Immobilization of Delftia tsuruhatensis in macro-porous cellulose and biodegradation of phenolic compounds in repeated batch process

Delftia tsuruhatensis BM90, previously isolated from Tyrrhenian Sea and selected for its ability to degrade a wide array of phenolic compounds, was immobilized in chemically modified macro porous cellulose. The development of bacterial adhesion on the selected carrier was monitored by scanning electron microscopy. Evident colonization started already after 8 h of incubation. After 72 h, almost all the carrier surface was covered by the bacterial cells. Extracellular bacterial structures, such as pili or fimbriae, contributed to carrier colonization and cell attachment. Immobilized cells of D. tsuruhatensis were tested for their ability to biodegrade a pool of 20 phenols in repeated batch process. During the first activation batch (72 h), 90% of phenols degradation was obtained already in 48 h. In the subsequent batches (up to 360 h), same degradation was obtained after 24 h only. By contrast, free cells were slower: to obtain almost same degradation, 48 h were needed. Thus, process productivity, achieved by the immobilized cells, was double than that of free cells. Specific activity was also higher suggesting that the use of immobilized D. tsuruhatensis BM90 could be considered very promising in order to obtain an efficient reusable biocatalyst for long-term treatment of phenols containing effluents.     

一株具有防病促生功能的贝莱斯芽孢杆菌SF327

【目的】筛选植物根际促生贝莱斯芽孢杆菌,分析菌株的生防潜力和全基因组特征。【方法】通过温室小青菜促生试验以及植物益生表型的分析,明确具有促生功能的菌株SF327。用滤纸片法测定菌株SF327对5种植物病原真菌以及4种植物病原细菌的拮抗活性。通过大田喷雾接种的方式评价菌株SF327对水稻白叶枯病的防治潜力。利用antiSMASH分析预测菌株SF327产生的二次代谢产物。通过比较基因组分析SF327与2株植物根际益生贝莱斯芽孢杆菌的代表性菌株FZB42和SQR9的亲缘关系、核心基因以及二次代谢产物合成基因簇。【结果】菌株SF327能够产生生长素吲哚-3-乙酸,是一株有益的根围促生菌;对稻瘟病菌、黄瓜枯萎病菌、辣椒疫霉菌、橡胶树胶孢炭疽菌、尖孢炭疽病菌都具有明显的拮抗作用;也具有防治水稻白叶枯病的生防潜力。菌株SF327基因组全长4.08 Mb,GC含量为46.49%,共编码4 033个基因,含有13个潜在的次生代谢产物编码基因簇,不含有质粒。SF327与FZB42和SQR9具有较近的亲缘关系,有87%以上的核心基因相同,但与SQR9的亲缘关系较近。【结论】B. velezensis SF327是一株具有宽广拮抗谱的多功能菌株,具有较好的生防应用潜力。     

茅苍术叶片可培养内生细菌多样性及其促生潜力

对江苏省道地药材茅苍术叶片可培养内生细菌的多样性及其固氮、解磷、解钾、产生长素的能力进行研究。依据菌落形态的不同,共分离得到52株内生细菌。能正常传代培养的45株内生细菌经ARDRA分析后归入14个聚类簇,簇内菌株的BOX-PCR指纹图谱相似度不高,在属水平上显示出茅苍术内生细菌丰富的多样性。各聚类簇代表菌株16S rDNA的序列分析表明分离得到的内生细菌与泛菌属、微杆菌属、短杆菌属、农杆菌属、假单胞菌属、芽孢杆菌属细菌亲缘关系相近,优势内生细菌与假单胞菌属细菌亲缘关系相近。45株能正常传代培养的内生细菌中,有10株能够在无氮培养基上正常生长,具固氮潜力。使用nifH基因通用引物对其基因组进行扩增后,除ALEB 33外,其它9株内生细菌均可获得与nifH基因片段大小相近的条带。分别使用NBRIP培养基和蒙金娜有机磷培养基筛选后获得19株和15株能够溶解磷酸钙和卵磷脂的内生细菌,其中ALEB 43溶解无机磷的能力最强,达(251.43±6.55)mg/L;ALEB 4A溶解有机磷的能力最强,达(23.63±1.46)mg/L。部分内生细菌溶解无机磷的能力与其产酸能力呈正相关,而菌株溶解有机磷的能力却无此相关性。通过硅酸盐培养基的筛选,获得具有解钾潜力的菌株24株。43株内生细菌能够将色氨酸转化为生长素,其中ALEB 44产生长素的能力最强,达(268.44±10.12)μg/mL。本研究首次揭示了江苏省道地药材茅苍术体内丰富的内生细菌资源及其促生长潜力,对进一步阐述茅苍术与内生菌之间的相互关系具有重要意义。     

