水稻细菌性条斑病原菌的快速诊断

水稻细菌性条斑病是热带,亚热带地区水稻的一种严重病害。发病品种主要是籼稻,尤其是籼型杂交稻为高。我国条斑病发生面积呈扩大趋势,并能通过种子带菌传播,已被列为检疫对象。利用富含A蛋白的金黄色葡萄球菌与水稻条斑菌的抗血清结合,同待检样品进行协同凝集反应(coagglutination),即能迅速准确地进行早期诊断。在实验室及田间对该方法的特异性准确性进行了研究,并对青枯、白叶枯等的交叉及白叶枯的血清分型也进行了研究。     

湖南省平江县水稻根结线虫病发生及危害评价

【目的】进一步明确湖南省平江县水稻根结线虫病发生危害情况、病原线虫种类及影响水稻发病的因素。【方法】2020年4—6月,采用5点取样法对湖南省平江县24个乡镇400块田块的水稻根结线虫病发生危害情况进行再调查及病原种类鉴定,并对水稻根结线虫病的病情指数与水稻的栽培方式、土壤类型之间的关系进行了分析。【结果】平江县水稻根结线虫病的发生较为普遍,发现病害的乡镇已由2018年的5个增加到2020年的15个,其中15个乡镇的病田率为10%～100%,病株率为2%～55%,根结指数为0.4～15.4。分离获得的病原线虫种类均为拟禾本科根结线虫。调查还发现,发病水稻在砂壤、中壤、重壤稻田的根结指数明显高于在黏土和轻壤稻田的根结指数,直播、抛秧栽培方式下发病水稻的根结指数明显高于移栽方式下的根结指数。【结论】平江县水稻根结线虫病呈蔓延趋势。本研究为有效防控平江县水稻根结线虫病提供了依据。     

水稻种植的主要抗病技术及其应用研究

我国人口众多,粮食生产问题显得十分重要,水稻在我国粮食生产中占有重要地位。水稻种植中的病害问题严重的影响到水稻的产量,加强水稻的抗病技术的研究和创新,不断提高水稻产量,对于保障粮食安全具有重要意义。     

水稻细菌性穗枯病的病原特性和抗性研究进展

水稻(Oryza sativa)细菌性穗枯病是世界性的重要病害之一, 严重威胁全球范围水稻的高产稳产。虽然该病目前仍被列为我国的检疫性病害, 但近几年的研究表明, 穗枯病随时有在内地蔓延的潜在危险, 因此除了加强检疫工作, 开展针对性的防控技术研发也十分必要。水稻细菌性穗枯病菌在侵染过程中涉及多种毒力因子, 同时, 水稻在与病原菌的长期互作过程中演化出了多种防卫机制, 抗性基因是主要的防卫机制之一。挖掘水稻基因组中抗细菌性穗枯病遗传位点并培育抗病品种是最安全且经济有效的防治途径。该文综述了水稻细菌性穗枯病的病原菌特性、发病特征、发病机制、病害循环和对水稻细菌性穗枯病的抗性研究现状, 以期为挖掘和分离水稻穗枯病抗性位点提供参考。     

细胞和分子技术在甘薯茎线虫病抗病育种中的应用

甘薯茎线虫病是我国北方甘薯薯区的重要病害之一。为进一步研究甘薯茎线虫病育种中线虫和甘薯的抗感关系,利用细胞培养技术建立发根农杆菌转化甘薯发根,用该发根培养马铃薯腐烂线虫,构建植物寄生线虫培养和抗性鉴定的技术平台;用聚合酶链式反应(polymerase chain reaction,PCR)分子标记技术筛选甘薯茎线虫病抗感品种的分子标记,并对发根培养马铃薯腐烂线虫体系和分子标记辅助选择抗甘薯茎线虫病品种技术进行了展望。     

云南30个水稻品种对水稻白叶枯病的抗性评价

【目的】水稻白叶枯病是一种严重危害水稻的细菌性病害,培育抗性品种是治理该病害的重要途径。因此,明确云南水稻材料对检疫性病害水稻白叶枯病的抗性,可以为该病害的防治与监测、水稻栽培的合理布局和良好抗性资源的获取提供依据。【方法】采用剪叶接种法测定云南稻区30个品种对7个不同致病型白叶枯病菌的抗性。【结果】在供试的30个云南水稻品种中,2个品种(玉粳16和JS42糯稻)对7个不同致病型菌株均表现为抗性;15个品种对7个致病型菌株均表现感病;对HEN11、SCYC-6、YN7、YN11、FUJ、YN241和PX099等7个致病型菌株表现抗性的水稻品种分别占26.67%、16.67%、23.33%、13.33%、6.67%、10.00%和20.00%。此外,区试材料的抗性比例高于主栽品种,地方稻未发现抗性品种。【结论】现在生产上的大部分水稻品种对优势致病型病原菌入侵的抵抗能力降低甚至丧失。针对云南地区的优势致病小种FUJ筛选得到2个抗性品种:玉粳16和JS42糯稻。     

