水稻挥发物在调控害虫中的作用及其应用前景

植物挥发物作为生态系统中各生物间信息传递的载体在影响生物进化及生物群落组成中发挥着重要作用。剖析植物挥发物的主要化学组分及其生态学功能,不仅能从一个侧面揭示生物间的协同进化,而且可为害虫的可持续治理提供有效的绿色防控技术。为此,本文围绕水稻挥发物主要组分与合成途径、虫害诱导水稻挥发物合成的调控机理、水稻挥发物的生态学功能及应用前景等方面,对国内外的最新研究成果进行综述,提出了今后的研究方向,并推动水稻挥发物在害虫防控中的应用。     

虫害诱导的植物挥发物:植物与植食性昆虫及其天敌相互作用的进化产物

综述了植物、植食性昆虫及其天敌相互作用的进化过程。虫害诱导的植物挥发物的特征和功能是植物-植食性昆虫-天敌之间长期进化的结果。在植物、植食性昆虫与天敌相互作用的进化过程中,3个不同营养级,包括植物、植食性昆虫和天敌有着各自的调节和利用虫害诱导的植物挥发物的策略。但有一些问题,如通过实验研究得出的诱导防御在田间是否真正能起到保护作用等需进一步研究、阐明。     

虫害诱导的植物挥发性次生物质及其对寄生蜂的招引作用

在植物-植食性昆虫-寄生蜂三级营养系统中,虫害诱导的植物挥发性次生物质是当前害虫生物防治、化学生态学和昆虫行为学研究的热点之一.本文概述了虫害诱导的植物挥发性次生物质的特性及其对寄生蜂的招引作用,可望为害虫生物防治研究提供参考.     

973项目“重大农业害虫猖獗危害的机制及可持续控制的基础研究”简介

2006年9月,国家重点基础研究发展计划(973)农业领域2006年度项目“重大农业害虫猖獗危害的机制及可持续控制的基础研究”经科技部批准正式立项启动。该项目以全系统管理思想为指导,在基因、个体、种群、生态系统等不同层次,阐明我国重大农业害虫种群分化与暴发的分子基础,解析害虫与寄主作物及天敌间的相互作用机制,建立害虫监测与预警系统,提出重大农业害虫可持续控制的新途径和新方法,为我国农业减灾、经济的可持续发展奠定科学基础。项目的主要研究内容包括:害虫生长发育与生殖调控的分子机制;害虫对环境胁迫的适应机制;杀虫药剂诱导害虫再猖獗的机制;害虫与寄主植物的协同进化;天敌与害虫的互作及控害机制;作物-害虫-天敌食物网关系及其调控机理;重大害虫区域性暴发监测与预警。项目的总体目标为:阐明害虫生长发育、种群分化的分子基础,揭示害虫种群调节的内在机制;解析作物、害虫及天敌间的互作机制,丰富和发展植物-害虫-天敌协同进化理论;阐明主要害虫区域性灾变机理,发展害虫预警新技术;发展与环境相容的、增强自然控害功能的新技术,提出重大农业害虫可持续控制的新途径和新方法;凝炼一支害虫控制基础研究的创新团队,丰富和发展我国害虫管理的科学理论与实践,提升我国有害生物防控的原始创新和集成创新能力,扩大国际影响。     

麦类作物与蚜虫互作生化机制研究进展

植物与昆虫相互作用一直是昆虫进化和生态学研究的热点,了解这种互作关系有利于进一步探索植物-昆虫的协调进化以及有效地管理农业生态系统中的害虫。本文简要地概述了麦类作物主要防御性次生化合物对蚜虫的防御作用,麦类作物体内防御酶与其抗蚜性关系,以及蚜虫对植物防御的反应等方面最新研究进展,并提出深入研究麦类作物与蚜虫互作生化机制的意义和前景。     

寄主植物一蚜虫-天敌三重营养关系的化学生态学研究进展

综述了寄主植物-蚜虫-天敌三重营养关系的化学生态学研究.重点阐述了3个研究热点①植物挥发性物质在蚜虫及其天敌选择奇主行为过程中的作用;②蚜虫信息素和蜜露对蚜虫天敌寄主选择行为的影响;③植物挥发性物质对蚜虫信息素作用的影响.对寄主植物-蚜虫-天敌三重营养关系的全面了解,将为蚜虫的综合治理提供新思维.     