花生种子相关促生菌分离鉴定及功能评价

【背景】利用微生物促进植物健康生长是农业可持续发展的重要方向之一,而种子相关的促生菌可在植物生命周期早期与植物相互作用,对植物健康生长具有重要意义。【目的】发掘与利用种子相关促生菌的前提是筛选获得促生菌菌种资源,验证其益生能力,为其进一步应用与机理研究提供依据与支持。【方法】以花生种子为研究对象,从种子表面及种子内部分离纯化多株菌,测定菌株的固氮、解磷、解钾、吲哚乙酸合成和铁载体合成等促生能力,并验证菌株对常见植物病原菌的生长抑制特性;通过16S rRNA基因序列进行系统发育分析,确定分类地位;通过生物膜形成能力及根际定殖能力测定菌株在植物根际的生存能力;最后通过催芽及盆栽试验测定菌株对花生种子发芽及幼苗生长的影响。【结果】从花生种子表面、种子内和胚根内分离筛选到41株菌,均有吲哚乙酸合成能力,其中35株有固氮能力,2株有铁载体分泌能力,14株有植物病原菌生长抑制能力。各选一株为代表的菌株,即PS3、PE5和PR5,经16S rRNA基因序列比对分析鉴定为芽孢杆菌属(Bacillus)。PS3、PE5和PR5均可在MSgg液体培养基表面形成褶皱较强的生物膜,也可在花生根际形成有效定殖。催芽试验结果表明经过促生菌浸种后花生种子萌发率明显提高,在第2天时,PS5将发芽率由14.17%提高至38.33%,PE5发芽率提高至30.83%,PR5发芽率提高至39.17%。三株菌能够明显促进花生幼苗生长,PS5对花生幼苗苗高、根长、鲜重和干重分别提高21.82%、22.20%、37.11%和35.64%,PE5分别提高17.45%、18.93%、26.10%和21.18%,PR5分别提高23.11%、23.92%、38.66%和37.47%。【结论】筛选获得的花生种子相关促生菌,具有促进植物生长的潜力,明显促进种子萌发及幼苗生长,是良好的促生菌生物资源,具有较好的应用潜力。     

薇甘菊根际可培养固氮菌和氨化细菌的分离鉴定与促生作用

【目的】固氮菌和氨化细菌是氮循环产生生物有效氮的关键起始环节,直接影响了外来入侵植物的生长速度和扩散进程。然而,关于典型入侵植物薇甘菊根际可培养固氮菌和氨化细菌的研究尚未见报道,这在很大程度上制约了我们对薇甘菊根际高效的氮素转化机制的深刻理解。【方法】采用传统平板涂布培养法对野外采集的薇甘菊根际土壤中的可培养固氮菌和氨化细菌进行了分离鉴定,并进行了接种验证实验。【结果】结果表明,入侵植物薇甘菊根际土壤中的固氮菌和氨化细菌的菌群密度显著高于两个本地伴生植物(火炭母和鸡屎藤),其固氮效率及有机氮矿化效率也优于2个本地种;系统发育分析表明：薇甘菊根际的固氮菌菌株归类于5个属,分别为伯克霍尔德氏菌属(Burkholderia)、肠杆菌属(Enterobacter)、植物杆菌属(Phytobacter)、新肠杆菌属(Kosakonia)和根瘤菌属(Rhizobium);氨化细菌归类于7个属,分别为沙雷氏菌属(Serratia)、不动杆菌属(Acinetobacter)、假单胞菌属(Pseudomonas)、博德特氏菌属(Bordetella)、寡养单胞菌属(Stenotrophomonas)、苍...     

