丛枝菌根真菌对豆科作物生长和生物固氮及磷素吸收的影响

本研究以大豆为材料,采用盆栽和田间试验,探讨丛枝菌根真菌(AMF)对豆科作物生长的影响。盆栽试验设置了接种(+AMF)和不接种(-AMF)丛枝菌根真菌处理,田间试验设置了AMF菌丝非限制与限制处理。盆栽试验结果表明: 接种AMF显著提高了大豆地上部生物量(16.5%)和大豆根瘤数(131.4%),地上部磷含量、磷吸收量、氮含量和氮吸收量也显著增加。田间试验中,AMF菌丝非限制处理下大豆的地上部生物量、根系生物量、根瘤数量分别比限制处理下显著提高了123.6%、61.5%和212.5%,地上部和根系磷吸收量、氮含量、氮吸收量均显著高于限制处理,大豆根际土壤速效氮和有效磷含量也均显著高于限制处理。本研究可为进一步认识豆科作物与AMF的共生关系及田间磷肥高效利用提供理论参考。     

内蒙古中部地区马铃薯根际和根系丛枝菌根真菌类群的多样性

【背景】丛枝菌根真菌(arbuscular mycorrhizal fungus,AMF)是菌根真菌中分布最广泛的一类真菌,能够与90%以上的植物形成菌根共生体,并通过调节宿主体内的代谢活动增强植物的抗逆性。【目的】揭示内蒙古马铃薯主产区土壤中AMF的结构与组成,解析马铃薯不同发育阶段以及连作对AMF类群的影响。【方法】以内蒙古中部地区大井村、徐麻夭村和红格尔图村采集的马铃薯根系及根际土为材料,通过PCR扩增建立18S rRNA基因文库,研究不同地点、不同马铃薯生育阶段以及连作对马铃薯根系内和根际土中的AMF类群组成和多样性的影响。【结果】大井村和红格尔图村马铃薯根际土中的AMF的类群多样性优于徐麻夭村,其中Glomus为大井村和红格尔图村马铃薯根际土样本中AMF的优势菌群,而徐麻夭村样本根际土中的优势类群为Diversispora。马铃薯根系中的AMF多样性的研究结果表明,3个供试地点根系内AMF类群的类型没有显著差异,但是AMF类群的比例却不同。大井村根系样本中AMF的优势菌为Diversispora,而Rhizophagus是红格尔图村和徐麻夭村根系样本中的优势AMF类群。同一供试地点马铃薯苗期和块茎膨大期根际土中的AMF类群的类型多于块茎形成期,其中Glomus是马铃薯不同发育阶段根际土中的优势类群;而Rhizophagus是3个不同发育阶段根系内的优势类群。2015和2016年马铃薯连作地块中根际土和根系内AMF类群的类型完全相同,但是不同的AMF类群的相对丰度随着马铃薯的连作呈现出显著的变化。其中,根际土样本中Glomus和Archaeospora类群的相对丰度随着连作有所上升,相应的Entrophospora和Diversispora相对丰度有所下降;根系样本中AMF的优势类群随着连作从Glomus转变为Rhizophagus。AMF多样性测定结果表明,连作对马铃薯根际土中AMF多样性的影响显著高于对根系内类群的影响。【结论】AMF类群的多样性会因土壤组成成分、马铃薯生育期和连作效应而呈现不同变化。     

