接种番茄斑萎病毒番茄植株对西花蓟马生物学特性的影响

西花蓟马Frankliniella occidentalis(Pergande)是我国的一种重要入侵害虫。本文研究了西花蓟马在番茄3种处理(健康CK、机械接种番茄斑萎病毒MI、机械损伤MD)叶片上的生长发育、存活及种群增长。结果表明:健康、机械接种番茄斑萎病毒、机械损伤叶片上的发育历期依次为12.68、12.99和11.79d。雌雄成虫寿命和雌虫繁殖能力在各处理叶片上差异不显著(P>0.05)。健康、机械接种番茄斑萎病毒、机械损伤叶片上的内禀增长率依次为0.1362、0.1526和0.1292d-1。本研究表明,接种番茄斑萎病毒的番茄叶片未缩短西花蓟马发育历期,也不能延长寿命及提高产卵量,不能明显加速种群数量增长。这意味着番茄斑萎病毒对西花蓟马在番茄叶片上的生物学特性未能产生明显的有利作用。     

黄萎病菌胁迫下野生茄子托鲁巴姆防卫反应的生理生化分析

以野生茄子托鲁巴姆(Solanum torvum Swartz)和苏崎茄(Solanum melongena L.)为主要材料,通过比较两种茄子在大丽轮枝菌(Verticillium dahliae Kleb)侵染过程中体内的生理生化指标变化,分析托鲁巴姆对黄萎病的抗性响应机制。结果表明:(1)与苏崎茄植株相比,托鲁巴姆植株表现出很强的自我防御和自我修复能力。(2)托鲁巴姆体内存在的活性氧清除系统(如SOD、POD、CAT等酶的活性)高于苏崎茄;在侵染后,托鲁巴姆体内各种酶的活性快速增加,其幅度高于苏崎茄;MDA的变化则恰恰相反。这个结果提示,黄萎病菌胁迫可能激活了托鲁巴姆体内活性氧清除系统,从而加快了某些防御物质(如木质素和抗菌物质绿原酸等)的形成,同时减缓或降低MDA等有害物质在植株体内的积累。(3)黄萎病菌侵染后各生理指标的响应时间表现出差异。托鲁巴姆中POD、PAL的活性和可溶性蛋白含量在侵染后的12h内就迅速作出响应(POD增加、PAL和可溶性蛋白减少);而SOD、PPO、CAT的活性和MDA的含量则在处理后初始阶段(至少12h)进行了一些调整,随后才进入持续性的增加或减少阶段。由此可见,托鲁巴姆对黄萎病病菌侵染的响应具有时序性,其体内POD酶、PAL酶和可溶性蛋白首先参与植物的防卫反应以应对黄萎病的胁迫,其它酶随后参与响应,它们的共同作用形成对黄萎病菌的有效防卫。     

韭菜对香蕉枯萎病菌生长及香蕉枯萎病发生的抑制作用

结合实验室抑菌试验和大棚人工接菌盆栽试验,研究韭菜对香蕉枯萎病菌4号生理小种(Foc4)的拮抗作用及其对香蕉枯萎病发生的防控效果.结果显示:离体条件下,韭菜粗提取液显著抑制Foc4菌丝的生长,造成菌丝变形、细胞的解体;也能显著抑制孢子的萌发并导致孢子失去活性.大棚盆栽试验中,韭菜处理的巴西香蕉苗枯萎病发病率降低70%,病情指数降低86.9%;韭菜处理的广粉1号粉蕉苗枯萎病的发病率降低76.7%,病情指数降低93.4%.研究表明,韭菜对Foc4有很高拮抗效果,而且对香蕉枯萎病有很高的防控作用.     

