The effect of two different biochars on remediation of Cd-contaminated soil and Cd uptake by Lolium perenne

Biochar can be widely used to reduce the bioavailability of heavy metals in contaminated soil because of its adsorption capacity. But there are few studies about the effects of biochar on cadmium uptake by plants in soil contaminated with cadmium (Cd). Therefore, an incubation experiment was used to investigate the effects of rice straw biochar (RSBC) and coconut shell biochar (CSBC) on Cd immobilization in contaminated soil and, subsequently, Cd uptake by Lolium perenne. The results showed that the microbial counts and soil enzyme activities were significantly increased by biochar in Cd-contaminated soil, which were consistent with the decrease of the bioavailability of Cd by biochar. HOAc-extractable Cd in soil decreased by 11.3–22.6% in treatments with 5% RSBC and by 7.2–17.1% in treatments with 5% CSBC, respectively, compared to controls. The content of available Cd in biochar treatments was significantly lower than in controls, and these differences were more obvious in treatment groups with 5% biochar. The Cd concentration in L. perenne reduced by 4.47–26.13% with biochar. However, the biomass of L. perenne increased by 1.35–2.38 times after adding biochar amendments. So, Cd uptake by whole L. perenne was augmented by RSBC and CSBC. Accordingly, this work suggests that RSBC and CSBC have the potential to be used as a useful aided phytoremediation technology in Cd-contaminated soil.

     

生物炭与炭基肥对大豆根际土壤细菌和真菌群落的影响

土壤微生物在农田土壤生态系统中发挥重要作用,然而秸秆生物炭与炭基肥处理对微生物群落的影响以及对农田生态环境的意义尚不清楚。以黄淮海平原豆-麦轮作为研究对象,采用荧光定量PCR和Illumina高通量测序技术比较不同施肥方式对土壤细菌和真菌群落的丰度、组成和多样性差异,探究秸秆还田、生物炭以及炭基肥添加对根际土壤微生物群落结构的影响。试验处理包括单施化肥对照(CK)、秸秆全量还田配施化肥处理(CS)、炭基肥处理(BCF)、低量生物炭配施化肥处理(LB)以及高量生物炭配施化肥处理(HB)。结果表明:与对照CK相比,LB、BCF和HB处理显著提高了根际土壤有机碳和速效磷含量;LB、BCF和HB处理对土壤细菌丰度没有显著影响,HB处理显著降低了变形菌门的相对丰度。HB处理的真菌丰度显著高于CK,增加了86.3%,真菌群落Chao1和ACE指数较CK分别显著增加了5.9%和5.8%;与CK和CS相比,LB、HB和BCF处理明显改变了真菌群落结构。冗余分析(RDA)表明,土壤有机碳、总氮和速效钾是改变真菌群落结构的主要驱动因子。综上,研究表明大豆根际真菌群落对生物炭施加的敏感程度高于细菌,且土壤碳和氮含量是影响真菌和细菌群落结构的关键因子。该研究结果可为秸秆资源的合理利用提供理论参考。     

Sponge-specific bacterial symbionts in the Caribbean sponge, Chondrilla nucula (Demospongiae, Chondrosida)

Marine sponges harbor dense and highly diverse bacterial communities, and some percentage of the microflora appears to be specialized for the sponge habitat. Bacterial diversity was examined in Chondrilla nucula Schmidt to test the hypothesis that some subset of sponge symbiont communities is highly similar regardless of the species of host or habitat requirements of the host. C. nucula was collected from a mangrove channel on Lower Matcumbe Key in the Florida Keys (25°53′N; 80°42′W) in August 1999. Domain-specific universal bacterial primers were used to amplify the 16S rDNA gene from genomic DNA that had been extracted from sponges and the surrounding water. An RFLP technique was used to assess diversity of sponge-associated and environmental bacterial communities. The clone library from C. nucula contained 21 operational taxonomic units (OTUs). None of the 53 OTUs from adjacent water samples were found in the C. nucula library indicating that a distinct community was present in the sponge. Sequence analysis indicated that C. nucula harbors a microbial community as diverse as the microbes from other sponges in different habitats around the world. Phylogenetic analysis placed several C. nucula clones in clades dominated by bacteria that appear to be sponge specialists (e.g., Acidobacteria, Bacteroidetes, and Cyanobacteria). Proportional representation of major bacterial taxonomic groups represented in symbiont communities was compared as a function of geographic location of sponge hosts. This study supports the hypothesis that sponges from different oceans existing in dissimilar habitats harbor closely related bacteria that are distinct from other bacterial lineages and appear specialized for residing within sponges.     

