworms,and increased density(ID)with six earthworms.The results showed that there was no depletion of carbon and nitrogen pools in the presence of the earthworms.Basal soil respiration rates and metabolic quotient increased with the increase in earthworm density during the initial and middle part of the incubation period.In contrast,concentrations of microbial biomass carbon and microbial biomass quotient decreased in the presence of earthworms.Earthworm activity stimulated the transfer of microbial biomass carbon to dissolved organic carbon and could lead to a smaller,but more metabolically active microbial biomass.Concentrations of inorganic nitrogen and NO3--N increased significantly with the increase in earthworm density at the end of the incubation(P<0.05),resulting in a large pool of inorganic nitrogen available for plant uptake.Cumulative net nitrogen mineralization rates were three times higher in the ID treatment than the RD treatment. 相似文献
8.
Nitrogen Release from Slow-Release Fertilizers in Soils with Different Microbial Activities 总被引:1,自引:0,他引:1
Pierfrancesco NARDI Ulderico NERI Giovanni DI MATTEO Alessandra TRINCHERA Rosario NAPOLI Roberta FARINA Guntur V. SUBBARAO Anna BENEDETTI 《土壤圈》2018,28(2):332-340
Soil microbial activity is recognized as an important factor affecting nitrogen (N) release from slow-release fertilizers. However,studies on the effect of size and activity of soil microflora on fertilizer degradation have provided contrasting results. To date, no clear relationships exist between soil microbial activity and the release of N from slow-release fertilizers. Hence, the aim of this study was to better understand such relationships by determining the release of N from three slow-release fertilizers in soils with different microbial activities. Soils were amended with urea-formaldehyde (UF), isobutylidene diurea (IBDU), and crotonylidene diurea (CDU). Urea, a soluble fertilizer, was used as the control. Fertilized soil samples were placed in a leaching system, and the release of N was determined by measuring ammonium-N and nitrate-N concentrations in leachates during 90 d of incubation. Non-linear regression was used to fit N leaching rate to a first-order model. In all the treated soils, N was released in the order: urea (89%–100%) IBDU (59%–94%) UF (46%–73%) CDU (44%–56%). At the end of incubation, N released from CDU did not differ (P 0.05) among soils. On the contrary, UF and IBDU released significantly lower (P 0.05) amounts of N in the soil with higher microbial activity and lower pH.The rate constant (K_0) for UF was lower (P 0.05) in the soil with lower pH. Taken together, our results indicated that soil microbial size and microbial activity had a marginal effect on fertilizer mineralization. 相似文献
9.
水分含量对秸秆还田土壤碳矿化和微生物特性的影响 总被引:6,自引:0,他引:6
CHEN Lin ZHANG Jia-Bao ZHAO Bing-Zi XIN Xiu-Li ZHOU Gui-Xiang TAN Jin-Fang ZHAO Jin-Hua 《土壤圈》2014,24(2):167-177
An 80-d incubation experiment was conducted to investigate straw decomposition,the priming effect and microbial characteristics in a non-fertilized soil(soil 1) and a long-term organic manure-fertilized soil(soil 2) with and without13 C-labeled maize straw amendment under different moisture levels. The soil 2 showed a markedly higher priming effect,microbial biomass C(Cmic),and β-glucosidase activity,and more abundant populations of bacteria and fungi than the soil 1. Also,soil CO2 emission,Cmic,β-glucosidase activity,and bacterial and fungal population sizes were substantially enhanced by straw amendment. In the presence of straw,the amount of straw mineralization and assimilation by microbes in the soil at 55% of water holding capacity(WHC) were significantly higher by 31% and 17%,respectively,compared to those at 25% of WHC. In contrast,β-glucosidase activity and fungal population size were both enhanced as the moisture content decreased. Cmicdecreased as straw availability decreased,which was mainly attributed to the reduction of straw-derived Cmic. Amended soils,except the amended soil 2 at 25% of WHC,had a more abundant fungal population as straw availability decreased,indicating that fungal decomposability of added straw was independent of straw availability. Non-metric multidimensional scaling analysis based on fungal denatured gradient gel electrophoresis band patterns showed that shifts in the fungal community structure occurred as water and straw availability varied. The results indirectly suggest that soil fungi are able to adjust their degradation activity to water and straw availability by regulating their community structure. 相似文献
10.