抗青枯病型根际促生菌(PGPR)菌群构建及其生物防控机制

【目的】根际促生菌(plant growth promoting rhizobacteria, PGPR)防控青枯病效果不稳定是目前有益微生物生防应用的瓶颈问题,构建稳定高效拮抗青枯菌的PGPR菌群是生物防控的关键。【方法】以前期筛选到的8株PGPR菌株(112、114、Ba-S、TLZZ、LX4、LX7、Ps-S和VC110)和青枯菌(Ralstonia solanacearum, Rs)为研究对象,在前期获得烟草根系分泌物组成的基础上,采用限菌微系统和生态微孔板结合绿色荧光蛋白标记、定量聚合酶链式反应(quantitative polymerase chain reaction, qPCR)、断棒模型设计等方法,探究PGPR菌群对青枯菌入侵烟草根际的抵御机制,并在田间进行抗病、促生效果验证。【结果】LX4、Ba-S、LX7可以充分利用烟草根系分泌物中的氨基酸、糖类碳源抑制青枯菌生长,LX7和112在所有酸类碳源下均对青枯菌有抑制作用,最高抑菌率分别为40.12%(LX7+乳酸)和35.15%(112+柠檬酸)。Ps-S、112和VC110的基础生态位宽度(basal niche b...     

The use of transgenic canola (Brassica napus) and plant growth-promoting bacteria to enhance plant biomass at a nickel-contaminated field site

The applicability of transgenic plants and plant growth-promoting bacteria to improve plant biomass accumulation as a phytoremediation strategy at a nickel (Ni)-contaminated field site was examined. Two crops of 4-day old non-transformed and transgenic canola (Brassica napus) seedlings in the presence and absence of Pseudomonas putida strain UW4 (crop #1) or P. putida strain HS-2 (crop #1 and 2) were transplanted at a Ni-contaminated field site in 2005. Overall, transgenic canola had increased growth but decreased shoot Ni concentrations compared to non-transformed canola, resulting in similar total Ni per plant. Under optimal growth conditions (crop #2), the addition of P. putida HS-2 significantly enhanced growth for non-transformed canola. Canola with P. putida HS-2 had trends of higher total Ni per plant than canola without P. putida HS-2, indicating the potential usefulness of this bacterium in phytoremediation strategies. Modifications to the planting methods may be required to increase plant Ni uptake.     