Effects of sepiolite on stabilization remediation of heavy metal-contaminated soil and its ecological evaluation

Stabilization in the remediation of heavy metal contaminated soils has been gaining prominence because of its cost-effectiveness and rapid implementation. In this study, microbial properties such as microbial community and enzyme activities, chemical properties such as soil pH and metal fraction, and heavy metal accumulation in spinach (Spinacia oleracea) were considered in assessing stabilization remediation effectiveness using sepiolite. Results showed that soil pH values increased with rising sepiolite concentration. Sequential extraction results indicated that the addition of sepiolite converted significant amounts of exchangeable fraction of Cd and Pb into residual form. Treatments of sepiolite were observed to reduce Cd and Pb translocation from the soil to the roots and shoots of spinach. Concentrations of Cd and Pb exhibited 12.6%–51.0% and 11.5%–46.0% reduction for the roots, respectively, and 0.9%–46.2% and 43.0%–65.8% reduction for the shoots, respectively, compared with the control group. Increase in fungi and actinomycete counts, as well as in catalase activities, indicated that soil metabolic recovery occurred after sepiolite treatments.     

Microbial community structure in different wastewater treatment processes characterized by single-strand conformation polymorphism (SSCP) technique

In order to investigate microbial community structures in different wastewater treatment processes and understand the relationship between the structures and the status of processes, the microbial community diversity, variety and distribution in five wastewater treatment processes were studied by a culture-independent genetic fingerprinting technique single-strand conformation polymorphism (SSCP). The five processes included denitrifying and phosphate-removal system (diminished N), Chinese traditional medicine wastewater treatment system (P), beer wastewater treatment system (W), fermentative biohydrogen-producing system (H), and sulfate-reduction system (S). The results indicated that the microbial community profiles in the wastewater bioreactors with the uniform status were very similar. The diversity of microbial populations was correlated with the complexity of organic contaminants in wastewater. Chinese traditional medicine wastewater contained more complex organic components; hence, the population diversity was higher than that of simple nutrient bioreactors fed with molasses wastewater. Compared with the strain bands in a simulated community, the relative proportion of some functional microbial populations in bioreactors was not dominant. Fermentative biohydrogen producer Ethanoligenens harbinense in the better condition bioreactor had only a 5% band density, and the Desulfovibrio sp. in the sulfate-reducing bioreactor had less than 1.5% band density. The SSCP profiles could identify the difference in microbial community structures in wastewater treatment processes, monitor some of the functional microbes in these processes, and consequently provide useful guidance for improving their efficiency.     

Characterizing the resident, fermentative microbial consortium in the hindgut of the temperate-zone herbivorous fish, Hermosilla azurea (Teleostei: Kyphosidae)

The zebraperch, Hermosilla azurea Jenkins and Evermann, a warm-temperate marine fish species with a strictly macroalgal diet, has a relatively long digestive tract with an enlarged hindgut and an associated blind caecum (HC). In zebraperch sampled off Santa Catalina Island, California (33°19′42′′N; 118°18′37′′W) in years 1995 through 2001, direct cell counts, gut epithelium assessment of bacterial attachment, and short-chain fatty acid (SCFA) analyses verified that the zebraperch HC possesses a dense and morphologically diverse, fermentative microbiota. Bacterial cell counts and morphological diversity were significantly higher in HC contents compared to anterior gut regions, suggesting that microbial populations were growing along the digestive tract. Similarly, electron micrographs of the HC epithelium revealed attached microbes, further supporting the possibility that these organisms constitute resident microbiota. Five different SCFAs were detected in all three regions of the digestive tract, but levels were up to three times greater in HC contents. Acetate was consistently the prevailing SCFA in all gut regions. Sequence analysis of bacterial 16S rDNA was used to identify predominant bacterial groups in HC contents. Of the seven main bacterial types identified, Enterovibrio spp. were the dominant bacteria in HC contents followed by species of Bacteroides,Faecalibacterium, and Desulfovibrio. Taken together, our findings show that the zebraperch HC harbors a consortium of microbes that appears to assist in the breakdown of algal polysaccharides in the herbivorous diet of the fish.     

