贵州喀斯特地区土壤细菌群落结构特征及变化

为探明贵州喀斯特不同植被演替群落下的土壤细菌群落结构及变化特征,本文利用高通量测序技术对5个主要植被演替群落(稀灌草丛、藤刺灌丛、灌木林、乔灌过渡林、乔木林)的根际(竹叶椒)、非根际土壤细菌群落结构及环境因子进行了分析研究。结果表明:贵州喀斯特高原土壤细菌类群主要为变形菌门(Proteobacteria)、酸杆菌门(Acidobacteria)、疣微菌门(Verrucomicrobia)、放线菌门(Actinobacteria)、厚壁菌门(Firmicutes)、拟杆菌门(Bacteroidetes)和浮霉菌门(Planctomycetes),其相对丰富度分别为43.35%、12.97%、7.53%、7.12%、6.19%、5.35%、5.05%,未分类类群占7.36%。样品中检测到了较低丰度的广古菌门和泉古菌门。随植被群落演替,根际土壤中变形菌门、厚壁菌门和浮霉菌门丰度逐渐增加;非根际土壤中酸杆菌门和疣微菌门丰度随植被演替逐渐减小。贵州喀斯特高原土壤细菌的影响因子大小为土壤有机碳、土壤总氮、含水量、电导率等,其中土壤有机碳和土壤总氮有显著性影响。     

固定化微生物对低温河水脱氮效果的中试研究

利用微生物净化受污染河水是目前常用的地表水体修复方法,但低温条件下微生物代谢缓慢,酶活性下降,在寒冷季节难以维持对河水的净化效果.本研究采用固定化的方法提高微生物的低温耐受性,通过中试试验考察自然挂膜的固定化微生物、经低温驯化的预挂膜固定化微生物及预挂膜固定化微生物耦合生物促生剂这3种方法对低温河水中COD及氮素类污染物的去除效果.结果表明,在低温条件下3种方法均能有效提升河水的净化效果,静止条件下,河水中COD、NH₄⁺-N、NO₃^--N和TN的去除率由分别由21.3%、37.2%、8.5%和6.9%提升至72.3%~77.9%、48.6%~62.7%、35.3%~42.3%和26.2%~31.9%.COD去除率在2~3 cm·s^-1流速下明显优于静止条件,总氮去除率在2 cm·s^-1流速下最高.自然挂膜和预挂膜微生物对河水中污染的去除无明显差别,添加促生剂对固定化微生物的净化作用没有进一步的提升,但功能菌群的微生物群落结构有所不同.促生剂的添加提高了河水中的微生物活性与群落多样性,但对固定化载体上的微生物无明显影响.固定化载体上的优势菌群均为低温下具有脱氮功能的Proteobacteria.此外,具有低温适应性的脱氮功能菌属Rhodoferax、Pedobacter及Pseudomonas在3组固定化载体上均有较高丰度,而自然挂膜的载体上及其河水中分别对Malikia属及hgcI_clade属具有显著特异性的富集（p<0.05）,这两种菌属均具有低温脱氮功能.     

Alterations in microbial community during the remediation of a black-odorous stream by acclimated composite microorganisms

Microbial application is an efficient, economical, and ecofriendly method for remediating black-odorous rivers. In this study, the field treatment effect and microbial community changes were monitored during remediation by the acclimated complex microorganisms of a typical black-odorous stream. After the treatment, the total phosphorus and ammonia contents decreased by 74.0% and 76.3% and the concentrations of dissolved oxygen increased from 1.65 to 4.90 mg/L, indicating the effectiveness of the acclimated composite microorganisms. The proportion of Bacteroidetes decreased significantly by 48.1% and that of Firmicutes increased by 2.23% on average, and the microbial diversity index first increased and then tended to be uniform. Redundancy analysis demonstrated that the pH, dissolved oxygen, and oxidation-reduction potential together determined the composition of the microbial communities (p < 0.05). These findings showed that the acclimated composite microorganisms can effectively remediate the black odor.     