甘薯抗线虫病的遗传育种研究

甘薯线虫病是危害甘薯的主要病害,危害甘薯的线虫种类主要是根结线虫和茎线虫.甘薯生产上主要采用综合防治方法进行防治,其中选育抗病品种最为经济有效.本文综述了根结线虫和茎线虫病的抗源筛选、抗性机制、抗性的遗传和抗病育种等方面的研究进展,并展望了甘薯抗线虫病育种.     

水稻矮缩病毒昆明分离物抗血清制备及免疫捕捉PCR检测

由水稻矮缩病毒(Rice dwarf viru S,RDV)引起的水稻矮缩病害,最早由日本报道,随后在东南亚等国以及我国的福建、云南等南方稻区普遍发生,云南主要发生于中部及南部地区[1].水稻在苗期至分蘖期感病后,植株矮缩,分蘖增多,叶片浓绿,僵直,出现白斑,生长后期病稻不能抽穗结实,在暴发流行年份可以引起水稻的严重减产.     

水稻品种条纹叶枯病抗性的研究进展

水稻条纹叶枯病是当前粳稻主产区危害最严重的病害之一,而品种抗病性的利用则被公认为是病害综合防治的根本策略.本文从抗性鉴定方法、抗性资源筛选和发掘、抗性遗传规律及抗病基因定位和抗性品种选育与抗性转基因工程4个方面,对水稻品种条纹叶枯病抗性的研究进展进行了简要综述,以期为水稻抗条纹叶枯病的育种提供参考.同时对水稻品种条纹叶枯病抗性研究的现存问题与今后的研究方向进行了讨论.     

水稻干尖线虫病

水稻干尖线虫病(Aphelenchoides oryzac)是水稻上的一种重要病害,1940年由日本传入我国。不少地区受害较重,影响产量较大,已引起各方面的重视。 怎样识别和检验水稻干尖线虫病 水稻干尖线虫病以幼虫和成虫潜伏在谷粒的颖壳和米粒之间越冬,在土壤或水中不能长期存活,因此主要靠种子传播。带虫种子在浸种催芽时,线虫即开始活动,在秧田里,线虫就侵入幼苗,潜存在基部叶鞘内,以吻针刺吸组织汁液,进行外寄生生活。以后随着水稻的生长,线虫逐渐向上部移动,在形成幼穗时侵入穗部,在茸毛间大量集结。最后侵入颖壳内部,在颖壳和米粒间越冬(图1)。     

Vector competence of Ixodes angustus (Acari: Ixodidae) for Borrelia burgdorferi sensu stricto

The vector competence of Ixodes angustus for Borrelia burgdorferi sensu stricto (s.s.) was investigated in the laboratory. The larval progeny of female ticks from Washington State were placed on Swiss-Webster mice that had been inoculated intravenously with 10⁸ spirochetes each of a Californian isolate of B. burgdorferi. Spirochetes were detected in 6 (12%) of 50 nymphs derived from larvae that had fed on these animals. Ten nymphs from the same cohort of experimentally infected ticks were placed on each of 4 naive deer mice (Peromyscus maniculatus). One of the mice seroconverted to B. burgdorferi and spirochetes were isolated from its ear tissues 4 weeks after exposure to ticks. Further vector competence trials were conducted with I. angustus ticks from California. Larvae were fed on deer mice that had been inoculated intradermally with B. burgdorferi along with larvae of I. spinipalpis as a comparison group. There was no significant difference in the prevalence of infection in nymphs of I. angustus (8.2%) versus those of I. spinipalpis (12.1%). We conclude that I. angustus is a competent experimental vector of B. burgdorferi s.s. and its efficiency for acquiring and transstadially passing such spirochetes is similar to that of I. spinipalpis.     