二十一世纪以来棉花害虫治理成就与展望

本文对21世纪以来的20年间我国棉花害虫治理研究进展进行了回顾,从Bt棉花害虫种群地位演替、靶标害虫对Bt棉花抗性演化、棉花-害虫-天敌化学通讯三个方面总结了棉花害虫生物学与生态学研究进展,从预测预报、棉花抗虫性利用、生态调控、理化诱控、生物防治、化学防治等方面梳理棉花害虫防控关键技术研发概况,以棉铃虫、盲蝽两大主要害虫为例介绍了棉花害虫绿色防控技术体系创新应用。最后,从我国棉花产业发展现状出发,对今后一段时间我国棉花害虫防控研究与实践进行了展望。     

虫害诱导植物间接防御反应的激发与信号转导途径

植物通过产生和释放挥发性物质增加植食性昆虫的天敌对其寄主或猎物的定位,减少植食性昆虫对植物的取食,从而达到间接防御的目的。植物对植食性昆虫所做出间接防御反应激发因子和信号转导途径的研究,对应用虫害诱导植物挥发物引诱害虫天敌,并进一步从植物、植食性昆虫及其天敌间三级营养关系,研究动植物协同进化机理和病虫害防治具有深远意义。本文根据国内外最新研究进展,对虫害诱导植物间接防御反应的激发因子,昆虫取食信号的转导途径及对植物间接防御相关基因的激活等方面进行了系统地综述。     

寄主植物-甜菜夜蛾-寄生蜂三级营养关系的研究进展

综述了近年来甜菜夜蛾Spodoptera exigua (Hübner)、寄主植物和寄生蜂互作关系方面的研究进展。介绍了甜菜夜蛾取食诱导的植物抗虫性产生的原因和机制;阐述了诱导植物产生抗性的甜菜夜蛾激发子volicitin的合成途径和功能,以及虫害诱导的植物挥发物和蛋白酶抑制剂对甜菜夜蛾及其寄生蜂的生态学功能;展望了植物诱导抗虫性在甜菜夜蛾的生物防治和新型抗虫品种开发等领域的应用前景。     

天敌昆虫控害机制与可持续利用

天敌昆虫是自然生态系统内抑制害虫种群的重要因子,利用天敌昆虫控制农业害虫是安全有效的害虫控制策略,也是未来害虫管理发展的方向.本文在系统总结国内外研究进展的基础上,提出害虫治理要从“被动应急控制”转变为内部助增的“主动促进自然调控”的新理念,创新多种天敌昆虫协同控制多种害虫的“网式协同调控”新途径,建立一个自我维持并可有效降低害虫种群水平的农业生态系统.未来的研究应针对“天敌昆虫调控害虫的内在机制”与“天敌昆虫在农业生态系统中持续发挥作用的生态学基础”等关键科学问题,从基因、个体、种群、群落和生态系统不同层次,重点开展:1)天敌昆虫寄生和捕食害虫的行为与适应机制;2)天敌昆虫大量繁育的营养与生殖生理基础;3)寄生性天敌昆虫与寄主互作的免疫机制;4)天敌昆虫协同控害的生态学机制;5)天敌昆虫可持续利用的生物防治新模式等方面的研究.     

中国昆虫学发展透视

2006—2010年5年来,我国昆虫学工作者获得了国家自然科学基金736项、国家科技支撑计划2项19个课题,公益性行业科研专项34项,"973"项目6项;共发表与昆虫有关的学术论文13772篇,其中SCI收录论文2625篇,Science6篇,Nature1篇,PNAS6篇,Annual Review of Entomology1篇,Nature Bioteachnology4篇;获得了国家科技进步奖二等奖13项。本文分析了2006—2010年我国昆虫学研究项目、研究成果在不同昆虫学分支学科和不同研究区域的分布特征,透视了我们昆虫学研究前沿,旨在为制定我国昆虫学未来发展战略提供基础信息。     

Study of tauopathies by comparing <Emphasis Type="Italic">Drosophila</Emphasis> and human <Emphasis Type="Italic">tau</Emphasis> in <Emphasis Type="Italic">Drosophila</Emphasis>

The microtubule-binding protein tau has been investigated for its contribution to various neurodegenerative disorders. However, the findings from transgenic studies, using the same tau transgene, vary widely among different laboratories. Here, we have investigated the potential mechanisms underlying tauopathies by comparing Drosophila (d-tau) and human (h-tau) tau in a Drosophila model. Overexpression of a single copy of either tau isoform in the retina results in a similar rough eye phenotype. However, co-expression of Par-1 with d-tau leads to lethality, whereas co-expression of Par-1 with h-tau has little effect on the rough eye phenotype. We have found analogous results by comparing larval proteomes. Through genetic screening and proteomic analysis, we have identified some important potential modifiers and tau-associated proteins. These results suggest that the two tau genes differ significantly. This comparison between species-specific isoforms may help to clarify whether the homologous tau genes are conserved. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. This study was supported by the National Science Foundation of China (30270341; 30630028), the Multidisciplinary Program (Brain and Mind) of the Chinese Academy of Sciences, the Major State Basic Research Program (“973 program”; G2000077800; G2006CB806600; 2006CB911003), the Precedent Project of Important Intersectional Disciplines in the Knowledge Innovation Engineering of the Chinese Academy of Sciences (KJCX1-09-03).     