水稻种子内生泛菌(Pantoea spp.)系统发育多样性及其促生功能

【目的】Pantoea菌株是广泛分布在自然界中的一类功能多样的细菌。本研究对分离自水稻种子内生的Pantoea菌株进行系统发育分析及功能评价,从而确定分类地位、种类多样性、分布特征及功能特性。【方法】采用乙醇-次氯酸钠联合灭菌方法进行水稻种子的表面灭菌,进行内生细菌的分离与纯化;其次将纯化后的菌株进行16Sr RNA基因PCR扩增及序列分析,通过MEGA7软件构建系统发育树;将分离得到的菌株进行功能实验检测,如溶磷、产IAA、产铁载体、拮抗病原真菌等特性,最后检测菌株的溶血性;水稻分型采用SSR方法,并对水稻农学性状如分蘖数、株高、植株重及产量进行调查。【结果】本研究对分离自8个不同基因型水稻种子中的146株内生Pantoea菌株进行系统发育分析及功能评价,结果发现所分离到的泛菌菌株主要属于Pantoea dispersa、Pantoea agglomerans、Pantoea cypripedii以及Pantoea brenneri四个种,其中P. dispersa的菌株数量最多,分布最广,并且存在于所有的8个水稻种子样品中。对其中66株菌进行功能检测,发现86.3%和69.7%的菌株具有溶磷和产IAA能力,有7株菌具有产铁载体能力,未发现对真菌病害Fusarium moniliforme有拮抗作用的菌株,并发现3株菌具有溶血性;本实验未发现泛菌组成与水稻系统发育及农学性状存在明显的相关性。【结论】本研究首次对水稻种子中泛菌的多样性及其功能进行报道,发现不同基因型的水稻种子所含Pantoea种类及组成存在差异,种子选择性地积累了Pantoea类群,大部分菌株具有一定的促生特性。该研究结果有助于进一步探究微生物与植物的共进化、种子微生物的传播途径及作用方式。     

广西葛根内生细菌的分离鉴定及其促生特性

【背景】植物内生菌长期与宿主共生,对宿主生长发育产生影响。葛根作为重要的药食两用作物,葛根内生菌的研究具有重要实践意义。【目的】对广西葛根根部内生细菌进行分离、鉴定及促植物生长特性分析,旨在了解该药食同源植物内生细菌种群结构及其促生特性,为分析内生菌群体在药食同源植物产量和品质形成的作用及其内生细菌资源的开发利用提供参考。【方法】采用6种不同的培养基从广西葛根的根瘤、根系和根愈伤组织分离内生细菌,16S rRNA基因测序和系统发育分析内生细菌的分布特征和遗传多样性,采用生理生化方法测定分离菌株的固氮活性、溶磷特性、产生嗜铁素、分泌吲哚乙酸(indole-3-aceticacid,IAA)等促生特性。【结果】从葛根根瘤、根系和根部愈伤组织中共分离得到223个菌株,16S rRNA基因测序鉴定这些菌株隶属于2门4纲10科19属,其中芽孢杆菌属、假单胞菌属、土壤杆菌属、肠杆菌属为葛根优势菌群;内生细菌数量和群落组成存在明显的组织特异性,其数量表现为根瘤>根系>根愈伤组织,但其种群多样性表现为根愈伤组织>根系>根瘤。不同培养基分离出的细菌种群丰富度有差异。从供试菌株中筛...     

Root bacteria from nematicidal plants and their biocontrol potential against trichodorid nematodes in potato

Trichodorid nematodes (Nematoda: Trichodoridae) are vectors of tobacco rattle virus (TRV), one of the causal agents of spraing disease in potato. Root bacteria from nematicidal plants and their control potential against Trichodoridae were the focus of this study. Bacteria isolated from the roots of 12 nematicidal plants and potato were characterized for their production of hydrolytic enzymes, hydrogen cyanide, phenol oxidation ability and antifungal activity towards the potato pathogen Rhizoctonia solani. Based on these functional traits, bacteria isolates were selected and tested in greenhouse conditions on potato (cv. Saturna) for their effect on plant growth, and screened for nematicidal activity against Paratrichodorus pachydermus and Trichodorus primitivus in naturally infested soil. Sixteen bacteria isolates out of 44 reduced nematode densities by 50–100%. Nine selected isolated were further tested by bacterizing potato tubers (cv. King Edward) which were planted in a trichodorid and TRV-infested soil. Four bacterial isolates consistently reduced nematode densities (by 56.7–74.4%) with no visual negative effect on plant growth. These isolates were tentatively identified, partly by fatty acid methyl ester (FAME) analysis as: Stenotrophomonas maltophilia, Bacillus mycoides, Pseudomonas sp., and one unidentified bacterium. The isolates originated from potato, Plantago major, Thymus vulgaris and Asparagus officinalis, respectively. Two Pseudomonas isolates obtained from Zinnia elegans and selected for their strong nematicidal activity in soil screening tests, did not reduce the nematode population when tested on potato. It is concluded that plants releasing nematicidal compounds may harbour nematode-antagonistic bacteria as well.     