不同浓度植物根系分泌物微生态效应研究

探讨夹竹桃(Nerium oleander)根系分泌物对土壤微生物量碳、呼吸强度等微生物学特征及土壤微生物群落功能多样性的影响,深入揭示夹竹桃根系分泌物的微生态效应,通过向土壤中添加植物根系分泌物溶液的方法,研究了不同浓度(CK,15 mL去离子水作为对照;LC,5 mL分泌物+10 mL去离子水;MC,10 mL分泌物+5 mL去离子水;HC,15 mL分泌物)的外源植物根系分泌物对土壤理化性质、土壤微生物群落功能多样性、微生物量碳、微生物熵、基础呼吸和代谢熵的影响。结果表明,不同浓度根系分泌物处理pH值显著低于CK(P<0.05);有机碳、含水量、全氮、碱解氮、速效磷含量显著高于CK(P<0.05),其大小表现为HC>MC>LC>CK;而土壤全磷无明显差异(P>0.05)。细菌、真菌、放线菌和微生物总数均显著高于对照(P<0.05),不同处理之间差异均显著(P<0.05),其大小表现为HC>MC>LC>CK。微生物量碳、微生物熵和基础呼吸均显著高于对照(P<0.05),不同处理之间差异均显著(P<0.05),其大小表现为HC>MC>LC>CK。土壤代谢熵表现为HC>MC>LC>CK,HC和MC差异不显著(P>0.05)。平均吸光值、物种丰富度指数、Mcintosh指数均显著高于对照(P<0.05),不同处理之间差异均显著(P<0.05),其大小表现为HC>MC>LC>CK。不同处理间优势度指数差异不显著(P>0.05)。主成分分析表明:中浓度根系分泌物处理的土壤与CK土壤微生物群落代谢特征相近,其明显不同于高浓度根系分泌物处理的土壤,说明它们对单一碳源的利用能力不同,其群落代谢特征存在差异。总体来看,高浓度的根系分泌物能够显著改变土壤微生物学特性及群落功能多样性。     

Plant diversity reduces the effect of multiple heavy metal pollution on soil enzyme activities and microbial community structure

It is unclear whether certain plant species and plant diversity could reduce the impacts of multiple heavy metal pollution on soil microbial structure and soil enzyme activities. Random amplified polymorphic DNA (RAPD) was used to analyze the genetic diversity and microbial similarity in planted and unplanted soil under combined cadmium (Cd) and lead (Pb) pollution. A metal hyperaccumulator, Brassica juncea, and a common plant, Festuca arundinacea Schreb, were used in this research. The results showed that microorganism quantity in planted soil significantly increased, compared with that in unplanted soil with Cd and Pb pollution. The order of microbial community sensitivity in response to Cd and Pb stress was as follows: actinomycetes>bacteria>fungi. Respiration, phosphatase, urease and dehydrogenase activity were significantly inhibited due to Cd and Pb stress. Compared with unplanted soil, planted soils have frequently been reported to have higher rates of microbial activity due to the presence of additional surfaces for microbial colonization and organic compounds released by the plant roots. Two coexisting plants could increase microbe population and the activity of phosphatases, dehydrogenases and, in particular, ureases. Soil enzyme activity was higher in B. juncea phytoremediated soil than in F. arundinacea planted soil in this study. Heavy metal pollution decreased the richness of the soil microbial community, but plant diversity increased DNA sequence diversity and maintained DNA sequence diversity at high levels. The genetic polymorphism under heavy metal stress was higher in B. juncea phytoremediated soil than in F. arundinacea planted soil.     

Linking abundance and diversity of sponge-associated microbial communities to metabolic differences in host sponges

Many sponge species contain large and diverse communities of microorganisms. Some of these microbes are suggested to be in a mutualistic interaction with their host sponges, but there is little evidence to support these hypotheses. Stable nitrogen isotope ratios of sponges in the Key Largo, Florida (USA) area grouped sponges into species with relatively low δ¹⁵N ratios and species with relatively high δ¹⁵N ratios. Using samples collected in June 2002 from Three Sisters Reef and Conch Reef in the Key Largo, Florida area, transmission electron microscopy (TEM) and denaturing gradient gel electrophoresis were performed on tissues of the sponges Ircinia felix and Aplysina cauliformis, which are in the low δ¹⁵N group, and on tissue of the sponge Niphates erecta, which is in the high δ¹⁵N group. Results showed that I. felix and A. cauliformis have large and diverse microbial communities, while N. erecta has a low biomass of one bacterial strain. As the low δ¹⁵N ratios indicated a microbial input of nitrogen, these results suggested that I. felix and A. cauliformis were receiving nitrogen from their associated microbial community, while N. erecta was obtaining nitrogen solely from external sources. Sequence analysis of the microbial communities showed a diversity of metabolic capabilities among the microbes of the low δ¹⁵N group, which are lacking in the high δ¹⁵N group, further supporting metabolic differences between the two groups. This research provides support for hypotheses of mutualisms between sponges and their associated microbial communities.     