Adverse effects on the environment and high persistence in the microbial degradation and environmental fate of polycyclic aromatic hydrocarbons (PAHs) are motivating interest. Many soil microorganisms can degrade PAHs and use various metabolic pathways to do so. However, both the physio-chemical characteristics of compounds as well as the physical, chemical, and biological properties of soils can drastically influence the degradation capacity of naturally occurring microorganisms for field bioremediation. Modern biological techniques have been widely used to promote the efficiency of microbial PAH-degradation and make the biodegradation metabolic pathways more clear. In this review microbial degradation of PAHs in soil is discussed, with emphasis placed on the main degradation pathways and the environmental factors affecting biodegradation. 相似文献
11.
采用微宇宙试验方法,以菲和芘为多环芳烃(PAHs)代表物,研究了几种低分子量有机酸作用下黄棕壤中菲和芘的残留和形态。结果表明,老化60 d后土壤中菲和芘的残留含量明显减少;不施加有机酸的对照土壤中,菲和芘的残留含量为10.13和29.18 mg kg-1,去除率为87.33%和63.50%。与对照相比,供试浓度(0~64 mg kg-1)范围内,柠檬酸、草酸、酒石酸等3种低分子量有机酸作用下土壤中PAHs残留含量提高,去除率减小,表明供试条件下有机酸抑制土壤中菲和芘的降解;进一步分析发现,少量(≤4 mg kg-1)的有机酸即可对PAHs降解产生高的抑制效果。微生物降解在PAHs的去除中起重要作用,且芘比菲更抗微生物降解。供试条件下,可脱附态和有机溶剂提取态是土壤中菲和芘存在的主要形态,而结合态残留占总残留的比例很小(<8.5%)。3种有机酸均提高了土壤中可脱附态和有机溶剂提取态菲和芘的残留含量,施加有机酸使土壤中菲和芘的可脱附态含量较对照分别提高了46.67%~749.1%和1.83%~80.20%,有机溶剂提取态则提高了8.73%~375.2%和22.63%~114.3%;低分子量有机酸作用下结合态的菲和芘含量仍很小。 相似文献
12.
本文通过土壤腐解试验研究外源添加水稻或玉米秸秆对多环芳烃(PAHs)污染土壤CO2-C释放和污染物去除率的影响,同时清晰秸秆腐解中间产物溶解性有机碳(DOC)与土壤PAHs降解的关系。结果表明:秸秆添加处理促进了PAHs污染土壤CO2-C的释放,以玉米秸秆提升效果较好。外源添加秸秆显著增加了土壤DOC含量,且增加幅度随秸秆添加量的增加而增大;水稻秸秆对土壤DOC含量的提升幅度较大。与对照相比,秸秆添加处理下土壤菲、芘残留量均显著降低,菲、芘去除率显著增加,去除效果:玉米>水稻,高量>低量,菲>芘;与对照相比,添加高量玉米秸秆处理(PY15)对土壤菲、芘去除率的增加幅度分别为91.7%和182%。此外,在一定范围内土壤DOC含量与PAHs去除率呈正相关关系。可见,农作物秸秆,尤其是玉米秸秆添加可提升PAHs污染土壤有机碳矿化,亦可在提升土壤DOC含量的同时促进污染土壤PAHs的降解。 相似文献
13.