Changes in spatial and temporal distributions of Monochamus beetles along the fire severity in burned Pinus densiflora forests

Wildfire is an important disturbance factor in forest ecosystem and could affect the distribution of insects. Because Monochamus beetles are known vector insects of pine wood nematodes in Korea and burnt pine trees can be used as oviposition habitats for Monochamus beetles, we investigated changes in the spatial (among fire severity classes) and temporal (between years) distributions of M. alternatus and M. saltuarius. From late May 2017 to early October 2018, four multi-funnel traps with pheromone lure were installed in each fire severity class (unburned, light, light-moderate edge, moderate-severe edge, and severe). All traps were replaced fortnightly from May to October for two years. The spatial distribution of the two Monochamus beetles was significantly affected by fire severity. In particular, M. alternatus showed higher catches in the severely burned sites and responded positively to the fire. A similar number of M. saltuarius individuals were observed between 2017 and 2018, while more M. alternatus were caught in 2018 compared to 2017. Consequently, it was confirmed that the dead wood of P. densiflora caused by the wildfire had a great influence on the density of insects, especially M. alternatus.     

防治苦瓜枯萎病的拮抗放线菌分离筛选及鉴定

以苦瓜枯萎病菌为靶标菌,通过对峙培养试验和发酵滤液抑菌试验对分离自苦瓜根际土壤的放线菌进行筛选。候选菌株0250具有广谱抗真菌活性,根据培养特征、生理生化特性以及与同源性相近的菌株进行平均核苷酸一致性分析,被鉴定为Streptomyces rhizosphaericus,并评估了该菌株在温室和田间对苦瓜的促生长和防治枯萎病效果。结果表明: 链霉菌菌株0250对苦瓜枯萎病菌的平板抑制率为69.2%,对17种植物病原真菌的平板抑制率达64.3%~85.6%;该菌株的菌悬液处理能促进盆栽和田间苦瓜植株根、茎生长发育,提升产量,对苦瓜枯萎病的防病效果分别为66.9%和61.5%。预先用菌株0250菌悬液处理土壤再接种病原菌,对土壤尖镰孢菌数量抑制率达62.1%,显著提高了苦瓜幼苗苯丙氨酸解氨酶、过氧化物酶和β-1,3-葡聚糖酶活性以及根系活力。总之,菌株0250是一株对苦瓜枯萎病具有巨大生防潜力的放线菌资源。     

石灰碳铵熏蒸联合生物有机肥对香蕉枯萎病和细菌群落的影响

以连续种植的香蕉枯萎病高发病蕉园为试验点,通过实时定量PCR和高通量测序等方法,研究了田间条件下石灰碳铵熏蒸联合生物有机肥施用对香蕉枯萎病的防治效果,以及对土壤细菌群落结构和组成的影响。结果表明: 与不熏蒸施用有机肥(OF)相比,香蕉枯萎病发病率在施用有机肥前使用石灰碳铵进行熏蒸处理(LAOF)和施用生物有机肥前使用石灰碳铵进行熏蒸处理(LABF)中分别降低了13.3%和21.7%,病原菌的拷贝数分别降低了22.4%和33.0%。与OF处理相比,石灰碳铵熏蒸联合不同肥料施用均显著降低了细菌的丰富度和多样性,形成了明显不同的群落结构,且熏蒸对群落组成的差异产生了决定性的影响。LABF的细菌丰富度和多样性均低于其他处理,群落组成也与其他处理存在明显差异。与OF处理相比,熏蒸处理(LAOF和LABF)显著增加了土壤中水恒杆菌、布鲁式菌和漯河杆菌属的相对丰度,且在LABF中的相对丰度均高于LAOF,水恒杆菌和布鲁式菌的相对丰度差异显著。在田间条件下,施用生物有机肥之前使用石灰碳铵进行熏蒸处理能够显著降低病原菌数量,改变土壤细菌群落结构,激发土壤有益微生物,从而减少香蕉枯萎病的发生。     

Chitosan‐triggered immunity to Fusarium in chickpea is associated with changes in the plant extracellular matrix architecture,stomatal closure and remodeling of the plant metabolome and proteome

