室内条件下以枣树为寄主的苹褐带卷蛾的生长发育、繁殖及对产卵基质的选择性

【目的】苹褐带卷蛾Adoxophyes orana在陕北红枣种植区对枣树Ziziphus jujube的危害有逐年加重的趋势。本研究旨在明确以枣树为寄主的苹褐带卷蛾发育历期、繁殖能力及雌虫对产卵基质的选择性,为准确预测、高效治理该虫提供理论依据。【方法】在室温25±1℃、相对湿度70%±5%、光周期15L∶9D的条件下,以枣树叶片为食料,观察苹褐带卷蛾实验种群的生长发育及繁殖能力;通过测定补充不同营养物质后雌蛾的单雌产卵量,评价外源营养对苹褐带卷蛾繁殖力的影响;通过观察苹褐带卷蛾雌蛾在硫酸纸、滤纸、白纸、PE保鲜膜及装订胶片5种基质上的总落卵量,确定其对无机产卵基质的选择性。【结果】苹褐带卷蛾卵、幼虫、蛹和成虫的平均发育历期分别为7.38±1.22, 16.59±2.16, 7.01±0.79和16.65±5.15 d,平均世代历期为33.87±3.64 d。苹褐带卷蛾在枣树上的内禀增长率(rm)、周限增长率(λ)和种群加倍时间(Dt)分别为0.15 d^-1,1.16 d^-1和4.67 d,平均产卵量达339.52±129.93粒/雌。雌虫可多次产卵,表现出明显的昼夜节律(多在0:00-8:00时段内);平均产卵次数6.26±2.09次,雌虫羽化后第3-5天达到产卵盛期。雌蛾在PE保鲜膜上的总落卵量显著大于在其他产卵基质上的总落卵量。补给不同浓度白糖水的雌蛾,其产卵量与补给纯净水的雌蛾的产卵量差异不显著。【结论】苹褐带卷蛾能够以枣树叶片为食物完成发育并繁殖可育后代,PE保鲜膜是其雌蛾适宜的无机产卵基质。     

世界性害虫葡萄花翅小卷蛾入侵我国的风险分析

【目的】葡萄花翅小卷蛾是我国禁止进境的检疫性害虫,一旦入侵我国,将会给葡萄产业和林果业造成严重损失。开展葡萄花翅小卷蛾入侵我国的风险分析可为该虫的检疫和预警提供依据。【方法】介绍了葡萄花翅小卷蛾的形态特征和生物学特性,并参照通用的有害生物风险评估方法,从该虫在国内外的发生情况、潜在的经济危害性、受害作物的经济重要性、传播扩散的可能性及风险管理的难度等方面,对其入侵风险进行了定性和定量分析。【结果】葡萄花翅小卷蛾是一种对我国有很大潜在威胁的有害生物,其风险值为2.14,属高度危险性有害生物。【结论】建议新疆等口岸比较多的省、自治区口岸检疫部门加强对该害虫的检疫力度,杜绝其传入我国。     

葡萄花翅小卷蛾抗药性研究进展

葡萄花翅小卷蛾是葡萄上的重要害虫,具有多食性、多化性等生物学特点,抗逆能力极强。该虫起源于欧洲,现已入侵全球多个国家。葡萄花翅小卷蛾主要以幼虫取食葡萄花序、幼果和成熟果实,给葡萄生产造成重大损失;其危害有利于真菌的侵入,导致灰霉病、白粉病等病害大量发生,从而造成葡萄腐烂。由于该虫入侵风险极高,已被我国列为重要的进境检疫性有害生物。国外对葡萄花翅小卷蛾的防治主要采用化学杀虫剂,由于长期大量且不合理地使用化学杀虫剂,葡萄花翅小卷蛾已对多种不同类型的杀虫剂产生了抗药性。本研究总结了葡萄花翅小卷蛾的抗性测定方法、抗性现状及其抗性机理,同时结合国外葡萄花翅小卷蛾抗性和防治相关研究,提出该虫抗性治理策略,并对我国预防该虫的入侵提出建议。     