The effect of pyrene and phenanthrene contamination on soil Mycobacterium spp. community structure was examined using PCR-amplification of 16S rRNA genes with primers specific for the fast-growing group of Mycobacterium spp. and separation of phylotypes by temperature gradient gel electrophoresis (TGGE). The degradative potential of the soil microbial community was measured over time by mineralization of 14C-pyrene added to the contaminated soils. PCR-TGGE profiles, in combination with band sequencing and phylogenetic analysis of the prominent phylotypes, indicated shifts in the Mycobacterium spp. community during incubation. Reductions in species diversity and enrichments of specific populations were observed in all pyrene- and phenanthrene-treated soils, in contrast to the relatively stable control soil profiles. Mineralization studies indicated the shortest acclimation periods and the highest initial rates of pyrene degradation occurred in soils pre-exposed to phenanthrene, or a mixture of phenanthrene and pyrene, for 14 weeks. Pre-exposure of soil microorganisms to a single dose of pyrene for the same length of time also decreased the acclimation period for the degradation of pyrene. Monthly application of either pyrene or phenanthrene to soils, however, resulted in an increase in pyrene degradative potential 6 weeks after the first pre-exposure, but a decrease in degradative potential 14 weeks after the first pre-exposure. Similar PCR-TGGE profiles were obtained from soils with comparable pyrene mineralization curves or degradative potentials. 相似文献
14.
An isotopic model (NISOTOP) has been developed to investigate the effect of the addition to soil of xenobiotics on urea hydrolysis, N mineralization and immobilization, nitrification and plant uptake of nitrogen in a soil-plant system, after addition of 15N enriched compounds. Therationale of the model follows from the errors in %15N abundance (15N D) and N concentration (CN) determinations which cause high variability coefficients in the calculation of the amount of nitrogen present in the different compounds derived from the added 15N enriched urea. The extent of these errors, besides depending on CN and 15N D errors, will also depend on natural 15N and 15N of the added compound, and therefore on the experimental conditions. The model is described by 18 first-order differential equations and is numerically solved by Euler's method with a time increment of 0.01 day. As an illustration, the model is applied to the effect of phenanthrene, chrysene and benzo(a)pyrene to a soil-plant system, following the addition of 15N-urea. These compounds have been chosen as examples of molecules having 3, 4 and 5 fused aromatic rings and are hereafter collectively referred to as PAHs. PAHs at the rate of 2 mg kg-1 soiland 15N-urea at the rate of 166.7 mg N kg-1 soil were added to wheat pots. At harvesting (after 14 days from plantation) the dry matter yield, the total N content and the N concentration of the wheat seedlings were not statistically affected by addition of the PAHs (P = 0.05). The efficiency of N uptake, that is the percentage of fertilizer taken up by the plants at harvesting in the absence of PAHs was 47.3%, while it was 11.7, 15.2 and 14.8% in the presence of phenanthrene, chrysene and benzo(a)pyrene,respectively. The computation of the first-order rate constants of the N transformations showed that N mineralization, nitrification and N-uptake were affected by the addition of phenanthrene, chrysene and benzo(a)pyrene, whilst benzo(a)pyrene inhibited urea hydrolysis more than phenanthrene and chrysene. 相似文献
15.
16.
多环芳烃微生物降解机理研究进展 总被引:1,自引:0,他引:1
主要阐述了微生物降解PAHs的机理,比较了典型微生物种类芽孢杆菌(Bacillus)和分支杆菌(M.vanbaalenii PYR-1)对同种PAHs菲的代谢过程不同之处,并分析了分支杆菌(M.vanbaalenii PYR-1)对菲和芘的代谢机理,指出微生物氧化降解PAHs主要从其K区和湾区开始,而K区氧化是有毒PAHs降解的主要可能途径,资料显示真菌比细菌对苯并[a]芘的降解能力更强,同时给出了微生物代谢菲、芘和苯并[a]芘的降解图,以便做进一步研究。 相似文献
17.
《Applied soil ecology》2011,48(3):167-175
Nitrogen deposition and contamination with anthropogenic substances such as polycyclic aromatic hydrocarbons (PAHs) increasingly threaten ecosystems, in particular, urban systems. We planted different plant communities (Holcus lanatus, Lotus corniculatus, Picea abies, Calluna vulgaris) in N-deficient urban soil to test whether the divergent plant–soil systems differ in their ability to affect the fate of phenanthrene and pyrene in the soil, and whether the ability of the system to sequester external N would differ between the plant and soil systems. Importantly, the influence of the N input as affecting PAH dynamics under the plant communities was explored. The effects of plants on soil microbial biomass (PLFA) and microbial activity (basal respiration) were studied. Although plant type did not affect the dynamics of phenanthrene and pyrene in the soil, N addition had a positive effect on phenanthrene retention in each plant–soil treatment. The content of soil extractable phenanthrene decreased due to N addition especially in soils growing P. abies. This conifer also sequestered the added N to its shoots most efficiently suggesting restoration success of urban soils to be plant trait dependent. 相似文献
18.
