从进口塔吉克斯坦苹果上截获重要害虫橄榄片盾蚧

【目的】明确橄榄片盾蚧的形态特征并编制与近似种的检索表,收集整理橄榄片盾蚧的分布范围、寄主、天敌、生物学特性、经济重要性,为该蚧虫的防控措施提供依据。【方法】通过显微特征的观察和测量进行种类鉴定,研究橄榄片盾蚧的生物学及生态学相关资料。【结果】橄榄片盾蚧雌介壳长0.77 mm左右,雌成虫体长0.55 mm左右,体紫色,臀板黄色,触角瘤小且有一个弯曲的长毛,前气门有4个盘状孔,后气门无,有3对发达的臀叶,中臀叶最大,第二臀叶和第三臀叶相似,第四臀叶呈齿状凸起,围阴腺5群。【结论】橄榄片盾蚧繁殖能力强,寄主种类多,一旦入侵到未发生区,会对当地自然生态系统造成严重的危害。加强检验检疫是防治该虫的主要措施之一,生物、化学防治是治理该虫的重要方法。     

云南昆明地区糠片盾蚧的天敌昆虫种类初报

于 2 0 0 1～ 2 0 0 2年在昆明和曲靖对危害桃、苹果和梨树上糠片盾蚧的天敌昆虫种类进行了调查。结果显示 ,糠片盾蚧寄生性天敌昆虫有 7种 ,隶属于膜翅目小蜂总科的跳小蜂科和蚜小蜂科 ,其中 ,桑盾蚧黄蚜小蜂Aphytisproclia (Walker)是糠片盾蚧的主要寄生蜂 ,其数量占寄生蜂总数的 79 7%;捕食性天敌昆虫有 3种 ,隶属于鞘翅目、瓢虫科 ,其中 ,二双斑唇瓢虫ChilocorusbijugusMulsant为糠片盾蚧的主要捕食性天敌昆虫     

中国片盾蚧属一新种及一新纪录种(半翅目,盾蚧科)

记述中国片盾蚧属1新种芦苇片盾蚧Parlatoria reedia sp.nov和1新纪录种加氏片盾蚧Parlatoria ghanii Hall ＆ Williams,模式标本保存在中国科学院上海植物生理生态研究所昆虫标本馆.     

中国环并盾蚧属一新种 (同翅目:盾蚧科)

据冈木村夫博士和汤(衤方)德教授1982年报导,环并盾蚧类(Quernaspis Group)包括三属七种,其中环并盾蚧属(Quernaspis)三种,分布在北美;新环并盾蚧属(Neoquernaspis)三种,产于东亚,其中两种分布在中国,一种分布在尼泊尔;中华环并盾蚧属(Sinoqu-ernaspis)一种,分布在中国。本文记述的新种属于新环并盾蚧属。钩新环并盾蚧Neoquernaspis unciformis,新种     

中国片盾蚧属一新种记述(半翅目:盾蚧科)

记述中国片盾蚧属1新种——勐仑片盾蚧Parlatoria menglunensis,sp.nov．。模式标本保存于西北农林科技大学昆虫博物馆。     

中国片盾蚧属一新种记述(半翅目:盾蚧科)

记述中国片盾蚧属1新种--蔷薇片盾蚧Parlatoria rosia,sp.nov..模式标本保存于中国科学院上海植物生理生态研究所昆虫标本馆.     

中国片盾蚧属——新种记述（半翅目：盾蚧科）

记述中国片盾蚧属1新种——蔷薇片盾蚧Parlatoria rosia，sp．nov．。模式标本保存于中国科学院上海植物生理生态研究所昆虫标本馆。     

蛇眼臀网盾蚧的观察及其防治

<正> 蛇眼臀网盾蚧Pseudaonidia duplex(Coc-kerell),又名蛇目蚧,蛇眼蚧、樟蚧等,属盾蚧科。在我场常兼有少数樟臀网蚧、Pseudaonidiapaeoniae(Cockerell)。     

中国围盾蚧属一新种（半翅目：蚧总科：盾蚧科）

记述中国围盾蚧属Fiorinia Targioni-Tozzetti 1新种:南宁围盾蚧Fiorinia nanningensis Zhang&Feng sp.nov.。该种近似于钩樟围盾蚧F.linderaeTakagi,1969,二者臀板均无腺刺分布,并且第2臀叶退化,略突起或全无,但是可以从以下特征区别:1)新种中臀叶狭小,末端截型,内缘无锯齿(钩樟围盾蚧中臀叶大而内缘多齿);2)躯干上无腺刺或腺瘤(钩樟围盾蚧后胸有1-3个腺瘤,第1腹节有3或4个腺瘤,第2腹节有1-2个腺刺);3)无触角间突(钩樟围盾蚧触角间突小圆锥形)。对其形态特征进行了详细描述,提供了玻片绘图。研究标本保存在西北农林科技大学昆虫博物馆。     