我国不同地区棉褐带卷蛾的性行为观察

观察结果表明,茶小卷蛾性行为反应与成虫的虫龄关系甚为密切;当天羽化的雌雄蛾已具有一定程度的交尾能力。如和交尾能力更强的1,2天虫龄的异性配对时,性行为反应的比率达到实验最高值;我国不同地区棉褐带卷蛾24小时内性行为反应基本类似,雄虫振翅和交尾率均在凌晨6：00-7：00达到了高峰。茶小卷蛾和棉小卷蛾交叉配对时,交尾率达53.33%和60．00％。但当苹小卷蛾和茶小卷娥配对时．则未见任何交尾活动。我国不同地区棉褐带卷蛾显示出很强的同源性;本讨论了我国北方棉褐带卷蛾(苹小卷蛾)与南方棉褐带卷蛾（棉小卷蛾、茶小卷蛾)．目前可视为两个不同的亚种。     

海南发现椰子织蛾的重要天敌褐带卷蛾茧蜂

椰子织蛾是棕榈植物的重要入侵害虫,在印度和斯里兰卡严重危害椰子树。2013年在海南省万宁市首次发现椰子织蛾。目前,该虫已在海南多个市县及广东和广西危害,对我国棕榈科植物的安全生产构成严重威胁。2014年11月,作者等人在万宁兴隆和三亚海棠湾镇调查椰子织蛾危害时,发现其重要天敌昆虫——褐带卷蛾茧蜂。为了进一步了解褐带卷蛾茧蜂,本文对其形态特征、分布、寄主和生物学习性进行了报道,以便更好地用于椰子织蛾的生物防治。     

世界毁灭性检疫害虫番茄潜叶蛾的生物生态学及危害与控制

番茄潜叶蛾原产于南美洲的秘鲁,严重危害多种茄科作物,是最具毁灭性的世界检疫性害虫,严重发生地块番茄减产80%~100%。该虫主要借助农产品的贸易活动进行远距离传播扩散。截至2017年,番茄潜叶蛾已在全世界的85个国家和地区发生(以及在22个国家和地区疑似发生)。目前,我国尚没有该虫分布,然而其一旦入侵,将对我国的番茄和马铃薯产业构成巨大威胁。从番茄潜叶蛾寄主范围、危害特点及造成的经济损失、生物生态学习性、地理分布和传播扩散途径、防控措施等方面进行概述,以期为该虫的有效防范提供参考。     

苹褐带卷蛾成虫对主要寄主植物挥发物的触角电位反应和行为反应

【目的】苹褐带卷蛾Adoxophyes orana是危害苹果、桃、梨、枣等果树的一种重要昆虫。近年来在陕西苹果和红枣产区发生面积逐年扩大,危害日趋严重。本研究旨在明确寄主植物挥发物在苹褐带卷蛾成虫嗅觉通讯中的作用,为开发植物源引诱剂提供基础数据。【方法】利用触角电位(electroantennogram, EAG)仪测定苹褐带卷蛾2日龄未交配雌、雄成虫对51种寄主植物挥发性化合物的EAG反应;利用本实验室开发的小型蛾类昆虫嗅觉行为测试装置测定苹褐带卷蛾成虫对15种具有显著EAG反应的挥发性化合物的行为反应。【结果】EAG测试结果表明,苹褐带卷蛾成虫对不同挥发性化合物的EAG反应相对值有显著差异,雌、雄成虫对顺-3-己烯-1-醇、反-2-己烯-1-醇、1-己醇、1-庚醇、己醛、反-2-己烯醛、庚醛、辛醛、壬醛、乙酸丁酯、乙酸异戊酯和乙酸-顺-3-己烯酯的EAG反应较强。此外,雄成虫对3-甲基-1-丁醇、1-戊烯-3-醇、苯甲醛、丁酸丁酯、乙酸乙酯、三甲基巴豆酸乙酯、己酸乙酯、丙酸丁酯、异戊酸-顺-3-己烯酯、苯甲腈和柠檬腈的反应较强。在待测的51种挥发性化合物中,苹褐带卷蛾成虫对29种化...     