基于高通量测序的闽楠幼林根际土壤丛枝菌根真菌群落变化

【背景】闽楠是珍贵用材树种。阐明闽楠根际土壤微生物特征,对科学经营闽楠人工林有指导作用。【目的】明确闽楠人工林恢复过程中根际土壤丛枝菌根群落随林龄的变化特征。【方法】采用高通量Illumina MiSeq测序的方法,评估不同林龄闽楠幼林根际土壤丛枝菌根真菌(Arbuscular Mycorrhiza Fungi,AMF)群落的多样性和组成,揭示造林后闽楠根际土壤真菌群落对时间序列中土壤养分变化的响应特征。【结果】从3个林龄闽楠根际土壤中共得到342 555条有效序列,共得到253个AMF-OTU,分属于1门1纲5目9科14属。α多样性指数表明,丛枝菌根真菌群落的Chao1、Shannon指数随着林龄的增加而增加,但不同林龄间差异不显著。β多样性指数表明,在闽楠幼龄阶段,不同林龄间AMF群落组成差异明显。根据Bray-Curtis相异度分析阐明AMF群落组成的相似性与林龄相关。种水平物种丰度与土壤因子的相关性分析表明,影响AMF群落丰度的主要土壤因子是pH、全钾、硝态氮和铵态氮。铵态氮与优势AMF分子虚拟种Glomus-Franke-A1-VTX00076、Glomus-Franke-A1-VTX00269的丰度呈显著正相关。【结论】随着林龄的增加,闽楠幼龄根际土壤丛枝菌根真菌的种类组成发生了显著变化,影响AMF特性的主要土壤因子是pH、全钾、硝态氮和铵态氮。这些发现将有助于揭示闽楠幼林生态系统和土壤微生物多样性的相互关系和机制,为生物多样性-生态系统功能实验提供理论依据。     

高通量测序分析重庆地区茅苍术根际丛枝菌根真菌多样性

【背景】丛枝菌根真菌(arbuscular mycorrhizal fungi,AMF)是土壤微生物区系中分布最广泛的一类菌根真菌,能与地球上90%的维管植物形成共生体,可通过调节植物的生理代谢过程增强植物的抗逆性。【目的】揭示重庆地区中药材茅苍术根际土壤中AMF的结构与组成,解析土壤因子对AMF类群的影响。【方法】以重庆地区茅苍术主产地彭水县、秀山县、石柱县、南川区和酉阳县2-3年生茅苍术根际土壤为材料,利用Illumina MiSeq 2500测序平台进行真菌扩增子测序,分析不同地点土壤的茅苍术根际AMF类群组成和多样性的差异。【结果】茅苍术的菌根侵染率均在50%以上,每10g风干土壤中孢子含量在50个以上,最高达到144个。根际土壤共检测到球囊菌门Glomeromycota的3纲4目8科9属AMF,包括Glomus、Claroideoglomus、Gigaspora、Paraglomus、Archaeospora、Ambispora、Acaulospora、Diversispora和Scutellospora,其中前6属为5个区县土样共有。球囊霉属(Glomus)相对丰度最高,达67%,为所有地区茅苍术根际样本中的优势类群。冗余度分析(redundancy analysis,RDA)表明,土壤pH对AMF群落组成影响最大。pH、有机质、碱解氮、速效钾与Shannon指数呈正相关,有效磷与之呈负相关;各土壤因子与Simpson指数的相关性则相反。5个土壤因子均与丰度(Chao1)指数呈负相关。另外,pH、有机质与均匀度(ACE)指数呈正相关;碱解氮、速效钾、有效磷与之呈负相关。【结论】茅苍术根际土壤中AMF资源丰富,土壤因子对AMF群落组成和丰度影响显著,是导致AMF群落结构地理分布格局差异的重要原因之一。     

