接种AM真菌对PAEs污染土壤中微生物和酶活性的影响

土壤灭菌条件下 ,添加 5 0mg·kg-1DEHP和 5 0mg·kg-1DBP ,在温室进行盆栽试验 ,观察土壤施加DEHP与DBP和接种AM真菌 (Acaulosporalavis,光壁无梗球囊霉 ,菌号 :34)后菌根际 (简称A)、菌丝际 (简称B)和常规土 (简称C)中土壤微生物和部分土壤酶活性的变化。结果表明 ,土壤施加DEHP和DBP后 ,A、B和C层土中土壤微生物数量和土壤酶含量下降 ;接种AM真菌后 ,受AM直接影响的A和B层土中细菌、放线菌和真菌数量比不接种低 ,而C层土中三菌数量比不接种高 ;A和B层土中中性磷酸酶和脲酶含量下降 ,脱氢酶含量在A、C层土中下降 ,在B层土中稍有增加 ,AM对土壤脱氢酶活性影响不大。接种AM真菌没有降低DEHP和DBP对土壤微生物生长和土壤酶活性不利影响的程度     

AM真菌对黄瓜根围土壤微生物群落功能的影响

在温室土壤灭菌盆栽条件下对黄瓜(Cucumis sativus Linn.,"中农26号")接种丛枝菌根(arbuscular mycorrhizal,AM)真菌Funneliformis mosseae,测定了黄瓜根围土壤微生物功能、微生物数量以及土壤理化性质、土壤酶活性的变化。结果表明AM真菌可以提高土壤的速效养分含量,改善土壤物理性质,提高土壤中磷酸酶、氨肽基酶、多酚氧化酶及过氧化物酶活性;接菌处理后土壤中细菌、真菌数量显著高于不接种处理,而放线菌数量低于不接菌处理;对根围微生物功能多样性指标分析表明接菌处理的平均颜色变化率(AWCD)、Simpson优势度指数以及Mclntosh多样性指数,显著低于不接种对照。对菌根侵染率与土壤微生物等性状间的RDA分析表明AM真菌侵染率与速效P含量(r=0.65,P0.05)、磷酸酶(r=0.74,P0.05)、氨肽基酶(r=0.86,P0.05)、真菌数量(r=0.57,P0.05)呈正相关,与酚酸类碳源(r=-0.55,P0.05)、胺类碳源(r=-0.58,P0.05)、速效N(r=-0.77,P0.05)、β-葡糖苷酶(r=-0.90,P0.05)、β-纤维二糖苷酶(r=-0.63,P0.05)呈负相关。因此接种AM真菌的黄瓜菌根苗种植提高了土壤酶活性,优化了温室黄瓜根围微生物群落结构,显著改善了土壤理化性质。     

植物、土壤及土壤管理对土壤微生物群落结构的影响

土壤微生物是土壤生态系统的重要组成部分,对土壤微生物群落结构多样性的研究是近年来土壤生态学研究的热点。本文综述了有关植物、土壤类型以及土壤管理措施对土壤微生物群落结构影响的最新研究结果,指出植物的作用因植物群落结构多样性、植物种类、同种植物不同的基因型,甚至同一植物不同根的区域而异;而土壤的作用与土壤质地和有机质含量等因素有关;植物和土壤类型在对土壤微生物群落结构影响上的作用存在互作关系。不同的土壤管理措施对土壤微生物群落结构影响较大,长期连作、大量的外援化学物质的应用降低了土壤微生物的多样性;而施用有机肥、免耕可以增加土壤微生物群落结构多样性,有利于维持土壤生态系统的功能。     