三角新小卷蛾生物学特性及防治

三角新小卷蛾ＯｌｅｔｈｒｅｕｔｅｓｌｅｕｃａｓｐｉｓＭｅｙｒｉｃｋ ,别名黄三角黑卷蛾 ,属鳞翅目 ,小卷蛾亚科。该虫幼虫主要危害荔枝、龙眼嫩叶 ,分布于我国华南、日本、印度等地[1] ,但其卵、幼虫、蛹的形态特征、生物学特性及防治方法等尚未见报道。由于此虫对广西荔枝、龙眼的危害日趋严重 ,已成为主要害虫之一 ,为此 ,作者于 1 991年开始对此虫进行观察 ,1 997～ 1 999年列为广西农业外资项目的子课题进行系统考察研究 ,现将结果报道如下。图 1　三角新小卷蛾形态特征1 成虫　 2 卵 (放大 )　 3 ,4 幼虫　 5 蛹1　形态特征 (图…     

基于转录组的葡萄花翅小卷蛾三类解毒酶基因家族分析

[目的]葡萄花翅小卷蛾是我国重要的检疫性害虫,一旦入侵我国,将会对我国葡萄产业和林果业生产造成严重损失,国外主要使用化学农药防治该虫.开展葡萄花翅小卷蛾转录组测序及体内细胞色素P450单加氧酶(cytochrome P450 monooxygenase,CYP)、羧酸酯酶(carboxylesterase,CarE)和...     

棉褐带卷蛾Adoxophyes orana可分为两个亚种(鳞翅目: 卷蛾总科: 卷蛾科)

对我国不同地区和不同植物上所采集的棉褐带卷蛾３个属群进行形态分类研究,发现茶叶、棉花上的２个属群幼虫上颚第５齿、蛹下唇基毛、雄虫前翅基斑、中带、雄性爪型突和雌性囊导管长度等与苹果、桃树上的属群均存在较大差异。结合性信息素、杂交等研究,认为我国的棉褐带卷蛾已发生了种下分化,应分为两个亚种,即为害苹果、桃树的种为苹褐带卷蛾ＡｄｏｘｏｐｈｙｅｓｏｒａｎａｂｅｉｊｉｎｇｅｎｓｉｓＺｈｏｕｅｔＦｕ,而在棉花、茶树上为害的种是棉褐带卷蛾ＡｄｏｘｏｐｈｙｅｓｏｒａｎａｏｒａｎａＦｉｓｃｈｅｒｖｏｎＲｏｓｌｅｒｓｔａｍｍ。     

Forecasting Helicoverpa populations in Australia： A comparison of regression based models and a bioclimatic based modelling approach

Abstract Long-term forecasts of pest pressure are central to the effective management of many agricultural insect pests. In the eastern cropping regions of Australia, serious infestations of Helicoverpa punctigera (Wallengren) and H. armigera (Hübner)(Lepidoptera: Noctuidae) are experienced annually. Regression analyses of a long series of light-trap catches of adult moths were used to describe the seasonal dynamics of both species. The size of the spring generation in eastern cropping zones could be related to rainfall in putative source areas in inland Australia. Subsequent generations could be related to the abundance of various crops in agricultural areas, rainfall and the magnitude of the spring population peak. As rainfall figured prominently as a predictor variable, and can itself be predicted using the Southern Oscillation Index (SOI), trap catches were also related to this variable. The geographic distribution of each species was modelled in relation to climate and CLIMEX was used to predict temporal variation in abundance at given putative source sites in inland Australia using historical meteorological data. These predictions were then correlated with subsequent pest abundance data in a major cropping region. The regression-based and bioclimatic-based approaches to predicting pest abundance are compared and their utility in predicting and interpreting pest dynamics are discussed.     

