马铃薯内生细菌的分离及环腐病拮抗菌的筛选鉴定

 本研究从大同、太原和内蒙古等地采集马铃薯块茎,分离到240株内生细菌,通过离体抑菌作用测定,共得到55株对环腐病菌有拮抗作用的菌株,占菌株总数的22.9%,抑菌圈半径最大的可达13 mm。按抑菌圈半径大小将拮抗菌分为强、中、弱三类。从中筛选出9个对环腐病等病菌具有较强拮抗作用的内生菌株进行了细菌学鉴定,结果表明:118为荧光假单胞生物型V (Pseudomonas fluorescens biovar V);110为短小芽孢杆菌(Bacillus pumilus);085为嗜热脂肪芽孢杆菌(Bacillus stearothermophilus);069为草生欧文氏菌(Erwinia herbicola);043为草莓黄单胞菌(Xanthomonas fragariae);A-10'、T3为芽孢杆菌属(Bacillus);H1-6为荧光假单胞菌(Pseudomonas fluorescens);116为短小杆菌属(Curtobacterium)。     

利用拮抗的Pseudomonas spp.和无致病力的P.solanacearum防治青枯病的研究

 从番茄、烟和木麻黄根围土壤中分离了606个Pseudomonas spp.菌株,94a和22a对番茄、烟和花生青枯病有一定效果。用番茄青枯菌和花生青枯菌通过Co⁶⁰辐射和紫外光诱变的无致病力菌株,25c、55b对番茄青枯病;45b对花生青枯病;107b对花生青枯病;有一些效果。但不够理想。试验结果证明从植物根围土壤筛选有拮抗作用的P.spp.有可能用于防治青枯病。     

番茄枯萎病和青枯病拮抗细菌的筛选、评价与鉴定

从宁夏银川、江苏沭阳和福建厦门的番茄、辣椒、西瓜等作物根际土壤中,分离纯化获得367株细菌菌株。以番茄枯萎病菌Fusarium oxysporum f.sp.lycopersici和番茄青枯病菌Ralstonia solanacearum为靶标菌,从367株菌株中筛选出对两种病菌皆具有很强拮抗作用的菌株22株。拮抗细菌抑菌物质的研究结果表明：22株拮抗细菌均能分泌蛋白酶;不能分泌几丁质酶;3株细菌能分泌纤维素酶;3株细菌能分泌嗜铁素。盆栽试验结果表明：拮抗细菌PTS-394对番茄枯萎病和青枯病的防效最高,分别为77.4%和80%;菌株H-70、L-1和SJ-280对番茄枯萎病和青枯病的防效均大于60%。对上述4株拮抗细菌进行16S rRNA种属鉴定,均为枯草芽孢杆菌Bacillus subtilis。     

植物土传病原菌拮抗细菌的筛选与鉴定

从作物根际土壤中分离到1056株细菌，筛选出7个具有较强拮抗活性的菌株。室内测定对水稻纹枯病菌、辣椒疫病菌、瓜果腐霉、油菜菌核病菌、棉花枯萎病菌、茄根腐病菌、棉花黄萎病菌、番茄青枯病菌、甘蓝黑腐病菌等重要土传病原菌有较强拮抗作用；温室盆栽试验对番茄青枯病表现出较好防效，其中以BOH2和OH11效果较为明显，防效分别为90．9％和86．4％。通过形态观察、生理生化试验和16SrDNA序列分析，确定OH11为产酶溶杆菌。BOH3为荧光假单胞菌，其余5个菌株为不同芽孢杆菌。     

枯草芽孢杆菌Bs916防治番茄青枯病

采用室内MS平板植物组培法、温室盆栽试验和微生物特异性平板分离检测技术,评估了枯草芽孢杆菌Bs916对番茄的促生、防治青枯病的作用,研究了菌株Bs916对番茄根表及茎内青枯菌种群数量的影响和对番茄根围可培养微生物含量的影响。在植物组培MS平板中,枯草芽孢杆菌Bs916对番茄植株鲜重具有促生作用,播种15 d后,其鲜重达79.8 mg,比未处理对照增加9.61%。盆栽试验显示,枯草芽孢杆菌Bs916灌根处理番茄后14 d,对番茄青枯病的防治效果达55.6%;菌株Bs916处理番茄后,番茄根表、茎内青枯菌含量和未处理对照的青枯菌含量变化趋势一致,均呈现随着时间的改变而逐渐下降的趋势,菌株Bs916处理的根表青枯菌含量约为未处理对照的1/100~1/10,而茎内青枯菌含量为未处理对照的1/50~1/2。此外,菌株Bs916的施用对番茄根围土壤中细菌种群具有先抑制后促进的作用,对真菌具有先促进后快速抑制的作用,而对根围放线菌则无显著性影响。以上结果表明,芽孢杆菌Bs916具有潜在的防治番茄青枯病的田间应用前景,也为其田间应用提供了理论基础。     