东乡野生稻内生细菌Fse32拮抗作物病害真菌及对水稻的促生活性

【背景】植物种子是植物内生菌筛选的重要原料,从中能够分离得到具有巨大应用价值的内生菌株。【目的】为发掘优良的种子内生细菌资源,对分离自东乡野生稻种子的内生细菌Fse32进行鉴定并研究其抗病原真菌和促生活性。【方法】通过形态学观察、生理生化特征和16SrRNA基因序列分析进行菌种鉴定,采用拮抗试验检测抑制病原真菌的活性,通过促生能力测定试验、水稻种子萌发及盆栽试验评价该菌株的促生效果。【结果】内生细菌Fse32鉴定为唐菖蒲伯克霍尔德氏菌,命名为Burkholderia gladioli Fse32。拮抗试验结果显示,菌株Fse32对禾谷镰孢菌(Fusarium graminearum)、水稻纹枯病菌(Rhizoctoniasolani)、核盘菌(Sclerotiniasclerotiorum)、大豆核盘菌(Sclerotinialibertiana)、尖孢镰刀菌(Fusariumoxysporum)和辣椒疫霉病菌(Phytophthoracapsici)均有较好的抑制作用,吲哚乙酸(indole-3-aceticacid,IAA)产率为17.95mg/L,能产铁载体,其A/Ar比值为0....     

Increased plant growth and copper uptake of host and non-host plants by metal-resistant and plant growth-promoting endophytic bacteria

The effects of inoculation with two metal-resistant and plant growth-promoting endophytic bacteria (Burkholderia sp. GL12 and Bacillus megaterium JL35) were evaluated on the plant growth and Cu uptake in their host Elsholtzia splendens and non-host Brassica napus plants grown in natural Cu-contaminated soil. The two strains showed a high level of ACC deaminase activities. In pot experiments, inoculation with strain GL12 significantly increased root and above-ground tissue dry weights of both plants, consequently increasing the total Cu uptake of E. splendens and Brassica napus by 132% and 48.2% respectively. Inoculation with strain JL35 was found to significantly increase not only the biomass of B. napus, consequently increasing the total Cu uptake of B. napus by 31.3%, but Cu concentration of E. splendens for above-ground tissues by 318% and roots by 69.7%, consequently increasing the total Cu uptake of E. splendens by 223%. The two strains could colonize the rhizosphere soils and root interiors of both plants. Notably, strain JL35 could colonize the shoot tissues and significantly increase the translocation factors and bioaccumulation factors of E. splendens. These results suggested that Burkholderia sp. GL12 and B. megaterium JL35 were valuable bacterial resource which had the potential in improving the efficiency of Cu phytoextraction by E. splendens and B. napus in a natural Cu-contaminated soil.     

巨菌草根部促生菌的筛选及其促生效应

为进一步开发植物促生菌,该研究以巨菌草根部为主要材料进行巨菌草促生菌的筛选,采用解磷、固氮和产IAA等筛选标准对初筛菌株分别进行多项促生能力的测定。通过形态观察、生理生化特性和16S rDNA序列同源性分析对促生效果最好的菌株YB-07进行分类和鉴定,分别测定其促生能力后从中筛选出促生效应强的11个菌株进行盆栽试验,并通过对这些菌株单独回接和多菌混接的小麦盆栽试验测定其对小麦的促生效应。结果表明:从巨菌草根部分离得到了101株促生菌株,分类鉴定结果显示菌株YB-07归属于根瘤菌属(Rhizobium),其溶磷量为20.1 mg·L^-1、产IAA量为23.7mg·L^-1,同时具有产氨能力。盆栽试验测定结果显示,多菌混合接种对小麦的促生效应在株高、干重、鲜重和叶绿素含量上,分别较对照组增加了24.49%、31.84%、28.06%和34.14%。单菌接种对小麦的促生表现在株高、干重、鲜重和叶绿素含量上,分别较对照组增加了13.54%、20.45%、16.84%和35.19%。所筛选到的菌株具有良好的促生长作用,能为进一步构建巨菌草促生菌菌群提供良...     

