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。     

First record of the quarantine pest Atherigona (Atherigona) oryzae Malloch (Diptera: Muscidae) in Korea

Occurrence of the invasive quarantine pest fly, Atherigona (Atherigona) oryzae Malloch, is hereby recorded for the first time in Gyeongsangbuk‐do Province, Korea. Morphological characteristics for accurate identification of the species, a list of hosts, and damage patterns are described to provide plant quarantine information for pest management.     

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。     

椰子叶螨Aceria(Eriophyes)guerreronis对我国椰子产业的风险性分析

【目的】明确刺吸式害虫椰子叶螨对我国椰子产业的风险,为该虫的检验检疫和应急防控提供参考。【方法】从椰子叶螨的国内外发生现状、潜在危害性、受害作物的经济重要性、定殖扩散的可能性以及风险管理的难度等方面,对椰子叶螨危害我国椰子产业的风险性进行定性和定量评估。【结果】椰子叶螨个体较小、传播方式多样、检疫和灭除难度较大,根据有害生物风险评估体系及多指标综合评估方法统计,该虫风险值评价指标体系R值为1.80,结合我国外来物种风险等级划分标准,属于中度危险有害生物。【结论】椰子叶螨在我国属于中度危险有害生物,对我国椰子产业具有较高的风险,需从检疫管理、检测及防控技术引进与研发等方面制定针对椰子叶螨的风险管理措施。     

严防外来有害生物褐纹甘蔗象入侵海南

【背景】褐纹甘蔗象原产于菲律宾,严重危害椰子等棕榈科植物和甘蔗,目前该虫已传入我国台湾、广东、广西和云南,尚未在海南省发生。【方法】为尽早预防该虫传入,本文简要描述了褐纹甘蔗象的生物生态学特性,并运用有害生物危险性分析(PRA)方法,从国内分布情况、潜在的经济危害性、受害寄主的经济重要性、传播扩散的可能性和危险性管理难度等方面对该虫入侵海南的可能性进行了定性和定量分析。【结果】褐纹甘蔗象在海南省的风险评估值R=2.08,属于高风险的林业有害生物,建议将其列入海南省林业检疫性有害生物名单;同时提出了该虫的综合防治措施和建议。【结论与意义】本研究可为尽早制定褐纹甘蔗象防范措施提供参考。     

警惕一种潜在的入侵性有害生物多孔曼粉蚧

【目的】明确北京口岸从泰国进口的红毛丹果实表皮中检出活体粉蚧的种类及其分类地位、分布、潜在入侵危害性等情况。【方法】通过形态特征和DNA条形码技术对截获样本进行比对鉴定,并结合相关文献对其进行综合分析。【结果】该粉蚧为多孔曼粉蚧Maconellicoccus multipori(Takahashi,1951),隶属于半翅目Hemiptera粉蚧科Pseudococcidae蔓粉蚧属Maconellicoccus。同时详细介绍了该粉蚧的形态特征,以及我国口岸对曼粉蚧属的截获情况,讨论了多孔曼粉蚧的检疫意义。【结论】口岸应对该虫引起足够的重视,加强针对该虫的检疫措施,严防该虫入侵我国。     

Host specificity testing and suitability of the parasitoidMicroctonus hyperodae (Hym.: Braconidae,Euphorinae) as a biological control agent ofListronotus bonariensis (Col.: Curculionidae) in New Zealand

The behaviour of the parasitoidMicroctonus hyperodae Loan was studied under quarantine conditions to determine its likely host range in New Zealand. The species was imported from South America as a potential biological control agent of Argentine stem weevil,Listronotus bonariensis (Kuschel). The study involved systematic evaluation of the parasitoid's behaviour when exposed to 24 non-host weevil species; all but three of these were native to New Zealand. Of those tested, four were found to sustain someM. hyperodae development. However, further examination showed that in all but one species,Irenimus aequalis (Broun), parasitoid development was impeded, with up to 50% of the larvae becoming encapsulated. Overall, those weevil species that were attacked produced only 19% of the parasitoids derived fromL. bonariensis controls. As an adjunct to this quarantine study, a review of the habitats of the native weevil and target pest populations indicated that refugia would probably exist for native alpine species. I. aequalis was not considered to be threatened byM. hyperodae as this weevil has benefited from the advent of European agricultural systems to the extent that it is now recognised as a minor pest. In view of its relatively oligophagous behaviour, the parasitoid was recommended as suitable for release.      

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.     