Pathogen‐/microbe‐associated molecular patterns (PAMPs/MAMPs) initiate complex defense responses by reorganizing the biomolecular dynamics of the host cellular machinery. The extracellular matrix (ECM) acts as a physical scaffold that prevents recognition and entry of phytopathogens, while guard cells perceive and integrate signals metabolically. Although chitosan is a known MAMP implicated in plant defense, the precise mechanism of chitosan‐triggered immunity (CTI) remains unknown. Here, we show how chitosan imparts immunity against fungal disease. Morpho‐histological examination revealed stomatal closure accompanied by reductions in stomatal conductance and transpiration rate as early responses in chitosan‐treated seedlings upon vascular fusariosis. Electron microscopy and Raman spectroscopy showed ECM fortification leading to oligosaccharide signaling, as documented by increased galactose, pectin and associated secondary metabolites. Multiomics approach using quantitative ECM proteomics and metabolomics identified 325 chitosan‐triggered immune‐responsive proteins (CTIRPs), notably novel ECM structural proteins, LYM2 and receptor‐like kinases, and 65 chitosan‐triggered immune‐responsive metabolites (CTIRMs), including sugars, sugar alcohols, fatty alcohols, organic and amino acids. Identified proteins and metabolites are linked to reactive oxygen species (ROS) production, stomatal movement, root nodule development and root architecture coupled with oligosaccharide signaling that leads to Fusarium resistance. The cumulative data demonstrate that ROS, NO and eATP govern CTI, in addition to induction of PR proteins, CAZymes and PAL activities, besides accumulation of phenolic compounds downstream of CTI. The immune‐related correlation network identified functional hubs in the CTI pathway. Altogether, these shifts led to the discovery of chitosan‐responsive networks that cause significant ECM and guard cell remodeling, and translate ECM cues into cell fate decisions during fusariosis.     

福建龙岩新罗区松墨天牛成虫活动规律初步研究

利用福建农林大学研发的APF-Ⅰ型松墨天牛持久型诱芯和专用配套ZM-808型诱捕器诱捕松墨天牛成虫,摸清其在福建龙岩市新罗区的活动规律,为松材线虫病的防控提供依据。结果表明,新罗区松墨天牛成虫在3月下旬开始活动,为活动初期;活动盛期在5月中旬至7月中旬;7月下旬至11月上旬为活动末期;11月中旬至翌年3月上旬无松墨天牛成虫活动。5个诱捕器全年共收集松墨天牛成虫824头,其中雌虫701头,雄虫123头,雌雄比为1:0.18,收集到的松墨天牛成虫雌虫数量多于雄虫数量。根据松墨天牛成虫的活动规律,在松材线虫病防控工作中,松墨天牛诱捕器诱杀应在3月下旬至10月中下旬进行;每年3月底前应将不明原因枯死松树清理干净,同时加强林间松墨天牛成虫防治工作,杜绝传播隐患。     

Advantage of using PSIRB over PSRB and IRB to improve plant health of tomato

Twenty-one isolates of phosphate solubilizing-indole acetic acid producing rhizobacteria (PSIRB), 20 isolates of phosphate solubilizing rhizobacteria (PSRB) and 42 isolates of indole acetic acid producing rhizobacteria (IRB) were isolated from 49 rhizospheric soil samples of tomato (Lycopersicon esculentum Mill.) collected from tomato growing regions of Karnataka. A method combining Pikovskaya’s and Bric’s technique was developed to isolate PSRIB, PSRB and IRB’s. The selected isolates were further analyzed for their ability to solubilize calcium phytate. Based on the root colonization assays and the abilities of bacterial isolates to increase the seed germination and seedling vigor under laboratory conditions, five isolates were selected from each group for further studies. Under greenhouse conditions, all the selected rhizobacteria isolates significantly increased root length, shoot length, fresh weight, dry weight and total phosphorus content of 30-day-old-seedlings with respect to control. Isolate PSIRB1 and IRB36 significantly reduced the Fusarium wilt incidence over other isolates of same and other group, and the control. On the basis of results from laboratory and greenhouse studies, one bacterial isolate from each group was selected for plant growth and yield analysis studies. Isolate PSIRB2 showed increased plant height, fresh weight, number of fruits per plant and average weight of fruit over PSRB9, IRB36 and untreated controls. Studies on the nature of protection offered by these bacterial isolates following split-root technique revealed that the isolates PSIRB2 and PSRB9 had the ability to induce systemic resistance. One isolate, IRB36 appeared to protect the tomato seedlings through direct antagonism.