基于基因组的一株土壤固氮菌分离菌株鉴定及其促生作用

[目的] 为获得高效固氮菌株,充分研究利用土壤固氮菌资源。[方法] 选取固氮能力较高的紫色土发育水稻土,采用富集纯化法分离固氮微生物菌株。通过16S rRNA基因系统发育分析和全基因组相关指数比较对新分离菌株进行物种鉴定。采用乙炔还原法和¹⁵N₂示踪法定量测定新分离菌株的固氮能力,通过培养特性和接种效果初步研究固氮菌株的促生作用。[结果] 从紫色土发育水稻土中分离得到1株可在无氮培养基上快速生长的菌株P208。基于16S rRNA基因和基因组92个核心基因的系统发育分析结果表明,新分离菌株P208与Azotobacter chroococcum IAM 12666^T（=ATCC 9043^T）系统发育距离最近（16S rRNA基因相似度为99.79%）。菌株P208与A.chroococcum ATCC 9043^T的基因组平均核苷酸一致性（ANI）、平均氨基酸一致性（AAI）和数字DNA-DNA杂交值（dDDH）高于物种分类阈值（ANI>95%-96%,AAI>95%-96%,dDDH>70%）,最大唯一匹配指数（MUMi）低于物种分类阈值（<0.33）,得出新分离菌株P208为褐球固氮菌（A.chroococcum）。A.chroococcum P208固氮活性为模式菌株A.chroococcum ATCC 9043^T的2.61倍。除固氮能力外,A.chroococcum P208具有IAA生成、溶磷活性和铁载体生成等促进植物生长潜力的培养特性,室内培养条件下接种A.chroococcum P208能够促进水稻、小麦幼苗根系的生长。[结论] 从固氮能力较强的水稻土中分离纯化得到1株具有较强固氮、促生潜力的固氮菌,具有潜在的开发应用价值,可为研究利用生物固氮提供微生物资源。     

Muscodor albus, a potential biocontrol agent against plant-parasitic nematodes of economically important vegetable crops in Washington State, USA

The fungus, Muscodor albus, was tested for nematicidal and nematostatic potential against four plant-parasitic nematode species with three different feeding modes on economically important vegetable crops in the Pacific Northwest. Meloidogyne chitwoodi, Meloidogyne hapla, Paratrichodorus allius, and Pratylenchus penetrans were exposed for 72 h to volatiles generated by M. albus cultured on rye grain in sealed chambers at 24 °C in the laboratory. In addition, the nematodes were inoculated into soil fumigated with M. albus, and incubated for 7 days prior to the introduction of host plants under greenhouse conditions. The mean percent mortality of nematodes exposed to M. albus in the chamber was 82.7% for P. allius, 82.1% for P. penetrans, and 95% for M. chitwoodi; mortality in the nontreated controls was 5.8%, 7%, and 3.9%, respectively. Only 21.6% of M. hapla juveniles died in comparison to 8.9% in controls. However, 69.5% of the treated juveniles displayed reduced motility and lower response to physical stimulus by probing, in comparison to the control juveniles. This is evidence of nematostasis due to M. albus exposure. The greenhouse study showed that M. albus caused significant reduction to all nematode species in host roots and in rhizosphere soil. The percent mortality caused by M. albus applied at 0.5% and 1.0% w/w in comparison to the controls was as follows: 91% and 100% for P. allius in the soil; 100% for P. penetrans in bean roots and soil; 85% and 95% for M. chitwoodi in potato roots, and 56% and 100% in the soil; 100% for M. hapla both in pepper roots and soil. In this study, M. albus has shown both nematostatic and nematicidal properties.     