Modelling the geographical range of a species with variable life-history

We show how a climatic niche model can be used to describe the potential geographic distribution of a pest species with variable life-history, and illustrate how to estimate biogeographic pest threats that vary across space. The models were used to explore factors that affect pest risk (irrigation and presences of host plant). A combination of current distribution records and published experimental data were used to construct separate models for the asexual and sexual lineages of Rhopalosiphum padi (Linnaeus) (Hemiptera: Aphididae). The two models were combined with knowledge of host plant presence to classify the global pest risk posed by R. padi. Whilst R. padi has a relatively limited area in which sexual lineages can persist year round, a much larger area is suitable for transient sexual and asexual lineages to exist. The greatest risk of establishment of persistent sexual and asexual populations is in areas with warm temperate climates. At the global scale the models show very little difference in risk patterns between natural rainfall and irrigation scenarios, but in Australia, the amount of land suitable for persistent asexual and transient sexual populations decreases (by 20%) if drought stress is no longer alleviated by irrigation. This approach proved useful for modelling the potential distribution of a species that has a variable life-history. We were able to use the model outputs to examine factors such as irrigation practices and host plant presence that altered the nature (transient or permanent) and extent of pest risk. The composite niche maps indicate pest risk in terms that are useful to both biosecurity agencies and pest managers.     

Grape phylloxera (Daktulosphaira vitifoliae) – a review of potential detection and alternative management options

The management options for grape phylloxera, Daktulosphaira vitifoliae, a monophagous insect pest of Vitis species are reviewed. Although in a worldwide context, grape phylloxera is managed predominantly by the use of resistant rootstocks developed through conventional breeding of hybrid crosses of American Vitis species, this management aspect is largely excluded from the review so that emerging technologies in the field of detection, quarantine and alternative management are discussed. In some viticulture regions of the world, where grape phylloxera's geographic distribution is limited (e.g. Australia), the pest is managed through a combination of surveillance, detection and quarantine. Although some alternative management options for grape phylloxera exist they have received relatively limited research attention because of the relative success of resistant rootstocks. The resilience of resistant rootstocks as the primary management option could also be challenged in the future by host‐plant interactions with diverse grape phylloxera clonal lineages and by potential impacts of climate change on both grapevine and grape phylloxera distribution. A range of control options exist which could be integrated into an improved management system for grape phylloxera. Priority areas for future evaluation and further development include early detection techniques, investigation into the use of biological control agents and development of an integrated approach to grapevine phylloxera management.     

Insect distribution in response to climate change based on a model: Review of function and use of CLIMEX

The significant dependence of agricultural productivity on pest control requires pest distribution predictions at an early stage of pest invasion. Because pest cycles are critically affected by climate, climate is one of the most important factors for predicting an invasive pest. CLIMEX is a highly effective tool that can predict potential geographical species distributions, and test the regional suitability for a target species' habitat based on data including climate change scenarios. CLIMEX has been recently used in Europe, North America, China and Australia, among others. However, for modeling species distributions in Korea, the use of the model has been limited to date. This study aimed to first introduce the function and application of CLIMEX by reviewing important studies using this model. Second, we investigated previous studies using the model simulation to demonstrate the practical applicability of CLIMEX for the agricultural sector, and its use in forecasting.     

Biological invasion risk assessment of Tuta absoluta: mechanistic versus correlative methods

The capacity to assess invasion risk from potential crop pests before invasion of new regions globally would be invaluable, but this requires the ability to predict accurately their potential geographic range and relative abundance in novel areas. This may be unachievable using de facto standard correlative methods as shown for the South American tomato pinworm Tuta absoluta, a serious insect pest of tomato native to South America. Its global invasive potential was not identified until after rapid invasion of Europe, followed by Africa and parts of Asia where it has become a major food security problem on solanaceous crops. Early prospective assessment of its potential range is possible using physiologically based demographic modeling that would have identified knowledge gaps in T. absoluta biology at low temperatures. Physiologically based demographic models (PBDMs) realistically capture the weather-driven biology in a mechanistic way allowing evaluation of invasive risk in novel areas and climes including climate change. PBDMs explain the biological bases for the geographic distribution, are generally applicable to species of any taxa, are not limited to terrestrial ecosystems, and hence can be extended to support ecological risk modeling in aquatic ecosystems. PBDMs address a lack of unified general methods for assessing and managing invasive species that has limited invasion biology from becoming a more predictive science.

