Montgomery和Shiyake,2011年(鞘翅目:齿形目)和Laricobius nigrinus Fender,1945年和Laricobius rubidus LeConte,1861年使用前体形态学区分成年Laricobis osakensis

IF 0.6 4区 农林科学 Q4 ENTOMOLOGY
Carrie S. Jubb, Kari E. Stanley, J. Foley, S. Salom
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Operational releases of Laricobius nigrinus Fender, 1945 (Coleoptera: Derodontidae), a western North American native, were initiated in the eastern U.S. in 2003 as a part of a biological control program implemented by the United States Department of Agriculture, Forest Service (Mausel et al. 2010, Onken & Reardon 2011). This species has been highly effective at establishing and dispersing from original release sites (Mausel et al. 2010, Davis et al. 2012, Foley et al. 2019, Jubb et al. 2021), and has exhibited high rates of impact on the overwintering sistens generation of HWA (Mayfield et al. 2015, Jubb et al. 2020). After years of focused effort on the production and release of L. nigrinus, attention was directed towards a Japanese native congener, Laricobius osakensis Montgomery and Shiyake, 2011 (Foley et al. 2021). This species was of particular interest to this biological control program because it had coevolved with the lineage of HWA that was introduced into the eastern U.S. (Havill et al. 2006, Montgomery et al. 2011). The first releases of L. osakensis were conducted in 2012 (Mooneyham et al. 2016), and establishment at many locations has been confirmed (Toland et al. 2018, Virginia Tech 2022). Production and release of L. osakensis continues at two state rearing facilities: Virginia Tech and the University of Tennessee (Foley et al. 2021). A third species, Laricobius rubidus LeConte, 1861 is the only Laricobius species native to eastern North America (Clark & Brown 1960) and preferentially feeds on pine bark adelgid, Pineus strobi Hartig, 1839 (Hemiptera: Adelgidae), a specialist herbivore of white pine, Pinus strobus L. (Pinaceae) (Doane 1961). In areas where hemlock and white pine co-occur, this species is known to feed and develop on HWA (Zilahi-Balogh et al. 2005, Wantuch et al. 2019). Laricobius rubidus and L. nigrinus are closely related sister species that can hybridize and produce viable progeny (Havill et al. 2012, Fischer et al. 2015a). Laricobius nigrinus has become ubiquitous in many locations in the eastern U.S. due to consistent yearly releases and subsequent establishment and dispersal. As a result, it is often inadvertently brought into rearing labs with its native congener, L. rubidus, and associated hybrids on HWA infested hemlock branches used to maintain laboratory colonies of L. osakensis (Foley et al. 2021). Typically, this by-catch appears in March and April when larvae are active in the field. 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引用次数: 0