耐砷促生菌对超富集植物蜈蚣草砷吸收及根际微生物群落的调控作用

【目的】分析添加外源促植物生长微生物(plant growth-promoting bacteria,PGPB)对植物生长、砷富集和根际微生物的影响,为植物-微生物联合修复砷污染土壤提供参考。【方法】通过添加外源PGPB,研究蜈蚣草生物量和砷富集量与外源微生物促植物生长特性的关系,采用高通量测序技术分析蜈蚣草根际微生物群落在外源PGPB干预下的变化规律。【结果】2株根际菌(假单胞菌PG12、芽孢杆菌R19)和1株内生菌(恶臭假单胞菌S6)具备典型的促植物生长特性,对蜈蚣草的促生作用顺序为：PG12>S6>R19,与对照组相比,生物量分别提高了234%(P<0.01)、136%(P<0.01)和67%;添加外源PGPB后,蜈蚣草砷含量从对照的18.50 mg提高到了31.25-46.95 mg,增幅高达153%(PG12)和139%(S6),对应的蜈蚣草砷浓度从2616.34mg/kg降至1348.04-2 156.23 mg/kg,呈现出典型的砷“稀释效应”;α多样性指数Sobs、Chao和Ace显示,仅R19处理显著提高了根际微生物的群落多样性,而β多样性指数...     

Mixtures of plant growth-promoting rhizobacteria for induction of systemic resistance against multiple plant diseases

Studies of induced systemic resistance using strains of plant growth-promoting rhizobacteria (PGPR) have concentrated on the use of individual PGPR as inducers against multiple diseases of a single crop. To date, few reports have examined the potential of PGPR strain mixtures to induce systemic resistance against diseases of several different plant hosts. The objective of this study was to select mixtures of compatible PGPR strains with the capacity to elicit induced systemic resistance in four hosts. The specific diseases and hosts tested in this study included: bacterial wilt of tomato (Lycopersicon esculentum) caused by Ralstonia solanacearum, anthracnose of long cayenne pepper (Capsicum annuum var. acuminatum) caused by Colletotrichum gloeosporioides, damping off of green kuang futsoi (Brassica chinensis var. parachinensis) caused by Rhizoctonia solani, and cucumber mosaic virus (CMV) on cucumber (Cucumis sativus). To examine compatibility, seven selected PGPR strains were individually tested for in vitro antibiosis against all other PGPR strains and against three of the tested pathogens (R. solanacearum, C. gloeosporioides, and R. solani). No in vitro antibiosis was observed among PGPR strains or against pathogens. Twenty-one combinations of PGPR and seven individual PGPR were tested in the greenhouse for induced resistance activity. Results indicated that four mixtures of PGPR and one individual strain treatment significantly reduced the severity of all four diseases compared to the nonbacterized control: 11 mixtures reduced CMV of cucumber, 16 mixtures reduced bacterial wilt of tomato, 18 mixtures reduced anthracnose of long cayenne pepper, and 7 mixtures reduced damping off of green kuang futsoi. Most mixtures of PGPR provided a greater disease suppression than individual PGPR strains. These results suggest that mixtures of PGPR can elicit induced systemic resistance to fungal, bacterial, and viral diseases in the four hosts tested.     