     

Distribution of cryptic blue oat mite species in Australia: current and future climate conditions

• 1 Invertebrate pests, such as blue oat mites Penthaleus spp., cause significant economic damage to agricultural crops in Australia. Climate is a major driver of invertebrate species distributions and climate change is expected to shift pest assemblages and pest prevalence across Australia. At this stage, little is known of how individual species will respond to climate change.
• 2 We have mapped the current distribution for each of the three pest Penthaleus spp. in Australia and built ecological niche models for each species using the correlative modelling software, maxent . Predictor variables useful for describing the climate space of each species were determined and the models were projected into a range of future climate change scenarios to assess how climate change may alter species‐specific distribution patterns in Australia.
• 3 The distributions of the three cryptic Penthaleus spp. are best described with different sets of climatic variables. Suitable climate space for all species decreases under the climate change scenarios investigated in the present study. The models also indicate that the assemblage of Penthaleus spp. is likely to change across Australia, particularly in Western Australia, South Australia and Victoria.
• 4 These results show the distributions of the three Penthaleus spp. are correlated with different climatic variables, and that regional control of mite pests is likely to change in the future. A further understanding of ecological and physiological processes that may influence the distribution and pest status of mites is required.

     

苹果蠹蛾种群遗传多样性研究进展

苹果蠹蛾是重要的世界性果树害虫,寄主广泛,通过形成各种生态型或种群适应新入侵环境,对当地果品生产造成严重损失。本文综述了国内外有关苹果蠹蛾遗传多样性的研究进展。相关研究表明,寄主植物、地理隔离和杀虫剂等因素影响种群间的遗传多样性和遗传分化。其中,地理隔离是种群间形成遗传分化的主要原因之一,寄主分布格局、气候条件、虫体飞行能力和人为活动等因素都会影响种群间遗传分化的程度。苹果蠹蛾是我国重要的入侵害虫,我国东北地区和西北地区的苹果蠹蛾种群具有不同的遗传多样性水平,并且种群间有一定程度的分化,今后需要进一步研究影响我国苹果蠹蛾种群遗传的重要因素,明确该虫种群间分化情况、入侵来源和扩散路径,这对于延缓苹果蠹蛾在我国的扩散,制定合理有效的综合防治策略具有重要意义。     

The potential global distribution of the Bronze bug Thaumastocoris peregrinus Carpintero and Dellapé (Hemiptera: Thaumastocoridae)

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Modeling the potential global distribution of light brown apple moth Epiphyas postvittana (Lepidoptera: Tortricidae) using CLIMEX

Light brown apple moth Epiphyas postvittana is a significant horticultural pest native to Australia that currently has a limited global distribution. However, this pest can tolerate very heterogeneous climates and has a wide host range. It has recently established in California with considerable consequences for US international and domestic trade. It has resulted in increasing calls for targeted risk assessment so that appropriate quarantine measures can be put in place to prevent its entry into new regions and further spread. Potential global distribution has been predicted by comparing the climatic conditions of its native (Australia) and long-established (New Zealand) ranges to the rest of the world using CLIMEX. It was suggested that E. postvittana has potential to establish mainly in countries in Central and South America, southern Africa, Western Europe and Southeast Asia. The study provides basic information for further assessment of the establishment capacity of this species in new habitats, and adds to the knowledge required to make science-based decisions in biosecurity.     

Phylogenetic investigation of the genus Raoiella (Prostigmata: Tenuipalpidae): diversity, distribution, and world invasions

The genus Raoiella is best known because of the red palm mite, R. indica, a major pest of palms spreading aggressively throughout the Americas. Not much was known about the biology, geographic origins, or evolutionary history of the genus when R. indica emerged as a major invasive pest. This paper attempts to address some of the basic historical questions regarding the palm mite as well as the genus. Molecular characters from COI and 28S regions were used to produce a phylogenetic hypothesis for the genus in an effort to understand its geographic origin. It also uses COI barcode data to delimit several potentially new species discovered by the authors in Australia. Results show a basal split between R. indica and all other Raoiella species, which indicates Africa or the Middle East as the most probable origin of the genus. Additionally, COI data suggests that at least eight new species are represented among the 20 Australian populations included in this study.