中国白轮蚧属的新种

白轮蚧属(Aulacaspis)系蚧总科(Coccoidea)盾蚧科(Diaspididae)盾蚧族(Diaspidini)中常见的属,是原产东南亚地区的蚧类。经过近几年调查采集,在我国共有35种,其中发现5个新种,有的已对林木造成严重危害。现将新种简介于次。     

Insect conservation and pest management

The issue of insect conservation in pest management has many conflicting aspects. For instance, it is desirable to conserve a pest residue in order to maintain natural enemy population and it is imperative to conserve natural enemies. However, conservation of pest species is not relevant if the pest species is an exotic invader and a candidate for eradication, mainly because eradication, if successful, achieves only regional extinction. Conservation of native pests depends, to a large extent, on whether the species is a direct pest of a high value crop or an indirect pest with an acceptable economic injury level. In this paper, integrated pest management is defined in terms of sustainable agriculture and the conservation of biodiversity, and give five premises that stress the level of disturbance of agricultural communities and the dynamics of pest status for arthropod species in the community. The possible impacts of the main integrated pest management tactics on arthropod conservation are tabulated and the results reached stress that diversification of agricultural systems through maximum use of native plants should benefit both integrated pest management and regional arthropod conservation.     

Biological pest control by investing crops in pests

We propose a biological pest control system that invests part of a crop in feeding a pest in a cage. The fed pest maintains a predator that attacks the pest in the target area (i.e., the area for storing or growing crops). The fed pest cannot leave the cage nor the target pest cannot enter the cage. The predator, however, can freely attack both the fed and target pests in the target area. By introducing a refuge in the cage against the predator for the fed pest, the fed pest and predator may be stably sustained. In this study, we analyzed the potential performance of this system by modeling the population dynamics of the target pest, fed pest, and predator as differential equations. First, we show analytically that the target pest can be suppressed at extremely low abundance by adjusting both refuge efficiency and crop investment. Second, we show numerically that crop damage by the pest may be effectively suppressed by investing only small amounts of the crop. Third, we show numerically that the magnitude of required crop investment can be estimated by an index comprising of the predator's searching cost for prey and the relative growth efficiency of the predator with respect to the pest. Even if the system structure is changed or its population dynamics is modeled based on host–parasitoid interactions, crop damage can be suppressed effectively by small amounts of crop investment.     

Theory,Technology, and Practice of Site-Specific Insect Pest Management

Insects are usually unevenly distributed throughout an area in nature. Despite this knowledge, analytical methods and technology have limited insect pest management to uniform management decisions in the field. Recently, the methods and technology to map and analyze insect spatial distribution have been developed to a level where the uneven nature of insect populations can be considered for application of pest management tactics. This new approach to insect management is termed site-specific pest management. Site-specific pest management utilizes spatial information about pest distribution to apply control tactics only where pest density is economically high within a field. This review will detail the current status of site-specific insect pest management in agriculture, technological requirements, its limitations, and future potential.     

A Theoretical Approach on Controlling Agricultural Pest by Biological Controls

In this paper we propose and analyze a prey-predator type dynamical system for pest control where prey population is treated as the pest. We consider two classes for the pest namely susceptible pest and infected pest and the predator population is the natural enemy of the pest. We also consider average delay for both the predation rate i.e. predation to the susceptible pest and infected pest. Considering a subsystem of original system in the absence of infection, we analyze the existence of all possible non-negative equilibria and their stability criteria for both the subsystem as well as the original system. We present the conditions for transcritical bifurcation and Hopf bifurcation in the disease free system. The theoretical evaluations are demonstrated through numerical simulations.     

中季稻区稻田害虫—天敌—农药系统的模拟及其优化管理的研究(英文)

本文以中季稻区稻田主要害虫稻飞虱、稻纵卷叶螟和捕食天敌蜘蛛的田间系统调查资料为基础,以害虫—天敌—农药系统为研究对象,应用害虫管理系统工程的原理,处理害虫、捕食天敌与农药三者之间的关系。建立了稻纵叶螟—蜘蛛—甲胺磷和稻飞虱—蜘蛛—甲胺磷两系统优化管理模型,绘制了它们的优化反馈控制策略图,利用微机对系统进行最优监控。使用时输入当前田间害虫与天敌数量,就可对系统作出即时的预测和最优决策。该策略确立的控制害虫的最优性能指标,是使害虫对农作物的为害所造成的损失与防治费用之和最小,并且使害虫和天敌的数量处于系统平衡状态。文中比较分析了该策略与基于经济阈值的常规害虫管理策略,指出了新策略在害虫综合治理中对天敌数量进行控制和管理的作用及其意义。     

SIMULATION AND OPTIMAL MANAGEMENT OF THE PEST-NATURAL ENEMY-INSECTICIDE SYSTEM OF PADDY FIELDS IN MIDDLE SEASON RICE CROPPING REGION*