Identification and fine mapping of <Emphasis Type="Italic">Pi33</Emphasis>, the rice resistance gene corresponding to the Magnaporthe grisea avirulence gene <Emphasis Type="Italic">ACE1</Emphasis>

Rice blast disease is a major constraint for rice breeding. Nevertheless, the genetic basis of resistance remains poorly understood for most rice varieties, and new resistance genes remain to be identified. We identified the resistance gene corresponding to the cloned avirulence gene ACE1 using pairs of isogenic strains of Magnaporthe grisea differing only by their ACE1 allele. This resistance gene was mapped on the short arm of rice chromosome 8 using progenies from the crosses IR64 (resistant) × Azucena (susceptible) and Azucena × Bala (resistant). The isogenic strains also permitted the detection of this resistance gene in several rice varieties, including the differential isogenic line C101LAC. Allelism tests permitted us to distinguish this gene from two other resistance genes [Pi11 and Pi-29(t)] that are present on the short arm of chromosome 8. Segregation analysis in F₂ populations was in agreement with the existence of a single dominant gene, designated as Pi33. Finally, Pi33 was finely mapped between two molecular markers of the rice genetic map that are separated by a distance of 1.6 cM. Detection of Pi33 in different semi-dwarf indica varieties indicated that this gene could originate from either one or a few varieties.Communicated by D.J. Mackill     

Biological control of rice bacterial blight by Lysobacter antibioticus strain 13-1

Bacterial leaf blight (BB) is a worldwide destructive rice disease caused by pathogen Xanthomonas oryzae pv. oryzae (Xoo). A novel strain of Lysobacter antibioticus, which was isolated from the rhizosphere of rice in Yunnan Province of China, can significantly inhibit the growth of various phytopathogenic bacteria and fungi, especially BB pathogen Xoo. In greenhouse experiments, whole bacterial broth culture (WBC) of strain 13-1 was more effective in reducing BB than other components of the culture, with disease suppression efficiency up to 69.7%. However, bacterial cells re-suspended in water, cell-free culture extracts, and heated cultures also significantly reduced BB severity. Suppression efficiencies ranged from 79.0% to 61.8% for undiluted to 100-fold dilution treatments and from 57.6% to 31.7% when the WBC of strain 13-1 (10⁸ CFU/mL) was applied at 3 days and 7 days prior to pathogen inoculation, respectively. In three field trials, strain 13-1 reduced BB incidence by 73.5%, 78.3%, and 59.1%, respectively. Disease suppression by strain 13-1 varied significantly among different rice cultivars, although efficacy was not directly related to the susceptibility level of the cultivars. Efficacy of biocontrol was also affected by different pathogen isolates, with some isolates of Xoo being more sensitive to 13-1 suppression than others. These results suggest that antibiotics and density of colonization on leaves may be involved for biological control of rice BB by strain 13-1. To our knowledge, this is the first report of L. antibioticus being a potential biocontrol agent for rice bacterial blight.     

Transgenic indica Rice Expressing ns-LTP-Like Protein Shows Enhanced Resistance to Both Fungal and Bacterial Pathogens

Antimicrobial peptides (AMPs) from plant seeds, known to inhibit pathogen growth have a great potential in developing transgenic plants resistant to disease. Some of the nonspecific-lipid transfer proteins (ns-LTP) that facilitate in vitro transport of lipids, show antimicrobial activity in vitro. Rice seeds also contain ns-LTPs; however, these genes are expressed weakly in seedlings. We have transformed Pusa Basmati 1, an elite indica rice cultivar, with the gene for Ace-AMP1 from Allium cepa, coding for an effective antimicrobial protein homologous to ns-LTPs. The gene for Ace-AMP1 was cloned under an inducible rice phenylalanine ammonia-lyase (PAL) or a constitutive maize ubiquitin (UbI) promoter. Ace-AMP1 was expressed in transgenic lines and secreted in the apoplastic space. Protein extracts from leaves of transgenic plants inhibited three major rice pathogens, Magnaporthe grisea, Rhizoctonia solani and Xanthomonas oryzae, in vitro. Enhanced resistance against these pathogens was observed in in planta assays, and the degree of resistance correlating with the levels of Ace-AMP1 with an average increase in resistance to blast, sheath blight, and bacterial leaf blight disease by 86%, 67%, and 82%, respectively. Importantly, transgenic rice plants, with stable integration and expression of Ace-AMP1, retained their agronomic characteristics while displaying enhanced resistance to both fungal and bacterial pathogens.     