Interaction between BSM-contaminated soils and Italian ryegrass

The interaction among the bensulfuron-methyl, growth of Italian ryegrass, and soil chemical/biochemical/microbiological parameters was investigated in a microcosm experiment. The bensulfuron-methyl added to the soil can be rapidly degraded by certain fungi and actinomycetes present in the original paddy rice soil. The growth of Italian ryegrass significantly accelerated the in-soil degradation of bensulfuron-methyl in its rhizosphere. The uptake of bensulfuron-methyl by ryegrass increased with increasing dosage level of bensulfuron-methyl. However, the phytoextraction of bensulfuron-methyl by ryegrass contributed insignificantly to the total removal of the soil bensulfuron-methyl. Within the dosage range set in this study, the root development of ryegrass was not adversely affected by the presence of the soil bensulfuron-methyl although the fresh biomass of shoot was slightly reduced in the higher dosage treatments. This can be attributed to the adsorption of the added bensulfuron-methyl by soil colloids and consequently the reduction of bensulfuron-methyl level in the soil pore water to a concentration sufficiently lower than the toxic level. The growth of ryegrass significantly increased soil pH and the activities of phosphatase and peroxidase but reduced the EC and the activities of urease in the rhizospheric soil.     

植物根圈污染生态研究进展

阐述了植物根圈的概念 ,根圈三大结构主成份是 (1)植物根系 ,(2 )微生物 ,(3)土壤或水等 ,并从它们的相互关系出发讨论了国内外有关根圈污染生态的研究情况 ,同时提出了根圈污染生态的研究前景和意义。     

Enhanced degradation of carbofuran in pacific northwest soils

Abstract

Persistence of ¹⁴C‐carbonyl carbofuran was measured in Pacific Northwest soils that had received 1–14 applications of the insecticide for root weevil control on perennial crops. Insecticide decay curves were obtained in nonautoclaved soil and several autoclaved soil samples from previously‐treated fields and in nonautoclaved soils from paired control sites not previously treated with carbofuran. The insecticide usually degraded faster in soil from previously‐treated fields than in soil from corresponding control fields. Among 26 previously‐treated fields, the pseudo half‐life (time for 50% loss) of carbofuran was < one wk in 11 soils, 1–3 wks in 8 soils and > 4 wks in the remaining soils. Among the nontreated control fields the pseudo half‐life was > than 2 wks in all cases and > than 15 wks in 5 of the soils. The carbofuran decay curve always possessed an initial lag phase where soil mixing enhanced insecticide decline. Carbofuran degraded very slowly in autoclaved soil samples. The half‐life of carbofuran exceeded 16 wk in all autoclaved soils tested and in most instances 85–90% of the original dosage remained when the tests were terminated 112 days after treatment. These results provided evidence that many of the soils which received applications of carbofuran over the past several years have developed a capacity to degrade carbofuran very rapidly.     

Influence of the zebra mussel and fish fry on structural and functional characteristics of microorganisms in experimental ecosystems

The interactions of zebra mussels, invertebrates, fish, and microorganisms were studied experimentally. Trends in the distribution of total bacterial biomass, the abundance of heterotrophic organisms, and their functional activities in water and grounds were analyzed. The most favorable conditions for development of bacteria developed in June, in the presence of fish and without zebra mussels. In experimental ecosystems with zebra mussels, a decrease in the abundance and activity of microorganisms and a change of dominant yeast forms were observed.     