Abstract Investigations on the pest-natural enemy-insecticide system, including rice leaf roller-spider-tamaron and planthopper-spider-tamaron system, were carried out in the paddy fields in middle season rice cropping region. The relationship among insect pest, natural enemy and insecticide were studied based on the principle of the pest management system engineering. The optimal management models of the two systems were developed. Their diagrams of optimal feedback control strategy were contoured for computer monitoring of the pest-natural enemy-insecticide system. The population densities of pest and natural enemy in the future could be forecasted and the optimal strategy could be made when the current field densities of pest and natural enemy were input into the computer. The optimal performance index, which is a combination of the total cost of using the chemical and the total cost of pest damage to crops, for pest control is minimized. The objective of the system management is to drive the state of the system towards a beneficial equilibrium of the system generally. A comparison of the new IPM strategy with the ordinary strategy based on a single economic threshold is conducted in this paper. The optimal control strategies suggest that both pest and natural enemy populations should be controlled in the integrated pest management.     

对害虫具自然控制能力的益害比指标模型研究

在害虫测报和防治工作中,经常要考虑天敌与害虫数量的比例问题,以决定是否需对害虫进行防治或决定相应的防治措施。如果采取防治措施过早,不能充分发挥天敌的自然控制作用,则会浪费人力物力;如采用化防还会加     

Modelling the interplay between pest movement and the physical design of trap crop systems

Abstract 1 The interplay between pest movement and trap crop physical design is modelled in a situation where the pest moves by a random walk with spatially variable mobility. Questions addressed are: (i) how does the proportion of trap crop area of the total field area influence the equilibrium distribution of pests among the crop and the trap crop and (ii) how do crop patch size and shape influence the speed of pest redistribution from the crop to the trap crop. 2 When pest mobility in the trap crop is clearly lower than that in the crop, the pest population in the crop decreases very sharply for small trap crop proportions. When mobility in the trap crop is slightly closer to that in the crop, the pest population in the crop decreases much more gradually with increasing trap crop proportion. Thus finding a trap crop that the pest distinctly prefers over the crop appears to be crucial for developing efficient trap crop systems. 3 The rate of decay in the pest population in the crop increases with increasing perimeter to area ratio of the crop patch. Hence, designing field layouts to increase the perimeter to area ratio of crop patches may be beneficial.     

Insectivorous birds are not effective pest control agents in olive groves

Although avian-mediated pest control is a significant ecosystem service with important economic implications, few experimental studies have ever documented its role in Mediterranean agroforests. Specifically, information on pest control by birds is lacking in certain permanent agroecosystems of worldwide importance such as olive groves.Here, we assess experimentally for the first time the effectiveness of insectivorous birds in controlling the two main olive-tree pests. We also explore the effects of distance to semi-natural habitat patches on avian insectivore abundance and pest control. We combined bird and pest surveys with pest damage monitoring and two field experiments (branch exclusion and plasticine models) at a regional scale.The experiments showed that birds played a negligible role as pest controllers (measured in terms of attack rates on plasticine models and controlled pest damage) in the studied olive groves; overall, pests were abundant and pest damage was high on most farms. In addition, surveys showed that insectivorous birds were more abundant and diverse in patches of semi-natural habitat, compared to the matrix of olive groves, and that proximity to semi-natural patches was not a driver of bird-driven pest control.This study experimentally demonstrates that insectivorous birds are not effective pest controllers in olive groves. The absence of patterns linking insectivorous birds’ availability and observed pest control suggests that birds are unable to exert effective control over the main olive-tree pests. This lack of biocontrol by birds is probably due to low accessibility and/or appetence for the current insectivorous groups. Habitat improvement aimed at encouraging some under-represented forager species could improve the likelihood that birds will provide this ecosystem service.     

我国农业害虫综合防治研究现状与展望

害虫综合防治作为农业生产的一项重要策略,在农业可持续发展中具有举足轻重的作用。近年来,针对我国害虫防治所存在的技术需求,科技部等部门先后通过973计划、863计划、科技支撑计划和农业行业专项等对重要害虫防治研究立项支持。通过这些项目的实施,我国建成了一支由国家和省级科研单位和大学组成的专业科研队伍和研究平台,对害虫监测预警技术、基于生物多样性保护利用的生态调控技术、害虫生物防治技术、化学防治技术、抗虫转基因作物利用技术等方面的研究取得了一系列的重要进展,研究建立了棉花、水稻、玉米、小麦和蔬菜等作物重要害虫的综合防治技术体系,并在农业生产中发挥了重要作用。以基因工程和信息技术为代表的第二次农业技术革命的到来,推动了害虫综合防治的理论发展,为害虫综合防治技术的广泛应用提供了新的机遇。地理信息系统、全球定位系统等信息技术和计算机网络技术的应用,提高了对害虫种群监测和预警的能力和水平,转基因抗虫作物的商业化种植等技术的应用显著增强了对害虫种群的区域性调控效率。针对产业结构调整和全球气候变化所带来的害虫新问题,进一步发展IPM新理论与新技术将成为我国农业昆虫学研究的重要方向之一。