中国单胞锈菌属新资料

本文报告我国单胞锈菌属3个新记录,即寄生在旋叶香青Anaphalis contorts Hook.f.上的美丽单胞锈菌Uromyces amoenus Syd.,寄生在亮叶茉莉Jasminum seguinii Levl.上的霍布森单胞锈菌Uromyces hobsoni Vine及寄生在乳浆大戟Euphorbia esula L.上的细纹单胞锈菌Uromyces striatellus Tranz..标本保藏在中国科学院微生物研究所真菌标本室。     

福建省直播稻根结线虫病的病原种类鉴定

[目的] 福建省福清市江镜镇与福安市潭溪镇水稻区直播稻苗期分别发生严重的根结线虫病,本研究对其病原物进行形态和分子鉴定,明确病原物种类,以期为福建省直播稻根结线虫病害防控提供理论依据。[方法] 通过根结线虫各虫态形态学特征进行观测;同时对其rDNA-ITS区进行测序,通过贝叶斯法与最大似然法构建了系统发育树来确定种类;利用拟禾本科根结线虫特异性引物Mg-F/Mg-R检测种群。[结果] 根结线虫的雌虫、雄虫和2龄幼虫的形态学特征与拟禾本科根结线虫原始描述种一致;rDNA-ITS区序列长度为576 bp,与GenBank拟禾本科根结线虫种群相似度均达99%以上;系统发育树明确了该根结线虫与拟禾本科根结线虫处于同一分支;特异性引物Mg-F/Mg-R检测进一步明确病原为拟禾本科根结线虫单一种群。[结论] 本研究通过形态与分子特征,明确了在福建直播稻上发现的根结线虫为拟禾本科根结线虫。拟禾本科根结线虫在福建省最早于2011年在政和县小范围水稻田发现,此后未在其他水稻种植区发现。本次在福建直播稻上首次发现大面积的根结线虫为害。随着直播稻的种植面积扩大,拟禾本根结线虫引起的水稻病害可能会成为制约其发展的新问题,应引起足够重视。     

贝莱斯芽孢杆菌Bv-303对水稻白叶枯病菌的拮抗活性及其应用

本研究明确了一株新型贝莱斯芽孢杆菌(Bacillus velezensis) Bv-303菌株对黄单胞杆菌水稻致病变种(Xanthomonas oryzae pv. oryzae,Xoo)的拮抗活性及其对水稻白叶枯病(bacterial-blight,BB)的生物防治效果。采用牛津杯法测定了菌株Bv-303发酵上清液(cell-free supernatant, CFS)对白叶枯病菌体外拮抗的活性及其稳定性;通过对接种白叶枯病菌的水稻叶片进行喷雾处理,在水稻体内测试了该菌株发酵液(cell-culture broth,CCB)、发酵上清液及菌悬液(cell-suspension water,CSW)对白叶枯病菌的抑制效果;并统计了该菌株对水稻种子发芽率与幼苗生长的影响。结果表明,在体外,菌株Bv-303发酵上清液对白叶枯病菌的生长抑制率可达85.7%–88.0%,对热、酸、碱、紫外线等具有较好的稳定性;在水稻叶片上,喷施该菌株的发酵液、发酵上清液及菌悬液均能提高植株对白叶枯病的抗性,其中发酵液的效果最佳,抗病性提高率高达62.7%;且发酵液对水稻种子萌发和幼苗生长均没有副作用。因此,菌...     

中国毛茛科翠雀属的分类学研究(十一): 巴唐翠雀花二新异名

毛茛科巴塘翠雀花（Delphinium batangense Finet & Gagnep.）是我国四川西部和云南西北部一种较广布的高山植物,形态变异颇大。标本室和野外观察表明白缘翠雀花（D.chenii W.T.Wang）和雅江翠雀花（D.yajiangense W.T.Wang）在形态上处于该种的变异范围之内,故将二者均处理为巴塘翠雀花的异名。     

Intraspecific Variation in Chemical Attraction of Rice to Insect Predators

The olfactory response of predators of the brown planthopper,Nilaparvata lugensStål, to different genotypes of rice (14 cultivars and breeding lines ofOryza sativaL. and 1 wild species,Oryza nivaraSharma et Shastry) was measured in an airflow olfactometer. Odor from rice plants attracted more females of the mirid predatorCyrtorhinus lividipennisReuter than plain air (control) on only 6 of the 15 rice genotypes. Orientation ofC. lividipennistoward volatiles of certain rice genotypes was apparent even when the plants were free of the brown planthopper. However, the predator distinguished between prey-infested and uninfested plants and preferred plants with eggs over plants with nymphs. The predator did not distinguish different stages of plant growth (vegetative, booting, or flowering). Plants artificially injured to simulate brown planthopper oviposition wounds were not as attractive to the predator as plants on which the planthopper had oviposited. The preassay preconditioning on the cultivar TN1 did not produce a predator bias for this genotype. This suggests that rearing effects or chemically mediated associative learning reported for some natural enemies did not influenceC. lividipennis'host response. Results with another predator, the coccinellidMicraspis hirashimaiSasaji, produced less consistent behavior. Planthopper-infested plants attracted more females ofM. hirashimaithan unifested plants in only 1 of the 12 rice genotypes evaluated. Implications for augmenting predators by rice cultivar selection and modification are discussed.