Areas of China predicted to have a suitable climate for Anoplophora chinensis under a climate‐warming scenario

Anoplophora chinensis (Forster) (Coleoptera: Cerambycidae) is an A1 class quarantine pest, native to China, Japan, and North Korea. The A. chinensis outbreak in China has severely affected the local environment and economic development. This study investigates potential areas in China with suitable climate for A. chinensis using historical climate data (1971–2000) and future climate‐warming estimates generated by CLIMEX1.1. These future estimates are based on simulated climate data (2010–2039) provided by the Tyndall Centre for Climate Change Research (TYN SC 2.0). The results suggest that a wide area of China will have a climate suitable for A. chinensis, and every province may contain some suitable areas for this pest. The predicted areas are distributed primarily in central and southern China, with an estimated distribution range of 18.2–49.5°N and 81.3–135.0°E. Using a global‐warming scenario and predictions based on historical climate data, the areas in China with a climate generally suitable for A. chinensis are predicted to decline, whereas the areas that are highly suitable for A. chinensis are predicted to expand particularly to the northeast and northwest. The estimated distribution range covered 18.2–49.1°N and 73.6–135.0°E. Anoplophora chinensis hosts grow in much of China; therefore, the pest could possibly establish this entire predicted area. These results support enhanced quarantine and control measures combined with stronger monitoring systems to prevent the spread and export of A. chinensis.     

树莓疫霉根腐病入侵我国的风险分析

[目的] 树莓疫霉根腐病是全球树莓种植业的最主要病害,也是我国《进境植物检疫性有害生物名录》中的检疫性病害之一。随着我国树莓引种和种植面积的不断增加,其入侵和发生的风险也在不断升高,有必要对该病传入我国风险进行分析。[方法] 采用有害生物风险分析程序对其进行安全性评估,并应用多指标综合评价方法,对树莓疫霉根腐病菌的入侵风险进行定性和定量分析,计算综合风险值后再确定其入侵的风险等级。[结果] 树莓疫霉根腐病菌是对中国树莓产业具有潜在威胁的有害生物,其综合风险值(R)为2.22。[结论] 树莓疫霉根腐病菌属于高风险的有害生物,建议我国各个种苗进境口岸的检疫部门加强对该病的检疫力度,严防其传入我国。     

中国重要检疫性实蝇的全球分布和入侵情况

实蝇是重要的蔬菜瓜果害虫。本文重点概述入侵中国实蝇的寄主植物、原产地、首次发现时间、入侵地、国内外分布和入侵扩散途径,全面整理重要检疫性实蝇的全球分布和入侵情况,同时根据全球重要检疫性实蝇的分布情况为警惕和预防实蝇入侵我国提供理论支持。本文指出,领土相邻是实蝇入侵我国的重要条件：入侵中国的实蝇原产地是中国的邻国日本、印度和泰国,最早发现地是中国的沿海和沿边地区,分别为中国台湾、广西、云南和新疆吐鲁番。寄主植物的种类数量与实蝇的分布范围正相关：橘小实蝇和瓜实蝇是多食性昆虫,分别危害305和61种植物,分别在全球83和58个国家均有发生。枣实蝇、蜜柑大实蝇和黑颜面实蝇是寡食性昆虫,只危害同属植物,仅入侵原产地周边的些许国家。随着国际瓜果贸易交流频繁,全球重要的检疫实蝇由原产地国家逐渐向周边国家扩散,其中油橄榄实蝇、桃果实蝇、埃塞尔比亚寡鬓实蝇、黑樱桃实蝇和苹果实蝇已经入侵至我国周边国家,需要警惕和预防其从沿边省份入侵我国。加强检疫和管理是防治实蝇入侵和扩散的重要手段,同时也需要中国的科研工作者进一步对世界上重大检疫实蝇的入侵风险评估、防控对策、分子鉴定和快速检测方法进行研究。     

Host range and genetic strains of leafminer flies (Diptera: Agromyzidae) in eastern Brazil reveal a new divergent clade of Liriomyza sativae

相似文献   

Ecological consequences of invasion of <Emphasis Type="Italic">Phyllonorycter issikii</Emphasis> (Lepidoptera,Gracillariidae) in lime forests in Udmurtia

The influence of the lime miner, Phyllonorycter issikii, on the productivity and reproductive parameters of the small-leaved lime Tilia cordata was studied. An increasing infestation of the host plant had a significant negative effect on the linear growth of the shoots and the radial increment of the trunk, the formation of annual rings, the number of inflorescences, and sugar content in the nectar. The latter factor may create a direct threat to the efficiency of local beekeeping. It is recommended that the lime miner be included into the list of domestic quarantine objects of the Russian Federation, and that the population state of this pest be monitored.     

Aspidiotus rigidus Reyne (Hemiptera: Diaspididae): a devastating pest of coconut in the Philippines

相似文献   

A prospective model for the phenology of Microctonus hyperodae (Hymenoptera: Braconidae), a potential biological control agent of argentine stem weevil in New Zealand

A predictive phenological model is described for the parasitoid Microctonus hyperodae, introduced to New Zealand as a potential biological control agent against Argentine stem weevil Listronotus bonariensis. The model is based on development/temperature relationships obtained from experiments on the parasitoid in quarantine prior to its release, allowing early predictions of its phenology in different parts of the target pest's New Zealand range. In particular the model was used to predict the number of parasitoid generations each year, the degree of temporal synchrony between parasitoid adults and the susceptible adult pest stage, the order of parasitism and reproduction in the pest's life cycle as a possible basis for a simplified, discrete host/parasitoid population model, and the likely significance of ecotypic differences in development and diapause characteristics of the parasitoid. These applications demonstrate the potential for simple models to help in climate matching of classical biological control agents and estimation of their interaction with pest dynamics, using data obtainable prior to their introduction and release. In addition the model proved useful as a decision aid during the release programme, by indicating the likely effects of unusual weather and the need or otherwise for further parasitoid releases.     