不同植物对黄顶菊根际土壤微生物和土壤养分的影响

[目的] 不同植物对外来入侵植物的抵御能力不同,研究不同植物对入侵植物根际土壤生态的影响可为筛选入侵植物的竞争替代植物提供科学依据。[方法] 利用同质园试验,以入侵植物黄顶菊为研究对象,设置黄顶菊单种、黄顶菊与不同植物（地肤、苘麻、苏丹草、反枝苋）混种处理,采用磷脂脂肪酸分析方法来研究不同植物对黄顶菊根际土壤微生物群落结构的影响,并结合土壤养分的变化探究不同植物对黄顶菊根际土壤生态的影响。[结果] 与黄顶菊单种相比,地肤和苘麻降低了黄顶菊根际微生物的总含量,改变了黄顶菊根际微生物群落结构。地肤、苘麻能竞争性抑制黄顶菊对铵态氮的吸收,从而抑制黄顶菊的生长。[结论] 不同植物的抵御能力与其土壤生态有关,替代植物通过改变黄顶菊根际土壤微生物,抑制黄顶菊对氮的吸收,从而抑制黄顶菊的生长,实现对黄顶菊的替代控制。     

盐渍化土壤根际微生物群落及土壤因子对AM真菌的影响

为探明盐渍化土壤影响下AM真菌与根际土壤间的关系,试验选取宁夏碱化龟裂土、草甸盐土、盐化灌淤土3种类型4个样地上典型植被群落,测定了植物根际土壤养分含量、微生物群落结构、AM真菌侵染率以及孢子密度。结果显示:盐渍化土壤根际微生物碳源利用类型显著不同,对芳香类化合物的代谢能力整体较弱;红寺堡草甸盐土上微生物优势群落为氨基酸代谢类群,惠农盐化灌淤土为多聚化合物代谢群,西大滩碱化龟裂土为碳水化合物代谢群。AM真菌孢子密度与微生物碳源代谢群间的关系比较复杂。其中,惠农样点根际土壤孢子密度与多聚化合物微生物代谢群呈显著正相关,西大滩地区孢子密度与碳水化合物微生物代谢群呈显著正相关。土壤有机质、全盐、全氮、碱解氮等土壤肥力因子及土壤中的HCO-3、Na+、Cl-等盐基离子含量能解释AM真菌孢子密度与土壤环境因子之间相互关系的大部分信息。较高的HCO-3浓度促进了AM真菌侵染率的提高,但高盐浓度下Na+和Cl-降低了菌根侵染率。土壤对AM真菌孢子密度、侵染率的影响因土壤盐分组成类型的不同而异。研究结果为深入了解AM真菌多样性,促进宁夏盐碱地的合理开发与利用提供了理论依据。     

下层土壤容重对玉米根际土壤微生物数量及微生物量碳、氮的影响

采用微区池栽模拟试验,研究下层(20～40cm 、40～60cm)土壤容重改变后,玉米根际微生物数量、微生物量C(MBC)和微生物量N(MBN)的动态变化规律.结果表明,玉米根际微生物(细菌、放线菌、真菌)数量、MBC和MBN随土层加深和下层土壤容重增加而降低,且相同层次不同容重的处理间差异达显著水平;不同层次土壤根际微生物数量、MBC和MBN既受本土层容重大小影响,也随相邻土层容重增大其降幅增加,且20～40cm土层容重对土壤微生物数量、MBC和MBN的影响远大于40～60cm土层容重.玉米生育期间,三者受下层土壤容重变化和玉米生长发育的双重影响,且玉米的生长发育过程放大了容重对根际微生物数量、MBC和MBN的影响效果.     

尿素施用量对小麦根际土壤微生物数量及土壤酶活性的影响

在大田高产条件下,研究了不同尿素施用量下两种不同穗型小麦品种“兰考矮早8”和“豫麦49—198”根际微生物数量和土壤酶活性的变化。结果表明：微生物数量随小麦生育时期的进行呈规律性变化,其中微生物总量在拔节期和抽穗期时数量较多。尿素施用量对小麦根际微生物数量和酶活性均产生一定的影响,并且处理间差异达到显著水平。两个小麦品种根际微生物总量、细菌、放线菌、真菌数量随着尿素施用量的增加呈先上升后下降的趋势,但两个品种根际微生物数量最高时的尿素量略有差异。同一生育时期,随着尿素施用量的提高,土壤蛋白酶、过氧化氢酶呈先增加后降低的变化趋势,以他（391kg／hm^2）或T3（586kg／hm^2）处理的酶活性较高,T4（782kg／hm^2）处理的酶活性略有降低;脲酶活性则呈上升趋势,以T4（782kg／hm^2）处理的脲酶活性最大。表明适宜尿素施用量有益于小麦根际微生物数量和酶活性的提高,过高则微生物数量和酶活性下降。     