贵州煤矸石山香根草根系及根际土丛枝菌根真菌（AMF）群落的季节动态研究

以煤矸石山种植年限为17年的香根草Vetiveria zizanioides为研究对象,采用高通量测序技术研究香根草根系及根际土丛枝菌根真菌（arbuscular mycorrhizal fungi,AMF）群落的季节动态。并利用Spearman、NMDS、RDA和Mantel-test等统计学方法分析了AMF孢子密度、菌根侵染率、土壤理化性质、丰富度及多样性指数之间的相关性。结果表明：（1）AMF孢子密度和菌根侵染率均表现为夏季显著高于春秋两季。（2）3个季节根系中共得到127个OTUs,根际土中共得到258个OTUs,根和根际土中共享96个OTUs,共分离鉴定4科7属AMF,球囊霉属Glomus是该煤矸石山的优势属。（3）根系中AMF多样性和丰富度指数随季节变化先降后升;根际土中AMF多样性指数随季节变化先降后升,但丰富度指数随季节变化呈递减趋势;春季根际土香农、Chao1和ACE指数均显著高于根系,夏季根际土Chao1指数显著高于根系。（4）NMDS分析表明,夏季根系AMF群落分布与其他季节差异显著。Spearman分析表明,根系全钾含量与多样性和丰富度指数显著正相关,速效磷与丰富度指数显著负相关。RDA分析表明,AMF群落组成在根系春季和夏季、根际土夏季和秋季与全磷、全氮、全钾和速效磷正相关,与有机质负相关。Mantel-test分析表明,pH、有机质、全氮、全钾、速效磷和采样季节极显著影响菌根侵染率,有机质和全氮是影响孢子密度的主导因子。     

黄山木兰的丛枝菌根定殖状况

在原产地和引种栽培地采集了国家珍稀濒危植物黄山木兰（Magnolia cylindrica）的根样及其根际土壤样品,研究了根中丛枝菌根真菌（AMF）的定殖状况。AMF在两地黄山木兰的根中均有定殖,并形成典型的Paris-type类型丛枝菌根(AM),原产地黄山木兰的AMF定殖率高于栽培地。用湿筛沉淀法从两地黄山木兰根际土壤中共分离鉴定出5属22种AMF,两地AMF群落相似性系数为0.96。原产地黄山木兰的AMF孢子密度高于栽培地,而Shannon-Wiener多样性指数低于栽培地。研究结果表明,黄山木兰引种栽培后并没有对其根际土壤中AMF的群落结构造成大的改变。     

典型农田土壤中丛枝菌根真菌-根际细菌互作及与氮磷利用的关系

在农业生态系统中,土壤微生物是土壤-作物系统养分循环的重要驱动力,其中丛枝菌根真菌(Arbuscularmycorrhizalfungi,AMF)能够促进作物对养分的吸收,适应逆境胁迫。【目的】进一步揭示AMF和根际细菌群落的跨界网络互作,挖掘与作物氮磷利用显著相关的关键微生物类群,揭示关键类群的生态网络特征。【方法】利用Illumina测序技术对3种典型农田旱地土壤(黑土、潮土和红壤)中AMF和根际细菌群落结构进行分析;构建互作网络并利用偏冗余分析、相关性分析探究了与氮磷利用相关的潜在关键类群。【结果】3种土壤中AMF与根际细菌均以正相互作用为主。不同土壤中AMF与根际细菌互作关系差异明显,在红壤中跨界互作最为密切,其中球囊霉属真菌(Glomus)与根际细菌中的放线菌(Actinobacteria)和变形菌(Proteobacteria)之间的交互作用最多。而在黑土中主要体现为根际细菌的界内互作。与氮磷利用率显著相关的关键微生物类群主要属于球囊霉属真菌、放线菌和α变形菌。【结论】典型旱地土壤中AMF与根际细菌的正相互关系对作物氮磷利用有潜在促进作用,关键类群在有机质和养分贫乏的红壤中可能起到更重要的作用。     

广州地区7种菊科入侵植物丛枝菌根侵染和根际土壤孢子密度的生境差异性分析

为了解广州地区7种菊科(Compositae)入侵植物与丛枝菌根真菌(Arbuscular mycorrhizal fungi,AMF)的互作共生关系,调查了这7种菊科入侵植物在4种生境中的AMF侵染和根际土壤孢子密度,并分析土壤因子对AMF的影响。结果表明,7种入侵植物根内均受到AMF侵染,根际土壤中均检测到AMF孢子;AMF侵染在宿主间差异显著,生境间的差异不显著;孢子密度在生境和宿主间的差异均显著,人工绿地、农田果园的AMF孢子密度均显著高于森林周边和滨海地带。相关性分析表明,农田果园生境的根际土壤孢子密度与土壤有机质含量呈显著负相关关系;森林周边生境的AMF总侵染率与土壤全氮呈极显著正相关关系;人工绿地的AMF总侵染率与土壤速效氮含量呈显著负相关关系;滨海地带的AMF总侵染率与土壤有效磷含量呈显著负相关关系。这些对理解菊科植物入侵机理具有非常重要的作用。     