超积累植物和化学改良剂联合修复锌镉污染土壤后的微生物特征

通过盆栽试验,观察分析不同的土壤改良配方对重金属超积累植物东南景天盆栽土壤中细菌、真菌和放线菌数量、Cmic及Nmic的影响,以此来筛选出最优的促进东南景天修复锌镉污染土壤的改良剂配方。结果显示:细菌、真菌和放线菌数量,与土壤Zn、Cd的去除率、东南景天植株干质量、Cmic及Cmic/Nmic两两之间都呈现极显著正相关关系(但Cmic/Nmic与真菌数量仅呈显著相关)。添加了土壤改良剂后,细菌、放线菌、真菌的数量都有不同程度的增加,其中以细菌数量的增加最为显著,放线菌次之,真菌则对各种土壤处理相对较不敏感;在各种土壤配方中,添加了6 g赤泥、15 g污泥和15 g沸石的T7处理最有利于各类土壤微生物的生长,微生物量碳达到345.64 mg.kg-1,与其它处理之间都达到显著差异。因此,可以利用土壤微生物作为污染土壤改良情况的生物指标。该研究为下阶段研究化学改良剂-植物-微生物修复技术奠定了基础。     

转Bt基因抗虫棉对土壤微生物群落生物多样性的影响

设置非转基因抗虫棉棉田以及分别种植7和10 a转Bt基因抗虫棉的棉田3个处理,于2007--2008年棉花苗期、蕾期、花铃期和吐絮期采样测定了土壤中5个微生物种类的数量,以监测长期种植转Bt基因抗虫棉对土壤微生物群落生物多样性的影响.结果表明,3种类型棉田土壤细菌、真菌、固氮菌、反硝化细菌、亚硝化细菌数量以及微生物多样性指数在整个棉花生长期内变化趋势基本一致,其中,在棉花蕾期各种微生物数量达到高峰.与种植非转基因抗虫棉相比,不同种植年限转Bt基因抗虫棉对土壤细菌、真菌、固氮菌、反硝化细菌、亚硝化细菌数量和微生物多样性指数都无显著影响,但随着采样时间的不同,3种类型棉田土壤各类微生物数量和多样性指数都呈明显季节变化.     

Soil microbial diversity and C turnover modified by tillage and cropping in Laos tropical grassland

Agricultural practices should modify the diversity of soil microbes. However, the precise relationships between soil properties and microbial diversity are poorly known. Here, we study the effect of agricultural management on soil microbial diversity and C turnover in tropical grassland of north-eastern Laos. Three years after native grassland conversion into agricultural land, we compared soils from five land use management systems: one till versus two no-till rotational cropping systems, one no-till improved pasture and the natural grassland. Soils were incubated in microcosms during 64 days at optimum temperature and humidity. Bacterial and fungal diversity were evaluated by metagenomic 454-pyrosequencing of 16S and 18SrRNA genes, respectively. Changes in soil respiration patterns were evaluated by monitoring ¹²C- and ¹³C-CO₂ release after soil amendment with 13C-labelled wheat residues. Results show that residue mineralization increased with bacterial richness and diversity in the tilled treatment 7 days after soil amendment. Native soil organic C mineralization and priming effect increased with fungal richness and diversity in improved pasture and natural grassland. No-till cropping systems represented intermediate situations between tillage and pasture systems. Our findings evidence the potential of controlling soil microbial diversity by agricultural practices to improve soil biological properties. We suggest the promotion of no-till systems as a fair compromise between the need for agriculture intensification and soil ecological processes preservation.     