利用芽孢杆菌在温室环境中控制番茄青枯病

 在离体条件下测试了81株芽孢杆菌分离物抑制番茄青枯病菌的能力,有4个菌株(B2、B5、B7和B8)显示了较好的抑菌效果,经细菌生物学性状、Biolog和16S rDNA序列分析,B2菌株鉴定为短短小芽孢杆菌(Brevibacillus brevis),B5、B7和B8鉴定为枯草芽孢杆菌(Bacillus subtilis)。在温室环境中,4个菌株都能不同程度的促进灭菌土和自然土的番茄生长,并能减轻番茄青枯病的发生。B2菌株显示了显著的抑菌作用,在灭菌土和自然土中分别降低了80.0%和87.4%的番茄青枯病发生率。     

番茄枯萎病菌和青枯病菌拮抗细菌的评价

为筛选出对番茄枯萎病和青枯病有较好防效的生防菌,采用平板对峙法,以番茄枯萎病菌Fusarium oxysporum和番茄青枯病菌Ralstonia solanacearum为靶标菌,从江苏沭阳、宿迁、溧水及内蒙古海拉尔分离到的2 062株细菌菌株中筛选拮抗菌株,并采用平板对峙法、拮抗菌液灌根法、分子生物学方法进行拮抗物质检测、盆栽试验及种属鉴定。结果表明:从2 062株细菌中共筛选到21株对番茄枯萎病和青枯病具有很强拮抗作用的菌株,均能分泌蛋白酶,具有解磷作用;不能分泌几丁质酶和纤维素酶,仅4株细菌能分泌嗜铁素。拮抗细菌SY290对番茄枯萎病和番茄青枯病防效最高,分别达到74.2%和75.0%,SQ728和LS536次之,但防效均大于60%。结合各菌株形态特征、16S r DNA与gyr-B序列分析结果,菌株SY177、SY290和SQ728鉴定为解淀粉芽胞杆菌Bacillus amyloliquefaciens,菌株LS536为枯草芽胞杆菌B.subtilis。     

番茄青枯病生防芽胞杆菌的筛选与鉴定

为了有效利用芽胞杆菌资源,本研究采用抑菌圈法从不同地理来源的芽胞杆菌中筛选出24个对青枯雷尔氏菌具有拮抗作用的菌株。其中,6个菌株对青枯雷尔氏菌的抑菌圈直径大于14.00 mm,菌株FJAT-11709的抑菌圈直径最大,为14.78 mm。盆栽试验比较了6个菌株对番茄青枯病的防治效果,结果表明,菌株FJAT-20261和FJAT-19700防效最好,分别达72.73%和67.77%。通过形态特征、生理生化测定及16S r RNA基因序列分析,菌株FJAT-20261和FJAT-19700分别被鉴定为耐寒短杆芽胞杆菌和特基拉芽胞杆菌。本文报道这2种芽胞杆菌对青枯雷尔氏菌具有拮抗作用,为青枯病的生物防治提供了新的菌株资源。     

芽孢杆菌B47菌株对番茄青枯病的防治作用

用不同接种方法测定番茄内生芽孢杆菌B47菌株对番茄青枯病的室内防效，结果表明，接种B47菌17d后再接种茄青枯雷尔氏菌的植株能较好地防治番茄青枯病，防治效果为81．25％；B47菌和茄青枯雷尔氏菌同时接种的植株对该病的防效较低，仅为16．67％。B47菌株与根围链霉菌St103菌株混合施用室内对番茄青枯病的防效为62．52％，田间防效为81．82％。     