铜尾矿白羊草各生长阶段根际土壤丛枝菌根真菌群落特征

以北方铜业铜矿峪矿十八河尾矿坝主要恢复植被白羊草为研究对象，分析重金属污染环境下，白羊草不同生长阶段根际土壤中丛枝菌根真菌（Arbuscular mycorrhizal fungi，AMF）群落结构与多样性的变化特征，研究各生长阶段白羊草AMF群落结构与环境因子的相互关系。结果发现，白羊草不同生长阶段根际土壤的理化性质和酶活性均存在显著差异。白羊草各生长阶段根际土壤中具有相同的优势科球囊霉科，但AMF群落组成在各个生长阶段的结构存在明显不同。白羊草各生长阶段主要AMF物种对生态因子的响应表现为：幼苗期根际土壤中球囊霉科主要受土壤养分和碳氮比的影响，分蘖期根际土壤中多样孢囊霉科的主要影响因子为土壤pH，成熟期根际土壤中，双型囊霉科双型囊霉科与土壤过氧化氢酶显著相关，类球囊霉科与土壤脲酶显著正相关。总体看来，白羊草各生长阶段根际土壤AMF群落特征受到的生态因子影响具有明显差异。这有助于进一步认识污染环境下AMF的群落特征及其关键影响因子，为铜尾矿生态恢复过程中发掘和利用菌种资源提供科学依据，从而提高矿区生态修复效率。     

AM真菌对采煤沉陷区黄花菜生长及根际土壤养分的影响

于陕北黄土沟壑采煤沉陷区内布设试验小区,对黄花菜(Hemerocallis citrina Baroni)接种丛枝菌根真菌(arbuscular mycorrhizal fungi,AMF)—摩西管柄囊霉菌,通过测定黄花菜光合性能、植株生长、抗逆性、土壤养分含量、根际微生物数量等,揭示AM真菌对黄花菜生长和土壤养分的影响。结果表明,黄花菜种植3—5个月后,接种AM真菌显著提高了黄花菜株高、冠幅及其根系菌根侵染率、菌丝密度。与不接种对照区相比,接种AM真菌后黄花菜叶片的光合速率、可溶性糖含量和过氧化氢酶活性分别提高了51%、12%、79%。接种AM真菌处理区黄花菜根际土壤的电导率、有机质、碱解氮和速效钾含量等均显著高于对照区,细菌数量和磷酸酶活性的菌根贡献率分别达77%和24%。表明采煤沉陷区扰动土壤接种AM真菌具有增强土壤微生物活性、改善土壤肥力和提高黄花菜植株抗逆性的作用,对促进陕北黄土沟壑采煤沉陷区经济作物生长和提高土壤质量具有重要现实生态意义。     