Diversity and vertical distributions of sediment bacteria in an urban river contaminated by nutrients and heavy metals

The aim of this study was to investigate the benthic bacterial communities in different depths of an urban river sediment accumulated with high concentrations of nutrients and metals. Vertical distributions of bacterial operational taxonomic units （OTUs） and chemical para- meters （nutrients： NH4＋, NO3, dissolved organic carbon, and acid volatile sulfur; metals： Fe, Zn, and Cu） were characterized in 30 cm sediment cores. The bacterial OTUs were measured using the terminal restriction fragment length polymorphism analysis. Biodiversity indexes and multivariate statistical analyses were used to characterize the spatial distributions of microbial diversity in response to the environmental parameters. Results showed that concentrations of the nutrients and metals in this river sediment were higher than those in similar studies. Furthermore, high microbial richness and diversity appeared in the sediment. The diversity did not vary obviously in the whole sediment profile. The change of the diversity indexes and the affiliations of the OTUs showed that the top layer had different bacterial community structure from deeper layers due to the hydrological disturbance and redox change in the surface sediment. The dominant bacterial OTUs ubiquitously existed in the deeper sediment layers （5-27 cm） corresponding to the distributions of the nutrients and metals. With much higher diversity than the dominant OTUs, the minor bacterial assemblages varied with depths, which might be affected by the sedimentation process and the environmental competition pressure.     

Effects of river sediment addition to the beach microbial communities

During the processes of claiming land from the sea, river sediments are used to fill and transform the sea area along the margin of islands and lands into new lands. These activities would probably affect microbial ecosystems of the beach sediment. However, little is known about these effects. In this study, a simulation test was conducted to evaluate these effects. Pyrosequencing technique was employed to assess the effects of river sediment addition to the beach bacterial communities. The used river sediments were collected from different rivers. The results indicated that river sediment addition greatly impacted microbial ecosystems of the beach and caused a clear shift in the beach bacterial community composition. These processes remarkably increased toxic metals and decreased the bacterial diversity in the beach sediment, mainly including the phyla of Bacteroidetes, Cyanobacteria, Proteobacteria, and Spirochaetes. River sediment addition caused an increase in potentially pathogenic bacterial genera of the beach sediment. Bacterial phylotype richness in the beach without river sediment addition was higher than that in the beach with river sediment input. There were significant differences in bacterial communities between beach sediments with and without river sediment addition, and the most dominant classes were Gammaproteobacteria and Flavobacteria.     

生物质炭微生物矿化稳定性机制研究进展

生物质炭在碳封存和土壤改良等方面的应用潜力取决于其在土壤中的微生物矿化稳定性.明确生物质炭在土壤中微生物矿化稳定性是推进生物质炭在土壤固碳、改良等领域应用的关键.基于生物质炭在土壤中的微生物矿化稳定性研究进展,本文系统总结了不同类型生物质炭的微生物矿化速率和在土壤中的平均驻留时间,探讨了不同因素(生物质炭特性、土壤特性和外源不稳定有机质的添加等)对生物质炭微生物矿化稳定性的影响,阐述了生物分解过程中生物质炭的性质变化及其与土壤微生物/有机质/矿物质的交互作用,简述了生物质炭中内源矿物质和外源土壤矿物质对其矿化稳定性的影响机理.最后,总结现有研究的不足,并提出今后的研究重点.     

Community responses to UV radiation. II. Effects of solar UVB on field-grown diatom assemblages of the Carribean

The effects of ambient solar UV on community productivity and structure were assessed during primary succession of benthic diatoms on artificial substrate in a coral reef of the Caribbean. Artificial substrates, partially enclosed by UV cutoff filters, were placed at a depth of 60 cm below surface. During the initial colonization stages, the assemblages exposed to the full solar spectrum had a mean productivity 43.4% lower than the assemblages exposed to PAR+UVA only. Some differences in species diversity of assemblages under the different UV treatments were also observed. Sensitive species to UVB exposure were Mastogloia angulata, M. ovata, M. paradoxa, Nitzschia longissima, Plagiogramma staurophorum, Rhopalodia musculus, and Surirella ovata. These UVB effects gradually diminished as succession proceeded; 5 to 6 weeks after the placement of the substrates in the water, no significant differences in productivity were observed between the different treatments, while after 6 weeks of growth, species diversity and evenness were higher, although not statistically significant, in the UVB-exposed assemblages. During the first 2 weeks of growth, the productivity under PAR+UVA was significantly lower than that under PAR only. Received: 12 July 1996 / Accepted: 20 November 1997     

桑园土壤微生物群落功能多样性对PAHs污染的响应

为了探明桑园土壤微生物群落功能多样性与多环芳烃(PAHs)污染的关系,采用Biolog检测法研究某路域桑园土壤微生物功能多样性对PAHs污染的响应。结果表明,不同区域PAHs污染程度由大到小依次为区域2(位于区域1和3之间)、3(离公路最远)和1(离公路最近);Biolog分析发现不同区域土壤微生物对碳源利用的平均颜色变化率(AWCD)由大到小依次为区域2、3和1;区域2的Shannon指数和Gini指数均显著高于区域1和3,而区域1的Shannon均匀度显著低于区域2和3,区域2土壤微生物活性最强且群落结构最丰富,其后依次为区域3和1。主成分分析结果显示,3个区域微生物群落的生理功能差异明显,主要表现在对糖类和氨基酸类物质的代谢上。冗余分析表明,区域2土壤微生物与PAHs含量关系最密切,说明较高的PAHs含量更能激发桑园土壤微生物的生理活性,微生物群落代谢功能因PAHs污染而有所提高。     