两株贝莱斯芽胞杆菌鉴定及其对薄壳山核桃黑斑病病原菌的拮抗效果

黑斑病为薄壳山核桃重要真菌性病害,为了实现薄壳山核桃黑斑病绿色防控,本研究旨在筛选优良的内生拮抗菌株,为黑斑病的生物防控提供生防资源。通过形态鉴定、生理生化特征测定和16S rDNA与GyrA基因分析,对薄壳山核桃内生拮抗菌进行鉴定;采用平板对峙法测定内生拮抗菌对黑斑病病原真菌（5属21种26株）菌丝生长的抑制能力,分离筛选到2株高效拮抗菌ZJJDZY和ZJJDYB,鉴定为贝莱斯芽胞杆菌Bacillus velezensis。平板对峙法测定结果表明,2株拮抗菌均对12种12株炭疽菌Colletotrichum spp.、1种4株葡萄座腔菌Botryosphaeria dothidea、2种2株链格孢菌Alternaria spp.、4种7株新拟盘多毛孢Neopestalotiopsis spp.和1种1株拟茎点霉菌Phomopsis sp.均具有拮抗效果。其中,对C. henanense PCZJJD18、C. sojae PCAHFY5、N. mesopotamica PCSCLZ2、A. alternata PCAHFY6、Phomopsis PCZJJD14 sp.的抑制率为最高,抑制率在57.1%～60.6%,且两株拮抗菌抑菌能力相似;不同浓度的拮抗菌对不同属病原真菌的抑制效果不同,浓度为10⁸ CFU/mL时,拮抗效果最好,随着浓度降低,拮抗效果显著减弱。该两个菌株对多种薄壳山核桃黑斑病病原真菌具有拮抗作用,具有较佳的生防潜力。     

茄科植物内生细菌的分离及拮抗菌的筛选

从番茄和辣椒植株中共分离到9株对植物病原真菌具有拈抗作用的内生细菌。其中，来自樱桃番茄的内生细菌株系BS-1和湘研辣椒的内生细菌株系BS-4对辣椒根腐病菌等具有较强的拈抗作用，两者在植株体内均可以定殖。BS-1和BS-4均属于芽孢杆菌。     

番茄细菌性斑点病病原菌鉴定

 1998~1999年在吉林省、辽宁省、黑龙江省等地的大棚番茄上发现一种番茄病害,并从其病叶、病茎杆上分离得到了23个细菌菌株。接种番茄幼苗上,发病症状与自然发病症状完全一致,并从接种病株上重新分离到此病原细菌。各菌株致病力无明显的差异。经革兰氏染色反应、菌体形态、培养性状、生理生化反应、G+C mol%等鉴定,确认该病原菌为丁香假单胞杆菌番茄致病变种(Pseudomonas syringae pv.tomato(Okabe)Young,Dye&Wilkie)。该病菌引起番茄细菌性斑点病(又称叶斑病)。病菌除侵染番茄外,尚能侵染茄子、辣椒、龙葵、白花曼陀罗和毛曼陀罗。该病害尚属我国大陆首次报道。     

二氧化碳对台湾乳白蚁的引诱作用

台湾乳白蚁Coptotermes formosanus Shiraki是华南地区农林树木、木质构件的重要钻蛀性害虫。本文测定分析了二氧化碳(CO2)对台湾乳白蚁的引诱效果。分析结果显示,二氧化碳对台湾乳白蚁具有显著的引诱活性,其中浓度1.5%的二氧化碳对台湾乳白蚁的引诱作用较强,但引诱作用随着二氧化碳浓度的升高而减小。为了便于应用,进一步利用发酵产生的二氧化碳分析,结果显示二氧化碳较常规引诱物松木具有更显著的引诱效果。本研究将为台湾乳白蚁新型引诱剂开发提供参考,有助于提高台湾乳白蚁饵剂的防治效果。     

内生细菌B_(47)菌株的鉴定及其对番茄青枯病的防效测定

通过形态特征、生理生化特征和16SrDNA序列分析,对分离于番茄茎部能较强抑制番茄青枯病菌生长的内生细菌B47菌株进行了鉴定。结果表明,该菌为枯草芽孢杆菌,其最适生长pH5~6,最适生长温度为35℃。室内防治试验结果表明,用淋根法先接种B47菌后接种病原菌和用注射法先接种B47菌后接种病原菌的处理可取得81.25%和92.10%的防效,而用淋根法、注射法同时接种B47菌与病原菌的处理防效较低。     

Evaluation of the pathogenicity of microorganisms isolated from Egyptian broomrape (Orobanche aegyptiaca) in Israel