硫素对不同大豆品种成熟期AM真菌群落多样性的影响

研究硫素对不同大豆品种成熟期丛枝菌根（arbuscular mycorrhizal,AM）真菌群落多样性的影响,探索有利于提高3个特定大豆品种根围土壤和根系AM真菌多样性的最佳施硫量,为提高大豆产量和改善大豆品质提供理论依据。试验采用盆栽,选用黑农44（HN44）、黑农48（HN48）、黑农37（HN37）3个大豆品种作为试验材料,设4个硫素处理S1（对照）,S2（0.02g/kg）,S3（0.04g/kg）和S4（0.06g/kg）。采用PCR-DGGE技术分析3个大豆品种根围土壤和根系中AM真菌群落多样性。结果表明：在S2处理下HN37和HN44根围土壤和根系AM真菌多样性最高,而在S3处理下HN48根围土壤和根系AM真菌多样性最高;DGGE图谱中各样品优势种群变化显著,球囊霉属Glomus和柄囊霉属Funneliformis真菌为3个大豆品种根围土壤和根系中AM真菌的优势菌群。由此可见,硫素对不同大豆品种根围土壤和根系AM真菌群落多样性有显著影响,适量施硫能够提高大豆根围土壤和根系中AM真菌的多样性,不施或过高施硫反而抑制AM真菌的多样性。     

Diversity of Rhizosphere Soil Arbuscular Mycorrhizal Fungi in Various Soybean Cultivars under Different Continuous Cropping Regimes

Recent studies have shown that continuous cropping in soybean causes substantial changes to the microbial community in rhizosphere soil. In this study, we investigated the effects of continuous cropping for various time periods on the diversity of rhizosphere soil arbuscular mycorrhizal (AM) fungi in various soybean cultivars at the branching stage. The soybean cultivars Heinong 37 (an intermediate cultivar), Heinong 44 (a high-fat cultivar) and Heinong 48 (a high-protein cultivar) were seeded in a field and continuously cropped for two or three years. We analyzed the diversity of rhizosphere soil AM fungi of these soybean plants at the branching stage using morphological and denaturing gradient gel electrophoresis (DGGE) techniques. The clustering analysis of unweighted pair-group method with arithmetic averages (UPGMA) was then used to investigate the AM fungal community shifts. The results showed that increasing the number of years of continuous cropping can improve the colonization rate of AM fungi in different soybean cultivars at the branching stage. The dominant AM fungi in the experimental fields were Funneliformismosseae and Glomus spp. The number of years of continuous cropping and the soybean cultivar both had obvious effects on the diversity of AM fungi, which was consistent with the results of colonization rate analysis. This study establishes a basis for screening dominant AM fungi of soybean. In addition, the results of this study may be useful for the development of AM fungal inoculants.     

Effects of intercropping sugarcane and soybean on growth, rhizosphere soil microbes, nitrogen and phosphorus availability

The effects of sugarcane plantation intercropped with soybean on plant growth, yield, enzyme activity, nitrogen and phosphorus contents, the microbe quantity of rhizosphere soil were investigated. Results showed that dry weight of biomass and yield under sugarcane/soybean intercropping were increased by 35.44 and 30.57 % for sugarcane, and decreased by 16.12 and 9.53 % (100-grain weight) for soybean, respectively. The nitrogenase activity of intercropping soybean nodule was significantly increased by 57.4 % as compared with that in monoculture models. The urease activities of intercrops sugarcane and soybean were promoted by 89 and 81 % as compared to that of the monoculture models, respectively. The effective nitrogen and phosphorus contents of rhizospheric soil of intercrops sugarcane and soybean were increased by 66 and 311.7 %, respectively, as compared to those in the monoculture system. Microbe number of rhizosphere soil in the intercropping pattern increased significantly as compared to those in the monoculture models. The quantities of bacteria, fungi, and actinomyces increased by 42.62, 14.5 and 78.5 % in the intercropping sugarcane, while the intercropping soybean increased by 188, 183 and 73 %, respectively. Therefore, growing sugarcanes in combination with soybean can be considered a good agriculture management practice, helping to promote plant growth, yield and increase soil nutrients.     