Concurrent application of ethyl formate and 1‐methylcyclopropene to control Tetranychus urticae on exported sweet persimmons (Diospyros kaki Thunb. ‘Fuyu’)

Extending the shelf life of fruits during post‐harvest storage and eradicating pests associated with quarantine issues could together comprise the key steps toward expanding the exportation of sweet persimmon in South Korea. Here we firstly investigated the concurrent application of ethyl formate (EF), a methyl bromide alternative fumigant, which is currently considered a beneficial and safe fumigant in quarantine use, and 1‐methylcyclopropene (1‐MCP), an anti‐ethylene compound that is broadly used in post‐harvest systems, on sweet persimmon. We also suggest the proper fumigation methods to be follow when using these compounds. Tetranychus urticae, an important quarantine pest, was inoculated under the calyx of sweet persimmon, and the fruits were then fumigated using 35.0 mg L^?1 of EF for 6 h before and after treating with 1.0 μL L^?1 of 1‐methylcyclopropene for 24 h under storage conditions of 5°C. Our results showed that concurrent treatments with 1‐MCP and EF could be suitable for commercial purposes by extending shelf life, delaying color changes and softening, and offering complete control of the target pest, Tetranychus urticae.     

The host specificity of Anomalococcus indicus Ayyar (Hemiptera: Lecanodiaspididae), a potential biological control agent for prickly acacia (Vachellia nilotica ssp. indica) in Australia

ABSTRACT

Prickly acacia, Vachellia nilotica ssp. indica (Benth.) Kyal. & Boatwr, is a significant weed of northern Australia and has been a target of weed biological control in Australia since the 1980s. Following native range surveys in India, the scale insect Anomalococcus indicus Ayyar was identified as the most promising agent and was imported into Australia for further research. A. indicus is a major pest of prickly acacia on the Indian subcontinent, where it causes shoot tip dieback and plant death. Despite field observations suggesting the species was specific to V. nilotica, A. indicus completed development on 17 of the 84 non-target plant species tested during no-choice host specificity trials under quarantine conditions. Of these, Acacia falcata, V. bidwillii, V. sutherlandii and Neptunia major supported high numbers of mature females in all replicates. All of these species were utilised in choice trials. Combined risk scores indicate that V. sutherlandii, N. major and A. falcata may be attacked in the field. Due to the limited ability of scale insects to disperse, only those non-target species that occur on the Mitchell grass downs (i.e. V. sutherlandii) are considered to be at risk. Nevertheless, in view of the disparity between quarantine test results and the observed field host specificity of A. indicus in India, field trials are currently being conducted in India using Australian native species on which complete development has occurred. The future of A. indicus as a biological control agent for prickly acacia in Australia will be determined once results from these field trials are known.     

欧洲球螋的检疫

北京出入境检验检疫局从美国进境旅客携带的石榴中检出欧洲球螋。了解欧洲球螋的基本特性,能为相关部门对其检疫鉴定提供参考依据。对欧洲球螋的相关文献进行了查阅和整理,详细介绍了欧洲球螋的分类地位、分布、形态特征及近似种等信息,我国出入境检验检疫部门对球螋属的截获情况,讨论了欧洲球螋的检疫意义。认为欧洲球螋在我国无分布且具有一定的入侵风险,口岸应对该虫引起足够的重视。     

警惕芒果蛎蚧Lepidosaphes tapleyi(同翅目:盾蚧科)传入中国

【背景】芒果蛎蚧属于盾蚧类昆虫,食性杂,分布广,是危害热带和亚热带水果、蔬菜和园林植物的重要害虫,主要随水果、苗木和交通工具等介质进行远距离传播。该虫被列入中华人民共和国进境植物检疫性有害生物名录。惠州口岸于2014年12月从芬兰进境的货物中截获该虫,属于我国口岸首次截获。【方法】在收集整理芒果蛎蚧的生物学、地理学等信息的基础上,介绍了芒果蛎蚧的主要形态特征、地理分布、寄主植物和生物学特性,并分析了该有害生物入侵我国的风险。【结果】芒果蛎蚧雌成虫为椭圆形,长约1.2 mm,触角每侧有1根长毛,每侧前气门有3个盘状腺,形态特征与近似种Lepidosaphes camelliae和Lepidosaphes pallida非常相似。风险分析表明,我国广东、广西、海南、云南、福建、台湾以及四川等省非常适合芒果蛎蚧生存和危害。芒果蛎蚧入侵我国会给芒果等果树造成危害,给相关产业带来损失,影响从业人员收入,还影响生态环境,可能导致生态灾难。【结论与意义】芒果蛎蚧有入侵我国的可能,加强检疫是防范该虫入侵的主要手段,生物防治是治理该虫的重要措施。