Diseased Egyptian broomrape ( Orobanche aegyptiaca ) inflorescences were collected from a heavily broomrape-infested tomato ( Lycopersicon esculentum ) field in Israel. The microorganisms that were isolated from the diseased inflorescences were passed through Koch's postulates on Egyptian broomrape-parasitizing tomato roots in a polyethylene bag system and pots under greenhouse conditions. The fungi, Alternaria alternata , Macrophomina phaseolina , Rhizoctonia solani , and Fusarium solani , and the bacterium, Bacillus sp., were newly isolated from the diseased inflorescences of Egyptian broomrape and were found to be pathogenic to the parasite. Fusarium solani damaged all of the developmental stages of broomrape and prevented the damage that Egyptian broomrape causes to tomato plants. The level of pathogenicity and the damage of M. phaseolina , A. alternata , and Bacillus sp. to Egyptian broomrape in greenhouse experiments were relatively low. All the tested microorganisms are known as pathogens of tomato, yet none caused disease symptoms on the tomato plants grown in the inoculated polyethylene bags or in the pots. Fusarium solani demonstrated the highest potential for further development as a mycoherbicide for Egyptian broomrape control in tomato.     

Detection and molecular characterization of viruses associated with tomato yellow leaf curl disease in cucurbit crops in Jordan

In this study, Tomato yellow leaf curl Sardinia virus (TYLCSV) and the strains Israel and Mild of Tomato yellow leaf curl virus (TYLCV-IL, TYLCV-Mld) were detected for the first time in four cucurbit crops in Jordan by nested polymerase chain reaction (nPCR). These viruses cause the tomato yellow leaf curl disease (TYLCD) in tomato. Cucumber, squash, melon and watermelon plants inoculated with TYLCV-IL[JO:Cuc], TYLCV-Mld, TYLCSV-IT[IT:Sar:88] and the Jordanian isolate of TYLCV (TYLCV-JV) did not show disease symptoms. However, virus-specific fragments were detected in uppermost leaves of symptomless plants by nPCR. A whitefly transmission test showed that Bemisia tabaci could transmit TYLCV-Mld from cucumber into tomato and jimsonweed plants. However, all infected tomato plants remained symptomless. In addition, results of semi-quantitative PCR (sqPCR) analysis showed that the relative amount of TYLCV-Mld DNA acquired by B. tabaci from cucumber plants was less than that acquired from tomato plants.     

Bacterial populations associated with rice seed in the tropical environment

ABSTRACT During the 1995 wet season, harvested rice seed was collected from farmers' fields at different locations in Iloilo, Philippines. Bacterial isolations from crushed seed yielded 428 isolates. The isolates were characterized by BOX-polymerase chain reaction fingerprinting of total genomic DNA and represented 151 fingerprint types (FPT). Most FPTs were found on a single occasion, although matching fingerprints for isolates from different samples also were found. Identifications were made by cellular fatty acid methyl ester analysis and additional use of Biolog GN/GP MicroPlates and API 20E/50CHE systems. The predominant bacteria were Enterobacteriaceae (25%), Bacillus spp. (22%), and Pseu-domonas spp. (14%). Other bacteria regularly present were identified as Xanthomonas spp., Cellulomonas flavigena, and Clavibacter michiganense. Of the total number of isolated bacteria, 4% exhibited in vitro antifungal activity against Rhizoctonia solani or Pyricularia grisea. Two percent of isolates were pathogens identified as Burkholderia glumae and Burkholderia gladioli. Five percent of isolates induced sheath necrosis on only 50 to 90% of inoculated plants and were related to Bacillus pumilus, Paenibacillus spp., Pseudomonas spp., and Pantoea spp.     

番茄细菌性髓部坏死病病原的鉴定

2015年,在广东省广州市番茄种植区发生番茄髓部坏死病,从番茄病样中分离到一种细菌。随机选取5株细菌进行致病性测定,结果显示,这5株细菌均可侵染番茄植株产生典型的髓部坏死症状,与田间病株的症状相同。5株细菌的16S rDNA序列间同源性为99.9%~100%,且与菊苣假单胞菌(Pseudomonas cichori)MAFF211996、TIs01和IP1-05菌株的16S rDNA序列同源性最高,为99%。利用菊苣假单胞菌hrcR基因的特异引物Hrp1a/Hrp2a进行PCR,从这5株细菌的DNA中均能扩增出大小约897 bp的特异片段;这些片段序列间同源性为99%~99.9%,且与P.cichori 83-1菌株hrcR基因的序列同源性为99.9%。这些结果表明,引起广东番茄髓部坏死病的病原为菊苣假单胞菌(P.cichorii)。生理生化试验显示,该病原菌与文献报道的菊苣假单胞菌的生理生化特征均相吻合,进一步证实引起广东番茄髓部坏死病的病原为菊苣假单胞菌。     

