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Molecular interaction network of plant-herbivorous insects
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作者 Chao Hu Yu-Ting Li +2 位作者 Yu-Xi Liu Ge-Fei Hao Xue-Qing Yang 《Advanced Agrochem》 2024年第1期74-82,共9页
The interactions between plants and herbivorous insects are complex and involve multiple factors,driving species formation and leading to the beginning of co-evolution and diversification of plant and insect molecules... The interactions between plants and herbivorous insects are complex and involve multiple factors,driving species formation and leading to the beginning of co-evolution and diversification of plant and insect molecules.Various molecular processes regulate the interactions between plants and herbivorous insects.Here,we discuss the molecular patterns of plant perception of herbivorous insect feeding through activation of early signaling components,crosstalk of plant defense network composed of multiple plant hormones,and various adaptive changes in insect responses to plant defenses.Both plant defenses and insect counter-defenses are molecular adaptation processes to each other.Molecular models of plant-herbivorous insect interactions can more intuitively help us to understand the co-evolutionary arms race between plants and herbivorous insects.These results will provide detailed evidence to elucidate and enrich the interaction network of plant-herbivorous insects. 展开更多
关键词 Plant-herbivorous insect interactions Plant hormone Plant defense Counter-defenses ADAPTATION
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Prediction of Whitefly Population and Infestation Based on Multitrophic Analysis between Competitor Pest,Plant Traits and Natural Enemy
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作者 Mohd Rasdi Zaini Noor Shuhaina Shaikh Mazran +1 位作者 Che Salmah Md Rawi Alshami Salman 《Journal of Agricultural Science and Technology(A)》 2019年第5期294-309,共16页
Interaction among arthropods(insect-acarine)was investigated at all trophic levels in agro-ecosystem and affects the population dynamic and diversification of arthropod pests and intensity of natural enemy(parasitism)... Interaction among arthropods(insect-acarine)was investigated at all trophic levels in agro-ecosystem and affects the population dynamic and diversification of arthropod pests and intensity of natural enemy(parasitism)as well as stimulates the plant chemical defence.In the present study of two cropping periods,nutrient concentration and early infestation of plant-sucking pests are known to trigger different degrees of interactions(plant’s parameters)which potentially alert abundance and diversity of the insect pests.Clearer interaction and magnitude of impact could be assessed(multivariate analysis of variance(MANOVA)and redundancy analysis(RDA))and observed between arthropods(insect-acarine)community and plants’parameters from the strongest to the lowest effects.The two factors could have affected the community of insect-pests with various degrees of pressure effect and interaction that occurred naturally,thus leading to the predictable abundance of insect-acarine populations under eggplant leaves in response to plant physical characteristics(e.g.,size of leaves,number of leaves and plant height)and biochemical constituents(flavonoid,phenolic,peroxidase andβ-1,3-glucanase).Based on multivariate analyses of multitrophic interaction,MANOVA and RDA have the potential to elucidate the complex interaction among plant performance,abundance of pests and activity chemical defence compounds.Both analyses interpreted similar interactions of measured parameters in different ways.Whitefly population in this study was predictable by aphids,thrips and total phenolic contents in eggplant.Eggplant has capable defence systems against insect-acarine pests after stimulation(pre-infestation).In relation to IPM strategy,early stages of plant growth are known as susceptible periods for pests attack but the plant becomes more tolerant during the fruiting stage. 展开更多
关键词 MULTITROPHIC insect interaction WHITEFLY APHIDS thrips and eggplant
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The influence of the wake of a flapping wing on the production of aerodynamic forces 被引量:9
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作者 Jianghao Wu Mao Sun 《Acta Mechanica Sinica》 SCIE EI CAS CSCD 2005年第5期411-418,共8页
The effect of the wake of previous strokes on the aerodynamic forces of a flapping model insect wing is studied using the method of computational fluid dynamics. The wake effect is isolated by comparing the forces and... The effect of the wake of previous strokes on the aerodynamic forces of a flapping model insect wing is studied using the method of computational fluid dynamics. The wake effect is isolated by comparing the forces and flows of the starting stroke (when the wake has not developed) with those of a later stroke (when the wake has developed). The following has been shown. (1) The wake effect may increase or decrease the lift and drag at the beginning of a half-stroke (downstroke or upstroke), depending on the wing kinematics at stroke reversal. The reason for this is that at the beginning of the half-stroke, the wing “impinges” on the spanwise vorticity generated by the wing during stroke reversal and the distribution of the vorticity is sensitive to the wing kinematics at stroke reversal. (2) The wake effect decreases the lift and increases the drag in the rest part of the half-stroke. This is because the wing moves in a downwash field induced by previous half-stroke's starting vortex, tip vortices and attached leading edge vortex (these vortices form a downwash producing vortex ring). (3) The wake effect decreases the mean lift by 6%-18% (depending on wing kinematics at stroke reversal) and slightly increases the mean drag. Therefore, it is detrimental to the aerodynamic performance of the flapping wing. 展开更多
关键词 insect. Flapping. Unsteady aerodynamics.Wing/wake interaction. CFD analysis
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Evaluation of bias on the assessment of diet breadth of herbivorous insects using molecular methods
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作者 Gissela De la Cadena Anna Papadopoulou +1 位作者 Jean-Michel Maes Jesus Gomez-Zurita 《Insect Science》 SCIE CAS CSCD 2017年第2期194-209,共16页
The interactions between herbivores and their host plants play a key role in ecological processes. Understanding the width and nature of these interactions is funda- mental to ecology and conservation. Recent research... The interactions between herbivores and their host plants play a key role in ecological processes. Understanding the width and nature of these interactions is funda- mental to ecology and conservation. Recent research on DNA-based inference of trophic associations suggests that the host range of phytophagous insects in the tropics may be wider than previously thought based on traditional observation. However, the reliability of molecular inference of ecological associations, still strongly dependent on PCR and thus exposed to the risk of contamination with environmental DNA, is under debate. Here, we explored alternative procedures to reduce the chance of amplification of external, nondiet DNA, including surface decontamination and analysis of mid/hind guts, comparing the results with those obtained using the standard protocol. We studied 261 specimens in eight species of Neotropical Chrysomelidae that yielded 316 psbA-trnH intergenic spacer sequences (cpDNA marker of putative diets) from unique and multiple-band PCR results. The taxonomic identity of these sequences was inferred using the automated pipeline BAGpipe, yielding results consistent with 31 plant families. Regardless of the proto- col used, a wide taxonomic spectrum of food was inferred for all chrysomelid species. Canonical Correspondence Analysis using these data revealed significant differences at- tributed mainly to species (expectedly, since they represent different ecologies), but also to treatment (untreated vs. cleaned/gut samples) and PCR results (single vs. multiple bands). Molecular identification of diets is not straightforward and, regardless of the species' niche breadth, combining approaches that reduce external contamination and studying multiple individuals per species may help increasing confidence in results. 展开更多
关键词 food-webs gut content insect plant interaction molecular ecology molec-ular taxonomy psbA-trnH intergenic spacer
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