采用横式三隔室盆栽试验方法,研究了丛枝菌根真菌(AMF)根内球囊霉(Glomus intraradices,G.i)对紫花苜蓿(Medicago sativaL.)吸收土壤中菲和芘的影响。结果表明:G.i可与紫花苜蓿形成良好的共生体,侵染率平均达61.20%,不同强度菲和芘污染对G.i菌根侵染率的影响差异不显著;接种G.i的植株根系干重增加59.08%。接种G.i增加了根系和茎叶中菲和芘的含量及积累量,根系和茎叶中菲积累量与其生物量(干重计)间呈显著正相关;与菲相比,接种G.i处理后植株芘含量和积累量的增幅更大。G.i限制了菲和芘从植株根系向茎叶的传输,对芘尤为明显,接种G.i植株根系向茎叶转运芘的比例比不接种对照降低了13.85%~37.47%。 相似文献
19.
采用盆栽试验法,研究了苏丹草对土壤中菲、芘的去除效果,及植物和微生物在去除土壤菲、芘中的交互效应。结果显示,在试验浓度范围(0-322.06mg·kg^-1内,土壤~苏丹草系统(TR,)对菲、芘的去除效果明显。种植苏丹草60d后,土壤菲、芘去除率分别为73.07%-83.92%、63%~77.62%;平均去除率分别比对照1(无植物,不加0.1%NaN3)高55.58%、50.71%,比对照2(无植物,加0.1%NaN3)高72.71%、66.57%,说明种植苏丹草可以促进微生物对土壤中芘、菲降解。土壤酶活性测定结果也显示,酶活性越高,污染物降解率越高,反之亦然。因此,植物一微生物间的交互效应是土壤中多环芳烃降解的主要途径。 相似文献
20.
Bioaugmentation is an efficient and eco-friendly strategy for the bioremediation of polycyclic aromatic hydrocarbons (PAHs). Since the degrading abilities of soils can greatly alter the abilities of PAH-degrading bacteria, illustrating the potential and mechanism of highly efficient degrading bacteria in different soil environments is of great importance for bioremediation. A PAH-degrading bacterium, Paracoccus aminovorans HPD-2, and two soil types, red and paddy soils, with distinct PAH-degrading abilities, were selected for this study. A soil microcosm experiment was performed by adding pyrene (PYR) and benzo[a]pyrene (B[a]P). Illumina sequencing was used to examine bacterial community structure. The results showed that inoculation with HPD-2 significantly elevated PYR and B[a]P degradation rates by 44.7% and 30.7%, respectively, in the red soil, while it only improved the degradation rates by 1.9% and 11%, respectively, in the paddy soil. To investigate the underlying mechanism, the fate of strain HPD-2 and the response of the indigenous bacterial communities were determined. Strain HPD-2 occupied certain niches in both soils, and the addition of the bacterium changed the native community structure more noticeably in the red soil than in the paddy soil. The addition of PAHs and strain HPD-2 significantly changed the abundances of 7 phyla among the 15 detected phyla in the red soil. In the paddy soil, 5 of the 12 dominant phyla were significantly affected by PAHs and the inoculation of HPD-2, while 6 new phyla were detected in the low-abundance phyla (< 0.1%). The abundances of Massilia, Burkholderia, and Rhodococcus genera with PAH degradation efficiency were significantly increased by the inoculation of HPD-2 in the red soil during 42 d of incubation. Meanwhile, in the paddy soil, the most dominant effective genus, Massilia, was reduced by HPD-2 inoculation. This research revealed the remediation ability and inherent mechanism of the highly effective PAH-degrading strain HPD-2 in two different soil types, which would provide a theoretical basis for the application of degrading bacteria in different soils. 相似文献