Some Soybean Cultivars Have Ability to Induce Germination of Sunflower Broomrape

Sunflower broomrape is a noxious parasitic weed which has caused severe damage to crop ecosystems. Trap crops can release a mixture of allelochemicals to induce the germination of sunflower broomrape. We studied the allelopathic effects of soybean on sunflower broomrape. Fourteen common soybean cultivars were grown in pots. Samples were collected from soybean plants and rhizosphere soil at five growth stages (V1, V3, V5, R2, and R4). The allelopathic effects of soybean reached highest at the V3 stage. Methanolic extracts of soybean roots induced higher broomrape germination than methanolic extracts of stems or leaves. The germination rates induced by root extracts (10-fold dilution) were positively correlated with germination rates induced by stem (10-fold dilution) and leaf extracts (10-fold dilution). The broomrape germination rates induced by root extracts were also positively correlated with soybean nodule diameter and dry weight. The results indicated that soybeans could induce sunflower broomrape germination. We conclude that soybean has the potential to be used as a trap crop for sunflower broomrape.     

桑树/大豆间作对植物生长及根际土壤微生物数量和酶活性的影响

利用根系分隔试验的方法,研究了桑树/大豆间作体系中植株生长、根际土壤酶和土壤微生物的变化.结果表明： 根系不分隔处理的桑树和大豆的株高、叶片数、根长和根冠比等生长指标均高于塑料膜分隔和尼龙网分隔处理,大豆有效根瘤数较多.不分隔、尼龙网分隔处理的桑树和大豆的根际土壤磷含量比塑料膜分隔分别高10.3%、11.1%和5.1%、4.6%.不分隔和尼龙网分隔处理的桑树和大豆根际微生物数量、微生物多样性和土壤酶活性均高于塑料膜分隔处理.表明桑树和大豆间作具有明显的种间促进效应.     

Growth promotion ability of zoysiagrass rhizosphere fungi in consecutive plantings of wheat and soybean

Several isolates ofPhoma sp., certain nonsporulating fungi, as well asPenicillium andTrichoderma, all isolated from zoysiagrass rhizosphere, promoted growth of wheat and soybean under greenhouse conditions. However, the ability of these rhizosphere fungi to enhance plant growth varied with the crop tested. For example, most of the fungi effectively promoted the growth of wheat, whereas only a few fungi were effective on soybean. In consecutive plantings of wheat and soybean grown in soil previously infested with these zoysiagrass rhizosphere fungi, the growth promotion ability of the fungi was lowered. However, addition of fresh potting medium appeared to restore their growth-promotive effects. It appears that the activation of plant growth-promoting fungi in soil might depend on the availability of organic substrates to colonize, as evidenced by the promotion of plant growth.     

磷高效转基因大豆对根际微生物群落的影响

旨在了解转拟南芥紫色酸性磷酸酶基因的磷高效转基因大豆AP15-1的种植对土壤微生物生态的影响。于春秋两季在网室种植转基因大豆AP15-1及其受体YC03-3,在大豆幼苗期、盛花期和成熟期,分别采集根际土和非根际土。平板菌落计数的实验结果显示:AP15-1和YC03-3根际土与非根际土中可培养细菌、真菌和放线菌的数量在不同的季节和不同的生长期是会发生一定的变化,但没有明显的规律;两者根际土间及根际与非根际土间,细菌、真菌和放线菌数量没有明显的差异。BIOLOG生态板实验对碳源代谢特征分析结果显示:同季AP15-1和YC03-3根际土中微生物总体代谢活性要强于非根际土,但AP15-1和YC03-3根际土间及根际与非根际土间,微生物碳代谢活性差异均不显著;并且AP15-1与YC03-3根际土微生物对四大类碳源的代谢也没有明显的偏好。对春秋季成熟期的BIOLOG数据进行生态学丰富度与多样性指数计算分析,也未发现AP15-1和YC03-3根际土及非根际土间存在显著性差异。主成份和聚类分析结果显示:相同季节和相同生长期,AP15-1和YC03-3根际间的差异小于根际与非根际间的差异;季节和大豆生长时期对根际微生物群落造成的影响要大于AP15-1与YC03-3个体差异所产生的影响。研究结果表明转酸性磷酸酶基因的磷高效转基因大豆种植对根际土壤可培养微生物的数量和群落结构没有产生显著的影响。     