连作对芝麻根际土壤微生物群落的影响

采用稀释平板计数法研究了不同连作年限处理芝麻根际土壤细菌、真菌、放线菌、芽孢杆菌、尖孢镰刀菌(FO)和青枯劳尔氏菌(RS)数量的变化情况。结果表明,随着连作年限的增加,芝麻根际土壤中细菌和放线菌的数量下降,而真菌的数量则呈上升趋势。新种芝麻地根际土壤芽孢杆菌数量显著高于连作2a处理和连作5a处理,而连作2a处理又显著高于连作5a处理;连作5a芝麻根际土壤尖孢镰刀菌数量显著高于新种地、轮作1a和连作2a等3个处理;轮作1a、连作2a及连作5a等3个处理青枯劳尔氏菌数量显著高于新种地处理。说明连作导致土壤微生物环境恶化,引起根际微生物区系结构发生定向改变。连作2a与轮作1a相比,各菌群(类群)数量差异均不显著。     

AMF与嫁接对西瓜连作土壤理化和微生物状况的影响

将嫁接京欣1号葫芦砧Lagenaria siceraria、京欣2号南瓜砧Cucurbita maxima × Cucurbita moschata和不嫁接的京欣4号西瓜自根苗定植于西瓜连作土壤中,接种丛枝菌根真菌（arbuscular mycorrhizal fungi,AMF）摩西管柄囊霉Funneliformis mosseae、变形球囊霉Glomus versiforme和根内根孢囊霉Rhizophagus intraradices处理,以不接种丛枝菌根真菌的处理为对照。结果表明,与对照相比所有处理均显著降低土壤全氮、速效磷、速效钾和有机质含量,但提高土壤pH。接种AMF并嫁接处理的>2mm和2-0.25mm粒级土壤团聚体含量显著高于单纯嫁接或只接种AMF或对照,所有处理的0.25-0.053mm与<0.053mm粒级土壤团聚体含量均显著低于对照。以接种AMF并嫁接处理的土壤细菌数量显著高于其他处理,而所有处理的真菌数量则显著低于对照,接种AMF并嫁接处理的放线菌数量一般高于对照。接种AMF并嫁接处理的土壤蔗糖酶、多酚氧化酶和脲酶活性显著高于对照。接种AMF结合嫁接改善连作土壤理化特性和土壤微生物区系的效应大于只嫁接或仅接种AMF的单一处理的。     

除草剂对桉树人工林下植物及土壤微生物群落的影响

除草剂在桉树人工林中的应用越来越普遍,但关于除草剂对桉树人工林林下植物和土壤微生物群落的影响知之甚少。通过桉树人工林低剂量高频率(LHF)、中剂量中频率(MMF)、高剂量低频率(HLF)除草剂喷施试验,并与人工除草(MT)为对照,比较分析不同剂量、不同频率除草剂施用对林下植物和土壤微生物群落的影响。结果表明,施用除草剂导致桉树人工林林下植物种类和功能群组成发生显著变化,但并未显著降低林下植物群落物种丰富度和多样性,随除草剂施用频率的降低及恢复时间的增加,物种丰富度及多样性指数呈恢复趋势。除草剂施用也导致土壤养分含量降低。除草剂通过对林下植物群落和土壤养分的负面影响间接影响土壤微生物群落。LHF显著降低藤本植物而显著提高蕨类植物功能群的重要值,从而显著降低了微生物群落、真菌和放线菌的磷脂脂肪酸(PLFA)含量。MMF显著降低木本和藤本植物而显著提高禾草植物功能群的重要值,导致土壤微生物群落和放线菌的PLFA含量显著降低。HLF未显著影响林下植物及土壤微生物群落,但土壤全磷含量显著降低,速效磷含量也大幅下降。施用除草剂显著降低了土壤微生物生物量碳、氮的含量。因此,生产上应减少除草剂的施用,...     