辣椒镰孢根腐病防病促生细菌的筛选及其效应

【目的】筛选辣椒(Capsicum annuum L.)根腐病防病促生细菌并明确其防病促生效应。【方法】采集健康辣椒根围土壤样品,以辣椒根腐病病原真菌茄镰孢(Fusarium solani)和尖镰孢(Fusarium oxysporum)为指示菌,采用平板对峙法筛选生防细菌,采用选择性培养基筛选溶无机磷、溶有机磷、固氮菌和解钾菌等促生菌,钼锑抗比色法测定溶磷量,凯氏定氮法测定固氮量,火焰原子吸收光谱法测定解钾量。对特性良好组合的菌株进行16S rDNA序列分析鉴定并制作菌剂,最后采用盆栽法测定菌剂防病促生效果。【结果】共筛选得到323株特性良好的功能菌株,拮抗菌78株,溶有机磷菌87株,溶无机磷菌107株,固氮菌128株,解钾菌123株,部分菌株同时具有多个功能特性。互作组合得到6个特性良好的菌株组合,包括8株功能菌株,鉴定发现XP271和XP181为枯草芽胞杆菌(Bacillus subtilis),XP125为特基拉芽胞杆菌(Bacillus tequilensis),XP236为耐盐芽胞杆菌(Bacillus halotolerans),XP79为巨大芽胞杆菌(Bacillus ...     

Molecular and phenotypic characterization of potential plant growth-promoting <Emphasis Type="Italic">Pseudomonas</Emphasis> from rice and maize rhizospheres

In this study, Pseudomonas species were isolated from the rhizospheres of two plant hosts: rice (Oryza sativa cultivar Pathum Thani 1) and maize (Zea mays cultivar DK888). The genotypic diversity of isolates was determined on basis of amplified rDNA restriction analysis (ARDRA). This analysis showed that both plant varieties selected for two distinct populations of Pseudomonas. The actual biocontrol and plant promotion abilities of these strains was confirmed by bioassays on fungal (Verticillum sp., Rhizoctonia solani and Fusarium sp.) and bacterial (Ralstonia solanacearum and Bacillus subtilis) plant pathogens, as well as indole-3-acetic acid (IAA) production and carbon source utilization. There was a significant difference between isolates from rice and maize rhizosphere in terms of biological control against R.  solanacearum and B.  subtilis. Interestingly, none of the pseudomonads isolated from maize rhizosphere showed antagonistic activity against R.  solanacearum. This study indicated that the percentage of pseudomonad isolates obtained from rice rhizosphere which showed the ability to produce fluorescent pigments was almost threefold higher than pseudomonad isolates obtained from maize rhizosphere. Furthermore, the biocontrol assay results indicated that pseudomonad isolated from rice showed a higher ability to control bacterial and fungal root pathogens than pseudomonad isolates obtained from maize. This work clearly identified a number of isolates with potential for use as plant growth-promoting and biocontrol agents on rice and maize.     

达乌里胡枝子产铁载体根瘤内生细菌的鉴定及其促生抗逆效应

【背景】根瘤是植物-微生物共生的特殊结构,蕴含丰富的微生物资源。产铁载体根瘤内生细菌对促进结瘤固氮具有重要作用,但目前关于其是否对植物具有促生作用尚不明确。【目的】筛选鉴定达乌里胡枝子(Lespedeza daurica)根瘤产铁载体内生细菌,明确其促生作用,为丰富植物促生菌资源提供新的途径。【方法】利用铬天青(chrome azurol S, CAS)培养基初筛产铁载体根瘤内生细菌,对目的菌株进行鉴定;通过液体发酵试验确定其产铁载体能力;利用促生功能培养基测定其他促生特性;利用不同盐浓度(0.01%-9.00%)、不同pH值(3.0-12.0)的酵母甘露醇(yeast mannitol,YMA)液体培养基和不同培养温度(4-60℃)确定其抗逆特性;通过盆栽试验初步验证其对植物的促生作用。【结果】48株根瘤内生细菌可产铁载体,其中9株为高产铁载体细菌,分别为TG4、TG9、TG13、TG15、TG28、TG32、TG38、TG76和TG78,铁载体相对表达量为26%-93%;经鉴定,除了TG28为巨大普里斯特氏菌(Priestiamegaterium),其余8株菌均为耐寒短杆菌(Bre...