Degradation of pyrene by immobilized microorganisms in saline-alkaline soil

Biodegradation of polycyclic aromatic hydrocarbons (PAHs) is very difficult in saline-alkaline soil due to the inhibition of microbial growth under saline-alkaline stress. The microorganisms that can most effectively degrade PAHs were screened by introducing microorganisms immobilized on farm byproducts and assessing the validity of the immobilizing technique for PAHs degradation in pyrene-contaminated saline-alkaline soil. Among the microorganisms examined, it was found that Mycobacterium sp. B2 is the best, and can degrade 82.2% and 83.2% of pyrene for free and immobilized cells after 30 days of incubation. The immobilization technique could increase the degradation of pyrene significantly, especially for fungi. The degradation of pyrene by the immobilized microorganisms Mucor sp. F2, fungal consortium MF and co-cultures of MB+MF was increased by 161.7% (P < 0.05), 60.1% (P < 0.05) and 59.6% (P < 0.05) after 30 days, respectively, when compared with free F2, MF and MB+MF. Scanning electron micrographs of the immobilized microstructure proved the positive effects of the immobilized microbial technique on pyrene remediation in saline-alkaline soil, as the interspace of the carrier material structure was relatively large, providing enough space for cell growth. Co-cultures of different bacterial and fungal species showed different abilities to degrade PAHs. The present study suggests that Mycobacterium sp. B2 can be employed for in situ bioremediation of PAHs in saline-alkaline soil, and immobilization of fungi on farm byproducts and nutrients as carriers will enhance fungus PAH-degradation ability in saline-alkaline soil.     

适冷微生物研究进展及应用现状

适冷微生物(包括嗜冷微生物、耐冷微生物)是在低温下仍具有生存和繁殖的能力的一类微生物,低温会对微生物产生如酶活性降低、膜流动性变差、蛋白质冷变性、不适当的蛋白质空间折叠和低温下细胞内部构造破坏等不利影响。适冷微生物能克服低温带来的消极影响,并能在极端环境下生长及代谢。随着宏基因组测序、蛋白质组学以及其它分析手段在环境微生物中的应用,作者对低温微生物的一些适应性改变有了新的认识。酶活性中心结构的改变、膜中脂质成分含量的增加,冷适应蛋白的快速表达等都被证明在对低温适应中起着重要作用。文章综述了适冷微生物的适冷机理及其在污染控制领域的应用,为适冷微生物的实际工程应用提供参考,为适冷微生物在环境工程中的进一步广泛应用奠定基础。     

磷差异性调控水稻根际nirK/nirS型反硝化菌组成与丰度

磷作为一种重要的生命元素,对反硝化微生物的活性和功能有重要影响.反硝化功能基因nir K和nir S是编码亚硝酸还原酶的两种同工酶基因,但是,磷对具有同种功能的nir K和nir S型反硝化菌的调控是否存在差异尚不十分清楚.本文采集严重缺磷红壤性水稻土设置水稻盆栽试验,通过外源添加磷肥设置对照(CK,P:0 mg·kg-1),低磷(P1,P:15 mg·kg-1),高磷(P2,P:30 mg·kg-1)这3个磷添加水平,研究不同磷水平对水稻亚硝酸还原酶基因的组成与丰度的调控作用.结果表明,在长期缺磷土壤上施用磷肥对含亚硝酸还原酶基因nir K和nir S的细菌种群的调控作用有明显差异.不管是根际还是非根际土,含nir S的微生物种群均对施磷水平表现敏感,尤其是高磷(P2)水平,施磷可导致nir S丰度提高2～3倍,同时显著改变nir S型反硝化微生物的组成结构.相比之下,施磷后含nir K基因的微生物组成结构和丰度变异较小.与非根际土壤相比,高磷水平条件下根际土中nir S的基因拷贝数和群落结构均发生了显著变化,缺磷和低磷条件下水稻生长只引起根际土nir S种群组成结构发生显著变化,但其丰度与非根际无显著差异.但不同磷水平条件下nir K的基因丰度和组成结构在根际和非根际土之间几乎无显著变化.综上所述,在严重缺磷水稻土中加施磷肥会显著提高水稻根际和非根际土中nir K和nir S型反硝化菌数量,并改变其种群组成结构,且nir S比nir K型种群响应更敏感.不同磷水平条件下的水稻根系生长均显著改变了根际土壤中nir K和nir S种群组成结构,但除了在高磷水平条件下显著增加了nir S丰度外,对nir K和nir S丰度均影响较小.研究结果可为进一步深入探究施肥对土壤反硝化过程的影响提供理论依据.