Seasonal changes in arthropod diversity patterns along an Alpine elevation gradient

1. Deciphering patterns in species distributions and species interactions along ecological gradients are fundamental topics in ecology. Theory holds that species diversity is greater and interactions are stronger under warmer and more stable environments, such as low elevations and latitudes. However, recent findings have shown conflicting evidence, potentially due to seasonal effects.
2. We aimed to address this gap by studying seasonal changes in arthropod communities over an elevation gradient in the Swiss Alps, as well as herbivore-predator interactions and their resulting consequences on plant herbivory levels.
3. Overall, we found hump-shaped patterns in arthropod abundance, richness and diversity with increasing elevation, with all factors peaking below the tree line. However, these patterns varied seasonally, with strong mid-elevation peaks at the beginning of the summer, shifting to a pattern of linear decrease at the beginning of the fall. In searching for mechanisms explaining these changes, we found that shifts in arthropod communities over elevation and seasons usually followed shifts in vegetation productivity estimates. Other factors, such as top-down control by natural enemies, which was generally stronger at low elevations, and plant species-specific resistance rates along elevation gradients were also implicated as drivers of diversity and herbivory rates.
4. These results highlight the complexity of arthropod communities' responses to environmental gradients, which vary during the season in response to relative changes in both bottom-up and top-down forces.

     

我国烟粉虱主要捕食和寄生性天敌控制能力研究进展

烟粉虱Bemisia tabaci Gennadius是一种广泛分布于世界各地的多食性害虫,对我国多个省市区的农作物和观赏植物造成了严重的危害。化学杀虫剂的大量使用在杀伤天敌的同时使烟粉虱产生了不同程度的抗性,防治越来越困难;相较于化学防治,在不同地区筛选有效的天敌对烟粉虱进行生物防治是对烟粉虱进行有效控制的重要方法。我国报道的捕食性天敌共计26科109种,寄生性天敌共计2科59种。烟粉虱防治过程中由于单一的防治效果不理想,联合多个天敌资源的利用是增加对烟粉虱的生物防治效果的重要手段。本文通过对我国烟粉虱捕食性和寄生性天敌种类系统全面的整理,同时对烟粉虱优势种天敌中的单种或者多种组合利用后对烟粉虱的的控害潜能进行综述,以期为烟粉虱天敌昆虫种类的筛选和实现高效的生物防治提供科学依据。     

How aphid alarm pheromone can control aphids: a review

Aphids are the major pests of arable crops, mostly in temperate regions. They are monophagous as well as polyphagous. They inflict damage in brassica, potato, cotton, vegetable and fruit crops. They damage their host plant directly by feeding upon their phloem sap, or indirectly by transmitting pathogens to them. Their life cycle can be autoecious as well as heteroecious. Aphids use semiochemicals for various purposes, in gathering information from their environment and for communication among themselves. They protect themselves from predators and parasitoids by escape response which is arbitrated by use of alarm pheromone signalling. When alarm pheromone, (E)-ß-farnesene, is released, nearby aphids exhibit a variety of behaviours like moving away, running, dropping off the plant and even attacking the predator. Previous studies of integrated pest management strategies have been aimed at the usage of alarm pheromone. However, scientists require complete knowledge of aphid ecology as well as aphid interaction with its natural enemies to establish efficient and viable biological control. This review presents analysis of the existing aphid pest management methodologies and effectiveness of alarm pheromone on aphids and their natural enemies.     

菜豆田两种潜叶蝇和主要天敌生态位研究

从生态位研究角度出发 ,采用 Hurlbert( 1978)生态位重叠和 L evins( 1968)生态位宽度指标 ,对严重危害菜豆的两种潜叶蝇 :美洲斑潜蝇 L iriomyza sativae Blanchard和豌豆潜叶蝇 Phytomyza atricor-nis Meig与主要天敌在时间和空间维度上的生态位重叠和生态位宽度作了定量分析。评价了天敌对猎物的时间及空间跟随作用和控制效果。研究表明 :寄生蜂、蜘蛛、龟纹瓢虫、异色瓢虫对豌豆潜叶蝇有较强的跟随作用和控制效果     