间作栽培对连作马铃薯根际土壤微生物区系的影响

为探究不同间作栽培模式缓解马铃薯（Solanum tuberosum）连作障碍的可行性及作用机制,以马铃薯单作为对照,研究马铃薯间作玉米（Zea mays）、蚕豆（Vicia faba）和荞麦（Fagopyrum esculentum）3种模式对连作马铃薯根际土壤养分含量及微生物区系的影响.结果表明,间作种植模式下马铃薯根际土壤全氮、全磷、速效磷和速效钾含量显著低于马铃薯单作,根际土壤速效磷降幅最大,达45％以上,土壤pH值明显下降.间作栽培模式改变了马铃薯根际土壤微生物群落结构,降低了根际土壤真菌的数量;间作栽培模式对马铃薯根际土壤微生物群落的碳源利用能力也有明显影响,其中马铃薯间作蚕豆和间作玉米处理马铃薯根际土壤微生物培养120 h的平均颜色变化率分别比对照高13.39％和4.30％.马铃薯根际土壤微生物群落总体上对碳水化合物利用率较高,对芳香化合物的利用率较低.间作蚕豆明显促进了马铃薯根际土壤微生物群落的碳源代谢强度,而且能维持较稳定的产量,因而可能是一种有利于改善马铃薯连作栽培根际微生态环境、缓解连作障碍的栽培模式.     

Effects of adding biochar on tetracycline removal during anaerobic composting of swine manure

Residual antibiotics in manure pose a potential threat to public and ecological health when the manure is released to the environment via land application of manure as fertiliser. Anaerobic composting has the potential to decrease antibiotic concentrations prior to land application. We therefore investigated the degradation of the antibiotics tetracycline (TC) and oxytetracycline (OTC) during anaerobic composting under different conditions. All composting treatment conditions were able to effect significant decreases in the antibiotic concentrations, though without biochar antibiotic residues remained. TC and OTC were removed more efficiently when the compost was treated at 55°C than treatments at 35°C or 25°C. Adding biochar significantly and rapidly decreased the antibiotic concentrations in the compost samples. After 15 days of treatment with biochar at 55°C, 100% of TC and OTC had been removed from the manure. The marked ability of biochar to remove the antibiotics was primarily attributed to adsorption of TC and OTC by the biochar. However, the addition of biochar may also have altered the microbial community structures within the compost and accelerated microbial degradation of the antibiotics.     

间作与接种AMF对连作土壤微生物群落结构与功能的影响

为了探明间作种植模式和接种AMF对连作土壤的影响,试验选取马铃薯连作10年土壤为基质,采用两因素随机区组盆栽实验设计,研究间作及接种AMF对连作土壤微生物群落结构及功能的影响。结果表明：在不同间作模式及AMF接种后,连作土壤微生物群落结构、功能均有不同程度的差异。间作调控后马铃薯｜｜玉米｜｜蚕豆处理土壤细菌比例最高,放线菌次之,真菌最低;Biolog Eco板平均颜色变化率（AWCD）比对照高36.77%。间作并接种AMF（Gloumus etunicatum）后,土壤微生物功能多样性增强,土壤真菌的比例上升,细菌、放线菌的比例下降;马铃薯｜｜蚕豆、马铃薯｜｜玉米｜｜蚕豆土壤孢子密度与其他处理有显著差异（P〈0.05）;马铃薯｜｜玉米｜｜蚕豆处理在培养96 h后的平均颜色变化率（AWCD）值比单作高48.96%。各处理土壤根际微生物群落在2种方式的调控下对碳水化合物、氨基酸碳源利用强度较高,对芳香化合物的利用能力较弱;调控后碳源利用类型开始从碳水化合物、胺类化合物向胺类化合物和多聚化合物利用类型转变。间作调控和AMF调控对土壤微生物群落功能多样性的增加可能存在一定的叠加效应。土壤微生物群落结构、功能多样性的变化是多种因子综合作用的结果。