植食性昆虫

紫外B辐射增强对植食性昆虫的影响

Effects of elevated solar UV-B radiation on herbivorous insects

引诱植食性昆虫的植物挥发性信息化合物的研究进展

Advances on plant volatile semiochemicals attracting herbivorous insects

植食性昆虫食性的生理基础

The physiological bases of host - plant specificity of phytophagous insects

植物次生物质是一种十分重要的抗虫物质，它对植食性昆虫具有驱避、抑食、毒害作用。

Plant allelochemicals is an important substance of insect - resistance .

植食性昆虫切断植物分泌管道的行为是否促进寄主范围扩张？

Do canal-cutting behaviours facilitate host-range expansion by insect herbivores ?

树木挥发物对植食性昆虫的诱导抗性

Induced Resistance of Volatile Substance of Trees to Phytophagous Insects

植食性昆虫诱导的植物抗性最新研究进展

Recent Advances of Herbivorous Insect Induced Resistance in Plants

植物表面蜡质对植食性昆虫的影响研究进展

Effects of Plant Epicuticular Waxes on Phytophagous Insects Behaviour

植物蛋白酶抑制剂的特性及其在抗植食性昆虫中的应用

Characteristics of Plant Proteinase Inhibitors and their Applications in Combat against Phytophagous Insects

植食性昆虫诱导的挥发物及其在植物通讯中的作用

The Plant Volatile Induced by Herbivore and Its Function in Plant-plant Com - munication

氮肥对植食性昆虫的影响及其对水稻主要害虫种群的诱导

Nitrogen Fertilizer Affects Herbivores and Stimulates the Populations of Major Insect Pests of Rice

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

Herbivory insect induced plant volatile s : evolutionary products of plant - herbivore-natural enemy interactions

化学信息素在植物植食性昆虫（螨类）天敌相互关系中的作用

Effects of semiochemicals on the correlation of plants-phytophagous insects ( mites ) and its-natural enemies

植食性昆虫对寄主植物的发现

Host-plant Found by Way of Herbivorous insects

植食性昆虫的寄主标记信息素只产在寄主表面，用触角或产卵器检测。

Insects use chemoreceptors on ovipositors , mouthparts , antennae or tarsi to detect marking pheromones .

近几年来植物植食性昆虫天敌间的三重营养级关系研究是一个热点。

Three nutrition relationships between plant and plant-eating insect and natural enemy are focused in some years .

植食性昆虫的学习行为

Learning in phytophagous insects

植物对植食性昆虫的抗性可包括两个方面：组成抗性、诱导抗性，其中诱导抗性是植物的主要防御机制。

Plant resistance to herbivore attack is primarily concerned the two aspects : constitutive resistance and induced resistance .

植物-植食性昆虫-寄生蜂三级营养结构之间由于长期相互适应和协同进化，产生了一系列独特的相互关系。

Specific interactions were involved in host plant-herbivore-parasitoid system based on the adaptive strategies and coevolution on tritrophic interactions .

物种之间的表观竞争被认为和资源竞争具有同等的重要性，尤其是对植食性昆虫来说更为重要。

It is now known that apparent competition is as important as resource-mediated competition , especially for phytophagous insects .

我们的研究结果表明三个基因通过调控激素信号途径参与了水稻植食性昆虫诱导的防御反应。

Our result indicated that all three genes involved in rice herbivore induced denfense by regulate plant hormone signal pathways .

该文介绍了在植食性昆虫寄主选择定向中起关键作用的植物挥发性信息化合物的种类、作用方式、有效浓度和距离，并就目前存在的主要问题进行了讨论。

In this paper , the classification of plant volatile semiochemicals , acting modes , effective concentration and distance are reviewed .

当植物受到病原菌及植食性昆虫危害后，会产生一系列的诱导防御反应。

Herbivore induced plant defense response , a complex physiological and biochemical processes , can produce when exposed to pathogen and phytophagous insects .

蜘蛛是众多植食性昆虫的天敌，在生态系统中具有不可替代的作用，对于湿地生态系统的健康和稳定亦有重要贡献。

Spiders are natural enemies of various phytophagous insects . They play a irreplaceable role in ecosystem , as well as in wetland ecosystem .

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。

The characteristics and functions of herbivory insect induced plant volatiles are results of the co evolution among plant , herbivore and natural enemy .

植食性昆虫取食诱导植物产生的防御作用具有空间和时间效应。

Plant defenses induced by herbivorous insects can be effective to some extent in space and time according to the research development in this field .

寄生性天敌类群为最小，平均为0.135。随季节变化植食性昆虫类群和捕食性昆虫所占比重有比较明显的下降趋势，而寄生性昆虫类群所占比重则显著上升，平均上升达147%。

With seasonal change , the proportion of herbivorous and predatory insect group decreased obviously , while that of parasitical insect group increased on average by 147 % .

根据1992～1995年的调查，本文记述了辽宁省烟田植食性昆虫107种，螨类和蛞蝓各1种，它们隶属8目37科。

This paper describe 1 mite , 1 limax and 107 species of tobacco pests in Liaoning Province . These species belong to 37 families of 8 orders .

土壤水分和营养不仅是植物生长不可或缺的要素，而且可以通过改变植物的形态结构、生存和生理机能等对植食性昆虫产生深刻的影响。

Soil Water and nutrient was not only necessary for the growth of plant , but also had profound effects on insects by the morphology and physiology change of plant .

臭氧也通过改变植物的原生代谢和次生代谢发生数量而影响植食性昆虫的取食偏嗜性、行为、生长和发育，进而影响天敌昆虫的适合度。

The preference , behaviour , growth , and development of insect herbivores are impacted due to the changes in plant primary and secondary metabolism brought about by elevated ozone concentration .