Website for avian flu information and bioinformatics

Highly pathogenic influenza A virus H5N1 has spread out worldwide and raised the public concerns. This increased the output of influenza virus sequence data as well as the research publication and other reports. In order to fight against H5N1 avian flu in a comprehensive way, we designed and started to set up the Website for Avian Flu Information () from 2004. Other than the influenza virus database available, the website is aiming to integrate diversified information for both researchers and the public. From 2004 to 2009, we collected information from all aspects, i.e. reports of outbreaks, scientific publications and editorials, policies for prevention, medicines and vaccines, clinic and diagnosis. Except for publications, all information is in Chinese. Till April 15, 2009, the cumulative news entries had been over 2000 and research papers were approaching 5000. By using the curated data from Influenza Virus Resource, we have set up an influenza virus sequence database and a bioinformatic platform, providing the basic functions for the sequence analysis of influenza virus. We will focus on the collection of experimental data and results as well as the integration of the data from the geological information system and avian influenza epidemiology. Contributed equally to this work Special Project of Informatization of Chinese Academy of Sciences in “the Eleventh Five-Year Plan”, E-Science Application of Research on Resources, Disease Monitoring and Risk Assessment of Important Wild Birds in Qinghai Lake Region (Grant No. INFO-115-D02), China International Science and Technology Cooperation of the Ministry of Science and Technology, China (MOST) (Grant Nos. 2006DFB32010 and 2007DFC30240), MOST Grant 2005CB523001 (Program 973), National Key Technologies Research & Development Program (Grant 2006BAD06A01), and a grant from NIH (Grant No. 3 U19 AI051915-05S1), the China Post-doctor fellowship (Grant No. 20070420542).     

Spatial and temporal pattern of colonization of Nabidae (Heteroptera) in alfalfa (Medicago sativa)

Abstract: Six species of Nabidae (Heteroptera) were collected by standardized sweep net sampling in alfalfa fields in Thuringia, Germany, from 1993 to 1995: Nabis pseudoferus , N. ferus , N. brevis , N. major , Nabicula flavomarginata and Aptus mirmicoides . Colonization of a newly cultivated field was studied over a 3-year period. The density of all the studied nabid species was low (less than five individuals per 100 sweeps) and not related to time since colonization started, or to the distance from the margin of the field. Macropterous species were able to colonize the whole field within one season. The density of one macropterous species, N. pseudoferus , varied between the years of study and was mainly affected by the harvest regime. The brachypterous species reached the margin within one season but for density it took three seasons to reach satiated values also in the centre of the field. The abundance of the brachypterous N. brevis was significantly different both between years and sampling sites. This indicates the importance of the surroundings on the succession of this species. Nabis major , a fully winged species, showed a migration pattern intermediate to macropterous and brachypterous nabids. These results suggest that the total abundance of nabid predators cannot be predicted by time or distance from the expansion source (shelter belts). The abundance of brachypterous nabid individuals can be predicted from time since colonization but is best analysed at the species level.     

Natural enemies and environmental factors affecting the population dynamics of the gypsy moth

The population densities of the gypsy moth (Lymantria dispar; Lepidoptera: Lymantriidae) may reach outbreak levels that pose considerable economic and environmental impacts to forests in Europe, Asia, Africa and North America. Compared with the situation in its native European range feeding damage by gypsy moth is often found to be more severe in North America and other parts of the world. Thus, the release from natural enemies can be interpreted as an important cause for high feeding damages. Natural enemies, especially parasitoids, can cause delayed density‐dependent mortality, which may be responsible for population cycles. In North America where only few parasitoids have been introduced and the parasitism rates are considerably lower than in Europe, generalist predators play a larger role than in Europe. Many other factors seem to influence the population dynamics of the gypsy moth such as the host plants and weather. Nevertheless, much of the variability in population densities of the gypsy moth may be attributed to interacting effects of weather conditions and attack by natural enemies. In spite of the considerable number of studies on the ecology and population dynamics of the gypsy moth and the impact of their natural enemies, more quantitative information is required to predict the population dynamics of this pest species and to control its economic and ecologic impact.     

Do weaver ants affect arthropod diversity and the natural‐enemy‐to‐pest ratio in horticultural systems?

High biodiversity is an important component of sustainable agricultural systems, and previous studies have found that increases in the diversity of the natural enemies of pests are associated with decreases in pest populations. Weaver ants are well known for their highly territorial and aggressive behaviour and for their control efficiency of many insect pests in tropical crop trees. Because of this, the ants have been used as a key component in integrated pest management (IPM) programmes for tropical crop trees. In implementing the IPM programmes, we received a number of enquiries related to whether weaver ants have negative effects on arthropod diversity and other natural enemies in orchard systems due to their aggressive behaviour. To answer these questions, we regularly sampled canopy arthropods in cashew and mango orchards in the Northern Territory of Australia in 1996, 2002 and 2003. We sampled, using a vacuum sampler, orchards with and without weaver ants. Cashew and mango plots with abundant weaver ants had similar or higher canopy arthropod and natural enemy diversity and similar ratios of natural enemies to insect pests, compared with plot where the weaver ant was absent. The study also showed that the application of insecticides reduced arthropod diversity and the ratio of natural enemies to insect pests in a mango orchard. However, insecticide spray did not affect natural enemy diversity and abundance, which may be related to a high immigration rate of natural enemies in small plots surrounded by areas that were not sprayed.