The influence of Rhizobium and arbuscular mycorrhizal fungi on nitrogen and phosphorus accumulation by Vicia faba

BACKGROUND AND AIMS: The aim of this study was to investigate the effects of the interactions between the microbial symbionts, Rhizobium and arbuscular mycorrhizal fungi (AMF) on N and P accumulation by broad bean (Vicia faba) and how increased N and P content influence biomass production, leaf area and net photosynthetic rate. METHODS: A multi-factorial experiment consisting of four different legume-microbial symbiotic associations and two nitrogen treatments was used to investigate the influence of the different microbial symbiotic associations on P accumulation, total N accumulation, biomass, leaf area and net photosynthesis in broad bean grown under low P conditions. KEY RESULTS: AMF promoted biomass production and photosynthetic rates by increasing the ratio of P to N accumulation. An increase in P was consistently associated with an increase in N accumulation and N productivity, expressed in terms of biomass and leaf area. Photosynthetic N use efficiency, irrespective of the inorganic source of N (e.g. NO3- or N2), was enhanced by increased P supply due to AMF. The presence of Rhizobium resulted in a significant decline in AMF colonization levels irrespective of N supply. Without Rhizobium, AMF colonization levels were higher in low N treatments. Presence or absence of AMF did not have a significant effect on nodule mass but high N with or without AMF led to a significant decline in nodule biomass. Plants with the Rhizobium and AMF symbiotic associations had higher photosynthetic rates per unit leaf area. CONCLUSIONS: The results indicated that the synergistic or additive interactions among the components of the tripartite symbiotic association (Rhizobium-AMF-broad bean) increased plant productivity.     

基于分子生物学和基因组学的植物根际微生物研究

根际微生物是指在植物根系直接影响的土壤范围内生长繁殖的微生物。根际微生物研究对微生物生态学和工业生物技术开发均十分重要, 妨碍其研究进展的主要原因是99%的根际微生物物种在实验室中无法成功培养。近年来, 将基于分子生物学和基因组学的非培养研究技术应用于根际微生物多样性研究取得了很大进展, 本文结合作者对红豆杉根际的研究, 评述近期相关新技术的应用和其未来应用前景。     

AMF和饭豆根瘤菌对饭豆、玉米套种促生作用的研究

将从饭且根瘤中分离的饭豆根瘤菌(Rhizobium sp.CYY3302,Rhizobium sp.HCY9101,Rhizobium SP.JMC1402)与ANF(Arbuscular Mycorrltizal Fungi)共同接种于饭豆,进行饭豆、玉米田间小区各种试验。结果表明,接种饭豆根瘤菌和AMF的处理与未接种的处理相比,饭豆的结瘸率比对照提高52％-134％;饭豆及玉米的菌根感染率比对照分别增加43．1％-80％和46．8％-97．6％;饭豆的产量提高了54％-67％,而玉米的产量提高了2．4％-19．5％。研究结果还表明：豆科作物接种根瘸菌,即使在种过豆科作物的老区,也是有效的。     

不同施肥处理对茶树根际微生物群落结构的影响

为探究不同施肥处理对茶树根际微生物的影响,于2016年1月在苏州某茶园设置3个实验组:CF(传统化肥)、CF+BF (传统化肥+菌肥)、CK (对照),采用荧光定量PCR和扩增子高通量测序分别测定细菌的生物量和物种组成。实验数据表明:茶树根际优势细菌为厚壁菌门、变形菌门、放线菌门、酸杆菌门和拟杆菌门,平均相对丰度分别为33.51%、29.47%、12.18%、7.53%和5.68%;施用传统化肥后土壤中细菌含量显著增加(p<0.05),达(7.37±1.23)×10~9 copies/g;CF+BF组与CK组没有显著差异;施肥组(CF, CF+BF)中细菌的物种数、辛普森多样性、香浓多样性和谱系多样性均显著低于对照组;CF组中芽孢八叠球菌属和CF+BF组中Chitinophagaceae含量显著增加,而两组中Ellin329含量显著低于对照组。本研究揭示了施肥方式与土壤细菌群落结构的关系,为合理施肥提供了理论依据。     