基于高通量测序分析大豆和油菜根际微生物群落结构的差异

根肿病是由芸薹根肿菌侵染引起的专性寄生性土传病害,严重制约着油菜等十字花科作物的可持续生产.前期研究发现,大豆作为前茬作物可以显著降低后茬油菜根肿病的发生和危害,"豆-油轮作"模式是一种值得探索和应用的根肿病防治新途径.为了解开大豆作为前茬防治根肿病发生的机理,本研究基于扩增子测序技术探究大豆与油菜根际土壤微生物的群落结构差异.结果表明:大豆和油菜根际土壤微生物类群在门水平的优势类群相同,包括变形菌门、拟杆菌门、酸杆菌门、放线菌门、子囊菌门、接合菌门、担子菌门和壶菌门等丰度都较高.但相比于油菜根际土壤,大豆根际土壤富含具有生防作用和促进植物生长的微生物,如黄杆菌属、鞘脂单胞菌属、芽孢杆菌属、链霉菌属、假单胞菌属、木霉属和盾壳霉属等;而一些植物病原细菌(如肠杆菌、黄单胞菌)和真菌(炭疽菌和尾孢菌)含量则低于油菜根际土壤;另外,大豆根际土壤中还富含具有固氮功能的根瘤菌属、慢生根瘤菌属和丛枝菌根真菌(如球囊霉属).可见,大豆根际土壤利于有益微生物生长并可抑制病原菌繁殖.大豆和油菜根际微生物组差异为大豆-油菜轮作防治根肿病提供了理论依据,并为根肿病的防治提供了一些潜在的生物防治资源.     

不同种植模式对作物根系生长、产量及根际土壤微生物数量的影响

采用多年大田试验研究了小麦-大豆(A1)、小麦-甘薯(A2)、玉米(A3)、小麦/玉米/大豆(A4)和小麦/玉米/甘薯(A5)5种种植模式的根际环境变化特征和根系生长特性.结果表明:与A1、A2、A3和A5相比,A4提高了小麦、玉米、大豆在开花期和成熟期的生物量、根系活力和根干质量,提高了各作物根际土壤细菌、真菌和放线菌数量.各种植模式之间,植株生物量和根际微生物数量的变化规律为套作＞单作、大豆茬口＞甘薯茬口、边行＞中行.小麦/玉米/大豆(A4)套作模式通过改善3种作物的根际环境,促进了作物地下部根系生长和地上部生物量的增加,从而实现作物增产.     

Influence of Soil Type,Cultivar and Verticillium dahliae on the Structure of the Root and Rhizosphere Soil Fungal Microbiome of Strawberry

Sustainable management of crop productivity and health necessitates improved understanding of the ways in which rhizosphere microbial populations interact with each other, with plant roots and their abiotic environment. In this study we examined the effects of different soils and cultivars, and the presence of a soil-borne fungal pathogen, Verticillium dahliae, on the fungal microbiome of the rhizosphere soil and roots of strawberry plants, using high-throughput pyrosequencing. Fungal communities of the roots of two cultivars, Honeoye and Florence, were statistically distinct from those in the rhizosphere soil of the same plants, with little overlap. Roots of plants growing in two contrasting field soils had high relative abundance of Leptodontidium sp. C2 BESC 319 g whereas rhizosphere soil was characterised by high relative abundance of Trichosporon dulcitum or Cryptococcus terreus, depending upon the soil type. Differences between different cultivars were not as clear. Inoculation with the pathogen V. dahliae had a significant influence on community structure, generally decreasing the number of rhizosphere soil- and root-inhabiting fungi. Leptodontidium sp. C2 BESC 319 g was the dominant fungus responding positively to inoculation with V. dahliae. The results suggest that 1) plant roots select microorganisms from the wider rhizosphere pool, 2) that both rhizosphere soil and root inhabiting fungal communities are influenced by V. dahliae and 3) that soil type has a stronger influence on both of these communities than cultivar.