摘要

(Franz 1958, Clark & Brown 1960, Leschen 2011, Montgomery et al. 2011)。本文利用两种落叶松蝇作为生物防治剂,对铁杉绵蚜(Adelges tsugae Annand, 1928)进行了防治。HWA原产于中国大陆、日本、台湾和北美西部,但无意中从日本引入美国东部(Havill et al. 2006), 1951年在弗吉尼亚州里士满首次发现(Gouger 1971, Stoetzel 2002)。HWA对其引种地的两种本地铁杉(Tsuga canadensis, L.)造成了严重的危害和死亡。松科卡罗尼亚和卡罗尼亚。北美西部原生物种Laricobius nigrinus Fender, 1945 (Coleoptera: Derodontidae),作为美国农业部林业局实施的生物防治计划的一部分,于2003年在美国东部开始实施(Mausel et al. 2010, Onken & Reardon 2011)。该物种在建立和分散原始放生地点方面非常有效(Mausel等人,2010年,Davis等人,2012年,Foley等人,2019年,Jubb等人,2021年),并且对HWA的越冬雌虫产生了很高的影响(Mayfield等人,2015年,Jubb等人,2020年)。在对黑乳杆菌的生产和释放进行了多年的重点研究之后,人们将注意力转向了日本本土的同系物Laricobius osakensis Montgomery和Shiyake, 2011 (Foley et al. 2021)。该物种对生物防治计划特别感兴趣,因为它与引入美国东部的HWA谱系共同进化(Havill et al. 2006, Montgomery et al. 2011)。2012年进行了第一次放生(moonyham et al. 2016),并在许多地点确定了放生(Toland et al. 2018, Virginia Tech 2022)。在弗吉尼亚理工大学和田纳西大学这两家州立饲养机构,继续生产和放养L. osakensis (Foley et al. 2021)。第三种,Laricobius rubidus LeConte, 1861年,是唯一一种原产于北美东部的Laricobius物种(Clark & Brown 1960),它优先以松树树皮为食,Pinus strobi Hartig, 1839年(半翅目:松树科),一种专门食草的白松,Pinus strobus L.(松科)(Doane 1961)。在铁杉和白松共存的地区,已知该物种以HWA为食和发育(Zilahi-Balogh et al. 2005, Wantuch et al. 2019)。Laricobius rubidus和L. nigrinus是亲缘关系较近的姐妹种,可以杂交并产生可存活的后代(Havill et al. 2012, Fischer et al. 2015a)。由于每年持续的释放和随后的建立和分散,黑松毛虫在美国东部的许多地方变得无处不在。因此,它经常被无意中与其本地同系物L. rubidus和相关杂交种一起带到饲养实验室,这些杂交种被HWA侵染的铁杉树枝上,用于维持L. osakensis的实验室菌落(Foley et al. 2021)。通常,这种副渔获出现在3月和4月,此时幼虫在田间活跃。每个物种和/或杂交的幼虫在形态上难以区分,这使科学笔记相当复杂
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Distinguishing adult Laricobius osakensis Montgomery & Shiyake, 2011 (Coleoptera: Derodontidae) from Laricobius nigrinus Fender, 1945 and Laricobius rubidus LeConte, 1861 using pronotal morphology
of the family Adelgidae (Franz 1958, Clark & Brown 1960, Leschen 2011, Montgomery et al. 2011). Two Laricobius species have been utilized as biological control agents for the management of hemlock woolly adelgid (HWA), Adelges tsugae Annand, 1928 (Hemiptera: Adelgidae). HWA is native to Mainland China, Japan, Taiwan, and western North America but was inadvertently introduced into the eastern United States from Japan (Havill et al. 2006) with its first detection being in Richmond, Virginia in 1951 (Gouger 1971, Stoetzel 2002). HWA causes significant damage and mortality to two native hemlock species in its introduced range: Tsuga canadensis (L.) Carriére (Pinaceae) and Tsuga caroliniana Engelmann. Operational releases of Laricobius nigrinus Fender, 1945 (Coleoptera: Derodontidae), a western North American native, were initiated in the eastern U.S. in 2003 as a part of a biological control program implemented by the United States Department of Agriculture, Forest Service (Mausel et al. 2010, Onken & Reardon 2011). This species has been highly effective at establishing and dispersing from original release sites (Mausel et al. 2010, Davis et al. 2012, Foley et al. 2019, Jubb et al. 2021), and has exhibited high rates of impact on the overwintering sistens generation of HWA (Mayfield et al. 2015, Jubb et al. 2020). After years of focused effort on the production and release of L. nigrinus, attention was directed towards a Japanese native congener, Laricobius osakensis Montgomery and Shiyake, 2011 (Foley et al. 2021). This species was of particular interest to this biological control program because it had coevolved with the lineage of HWA that was introduced into the eastern U.S. (Havill et al. 2006, Montgomery et al. 2011). The first releases of L. osakensis were conducted in 2012 (Mooneyham et al. 2016), and establishment at many locations has been confirmed (Toland et al. 2018, Virginia Tech 2022). Production and release of L. osakensis continues at two state rearing facilities: Virginia Tech and the University of Tennessee (Foley et al. 2021). A third species, Laricobius rubidus LeConte, 1861 is the only Laricobius species native to eastern North America (Clark & Brown 1960) and preferentially feeds on pine bark adelgid, Pineus strobi Hartig, 1839 (Hemiptera: Adelgidae), a specialist herbivore of white pine, Pinus strobus L. (Pinaceae) (Doane 1961). In areas where hemlock and white pine co-occur, this species is known to feed and develop on HWA (Zilahi-Balogh et al. 2005, Wantuch et al. 2019). Laricobius rubidus and L. nigrinus are closely related sister species that can hybridize and produce viable progeny (Havill et al. 2012, Fischer et al. 2015a). Laricobius nigrinus has become ubiquitous in many locations in the eastern U.S. due to consistent yearly releases and subsequent establishment and dispersal. As a result, it is often inadvertently brought into rearing labs with its native congener, L. rubidus, and associated hybrids on HWA infested hemlock branches used to maintain laboratory colonies of L. osakensis (Foley et al. 2021). Typically, this by-catch appears in March and April when larvae are active in the field. Larvae of each species and/ or hybrids are morphologically indistinguishable, which complicates considerably the Scientific Note
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来源期刊
Pan-Pacific Entomologist
Pan-Pacific Entomologist 生物-昆虫学
CiteScore
0.50
自引率
20.00%
发文量
47
审稿时长
>12 weeks
期刊介绍: The Pan-Pacific Entomologist (ISSN 0031-0603) is published quarterly (January, April, July and October) by the Pacific Coast Entomological Society, in cooperation with the California Academy of Sciences. The journal serves as a refereed publication outlet and accepts manuscripts on all aspects of the biosystematics of insects and closely related arthropods, especially articles dealing with their taxonomy, biology, behavior, ecology, life history, biogeography and distribution. Membership in the Pacific Coast Entomological Society includes subscription to The Pan-Pacific Entomologist, and Society Proceedings typically appear in the October issue of each volume.
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