不同磷源对红三叶草根际和菌根际磷酸酶活性的影响

以红三叶草为研究对象,利用三室培养系统,在接种菌根真菌(Glomus mosseae)的条件下研究了不同磷源对根际和菌根际磷酸酶活性的影响,植株生长8周后收获并测定根室、菌丝室的土壤磷酸酶活性、植株干重及含磷量．结果表明,根室酸性磷酸酶活性比碱性磷酸酶活性更裔,接种条件下二者都稍有增加,特别是在供给有机磷(植酸钠)的条件下明显增加了菌丝室土壤磷酸酶活性．接种菌根真菌显著增加了植株干重、磷含量和总磷吸收．施用磷酸二氢钾(KH2PO4)时菌丝吸磷量占吸磷总量的43．1%,而施用植酸钠(Na-phytate)时菌丝吸磷量占吸磷总量的60．8%。     

Effect of two AMF life strategies on the tripartite symbiosis with Bradyrhizobium japonicum and soybean

This study is the first in assessing the effect of soil disturbance on the contribution of arbuscular mycorrhizal fungi (AMF) with different life-history strategies to the tripartite symbiosis with soybeans and Bradyrhizobium japonicum (Kirchner) Jordan. We hypothesized that Gigaspora margarita Becker and Hall would be more affected by soil disturbance than Glomus clarum Nicol. and Schenck, and consequently, the tripartite symbiosis would develop more rapidly and lead to greater N₂ fixation in the presence of the latter. Soil pasteurization allowed the establishment of treatments with individual AMF species and soil disturbance enabled the development of contrasting root colonization potentials. In contrast, the colonization potential of B. japonicum was kept the same in all treatments. Soil disturbance significantly reduced root colonization by both AMF, with Gi. margarita being considerably more affected than G. clarum. Furthermore, the tripartite symbiosis progressed faster with G. clarum, and at 10 days after plant emergence, there was 30% more nodules when G. clarum was present compared to that when the bacterial symbiont alone was present. At flowering, the absence of soil disturbance stimulated N₂ fixation by 17% in mycorrhizal plants. However, this response was similar for both AMF.     

Soil salinity delays germination and limits growth of hyphae from propagules of arbuscular mycorrhizal fungi

Colonisation of plant roots by some arbuscular mycorrhizal (AM) fungi is reduced in the presence of sodium chloride (NaCl), probably due to a direct effect of NaCl on the fungi. However, there appear to be differences between the fungi in their ability to colonise plants in the presence of NaCl. This experiment tested the hypothesis that propagules of different isolates and species of AM fungi from saline and nonsaline soils would differ in their ability to germinate and grow in the presence of NaCl in the soil solution. Spores or pieces of root colonised by a range of AM fungi were incubated between filters buried in soil to which NaCl had been added at concentrations of 0, 150 or 300 mM in the soil solution. At regular intervals, filters were removed from the soil and both the percentage of propagules which had germinated and the length of proliferating hyphae were determined. Germination of spores of AM fungi studied was delayed in the presence of NaCl, but the fungi differed in the extent to which germination was inhibited. Two isolates of Scutellospora calospora reached maximum germination in 300 mM NaCl, but neither of two isolates of Acaulospora laevis germinated in the presence of NaCl. Germination of spores of the other fungi, including some isolated from saline soil, fell between these extremes. For some fungi, the specific rate of hyphal extension was reduced by NaCl. For others, the specific rate of growth was similar in the presence of NaCl to that in the control treatment, but overall production of hyphae was reduced in the NaCl treatments because germination was reduced.