我国几种禾谷类植物上Xanthomonas campestris致病变种的研究

 从我国新疆、内蒙、西藏、北京和山东等省区的小麦、大麦、野黑麦、冰草、偃麦草和雀麦上分离到13个黑颖病菌株,在苗期、分蘖期和孕穗期,喷雾接种16属27种禾本科植物,对其中感病的6属15种植物和燕麦又做注射接种。根据各个菌株对小麦、大麦、黑麦、冰草、偃麦草和雀麦的致病性差异,初步将其划分三个致病变种:1.禾谷类致病变种[X.campestris pv.cerealis (Hagborg) Dye.]:包括7个菌株,自然条件下发生在冰草、雀麦和偃麦草上;人工接种还可侵染小麦、大麦和黑麦。2.小麦致病变种(X.campestris pv.undulosa):包括4个菌株,自然条件下发生在小麦上,人工接种可侵染大麦和黑麦,但有一个菌株注射接种能轻度侵染雀麦。3.大麦致病变种(X.campestris pv.hordei):包括2个菌株,自然条件下发生在大麦上,注射接种能轻度侵染偃麦草。13个菌株喷雾接种猫尾草、早熟禾、画眉草、马唐、狗尾草、稗草、披碱草、羊茅草和水稻、均不侵染。     

Induced Systemic Resistance and Promotion of Plant Growth by Bacillus spp

ABSTRACT Elicitation of induced systemic resistance (ISR) by plant-associated bacteria was initially demonstrated using Pseudomonas spp. and other gram-negative bacteria. Several reviews have summarized various aspects of the large volume of literature on Pseudomonas spp. as elicitors of ISR. Fewer published accounts of ISR by Bacillus spp. are available, and we review this literature for the first time. Published results are summarized showing that specific strains of the species B. amyloliquefaciens, B. subtilis, B. pasteurii, B. cereus, B. pumilus, B. mycoides, and B. sphaericus elicit significant reductions in the incidence or severity of various diseases on a diversity of hosts. Elicitation of ISR by these strains has been demonstrated in greenhouse or field trials on tomato, bell pepper, muskmelon, watermelon, sugar beet, tobacco, Arabidopsis sp., cucumber, loblolly pine, and two tropical crops (long cayenne pepper and green kuang futsoi). Protection resulting from ISR elicited by Bacillus spp. has been reported against leaf-spotting fungal and bacterial pathogens, systemic viruses, a crown-rotting fungal pathogen, root-knot nematodes, and a stem-blight fungal pathogen as well as damping-off, blue mold, and late blight diseases. Reductions in populations of three insect vectors have also been noted in the field: striped and spotted cucumber beetles that transmit cucurbit wilt disease and the silver leaf whitefly that transmits Tomato mottle virus. In most cases, Bacillus spp. that elicit ISR also elicit plant growth promotion. Studies on mechanisms indicate that elicitation of ISR by Bacillus spp. is associated with ultrastructural changes in plants during pathogen attack and with cytochemical alterations. Investigations into the signal transduction pathways of elicited plants suggest that Bacillus spp. activate some of the same pathways as Pseudomonas spp. and some additional pathways. For example, ISR elicited by several strains of Bacillus spp. is independent of salicylic acid but dependent on jasmonic acid, ethylene, and the regulatory gene NPR1-results that are in agreement with the model for ISR elicited by Pseudomonas spp. However, in other cases, ISR elicited by Bacillus spp. is dependent on salicylic acid and independent of jasmonic acid and NPR1. In addition, while ISR by Pseudomonas spp. does not lead to accumulation of the defense gene PR1 in plants, in some cases, ISR by Bacillus spp. does. Based on the strains and results summarized in this review, two products for commercial agriculture have been developed, one aimed mainly at plant growth promotion for transplanted vegetables and one, which has received registration from the U.S. Environmental Protection Agency, for disease protection on soybean.