花曲柳窄吉丁的寄主植物范围、危害和防治对策

花曲柳窄吉丁(emerald ash borer, EAB) Agrilus planipennis Fairmaire是木犀科（Oleaceae）梣属Fraxinus植物树木的毁灭性蛀干害虫,目前发现其主要危害欧梣亚属Subgen. Fraxinus欧梣组(Section Fraxinus)和象蜡树组（Section Meliodes）的一些树木种类,如美国白蜡Fraxinus americana、洋白蜡F. pennsylvanica var subintegerrima、绒毛白蜡F. velutina、黑白蜡F. nigra和水曲柳F. mandshurica等。与早期文献上的记载不同,很少发现花曲柳窄吉丁对苦枥木亚属Subgen. Ornus白蜡树组(Section Ornaster)的白蜡树F. chinensis Roxb和花曲柳F. rhynchophylla造成危害。不同寄主白蜡树对花曲柳窄吉丁的敏感性不同,洋白蜡、绒毛白蜡等北美白蜡树种受其危害重于亚洲的水曲柳。这可能是由于长期的适应进化,分布在亚洲地区的梣属寄主树木发展了对花曲柳窄吉丁的抗虫性。中国部分地区发生的花曲柳窄吉丁灾害应该归属于引进的北美白蜡树种对本地害虫敏感所致。在天津、黑龙江、吉林、辽宁、河北、山东、四川、台湾、内蒙古和新疆等省市和自治区,都曾发现花曲柳窄吉丁的危害或分布。白蜡属树木广泛分布于我国除了青藏地区和海南省之外的大部分地区,其中大面积引种北美白蜡树种的北方和西北地区,以及近年来种植发展水曲柳的东北地区都是花曲柳窄吉丁这种毁灭性蛀干害虫的潜在发生地。花曲柳窄吉丁在我国部分地区为检疫性林业害虫,做好检疫是杜绝其扩散蔓延的首要方法。我国局部地区出现花曲柳窄吉丁灾害说明,北美白蜡树种在我国的适应性还需要进行更进一步科学的全面的风险评估,在我国生态建设中应重视利用我国本地的白蜡树种。在花曲柳窄吉丁灾害的治理中,可采用营造混交林以降低蔓延的速度和发挥自然控制能力,加强肥水管理以增强树木的抗虫能力,清除被害木消灭虫源,以及幼虫期树干注射、成虫期喷洒化学农药等防治措施。     

中国白蜡窄吉丁研究进展

白蜡窄吉丁Agrilus planipennis Fairmaire是近年来发生和影响比较严重的国际性检疫害虫,主要危害白蜡属(Fraxinus spp.)树木。它以幼虫在树木的韧皮部、形成层和木质部浅层蛀食,从而切断树木的营养输导组织,导致树木衰弱死亡。为了深入了解该害虫,探索合理的治理策略,本文对国内外有关白蜡窄吉丁的生物学特性,包括生活习性、生活史、分布与危害、寄主范围等方面以及防治技术的研究进展进行了系统总结,并讨论了白蜡窄吉丁今后的研究方向和研究趋势。     

Progress in research on the emerald ash borer Agrilus planipennis in China

白蜡窄吉丁Agrilus planipennis Fairmaire是近年来发生和影响比较严重的国际性检疫害虫,主要危害白蜡属(Fraxinus sPP.)树木.它以幼虫在树木的韧皮部、形成层和木质部浅层蛀食,从而切断树木的营养输导组织,导致树木衰弱死亡.为了深入了解该害虫,探索合理的治理策略,本文对国内外有关白蜡窄吉丁的生物学特性,包括生活习性、生活史、分布与危害、寄主范围等方面以及防治技术的研究进展进行了系统总结,并讨论了白蜡窄吉丁今后的研究方向和研究趋势.     

利用改进方法预测白蜡窄吉丁在国内的适生区

白蜡窄吉丁Agrilus planipennis在我国正由一种本土次要害虫上升为主要害虫,明确其可能的适生范围、指导各地区及早采取防范措施非常必要.本研究考虑气候、寄主树种分布、气候-寄主树种分布综合数据分别构建模型进行白蜡窄吉丁潜在适生区预测和分析,以期建立一种能够更加准确预测钻蛀类害虫潜在分布区的改进方法.除气候条件外,寄主树种的分布是影响白蜡窄吉丁分布的重要因素,应参与蛀干类昆虫适生区的预测.将非生物因素(气候)以及生物因素(寄主树种分布)作为单一变量时得到的预测结果进行叠加,更加符合白蜡窄吉丁分布现状和生存特性.白蜡窄吉丁在我国仍有继续向中部、南部等未发生区传播扩散的风险,限制敏感寄主树种的栽植是有效防范该虫危害的重要手段.     

外来树种对本地林业虫害的诱发作用

白蜡窄吉丁、萧氏松茎象、光肩星天牛、黄斑星天牛、云斑天牛和桑天牛等林业害虫均为我国本地林业生态系统中的昆虫种类,在北美白蜡树、北美松树和北美黑杨派杨树等外来树种引入和大量栽培之前,一直没有形成严重的危害,以至于白蜡窄吉丁和萧氏松茎象都没有引起人们的关注。这些重要林业害虫在我国的发生都是伴随着敏感外来树种的引进和大量不合理的种植而逐渐严重起来的。本文对外来树种的引进与本地林业虫害的发生之间的关系进行了分析,提出了外来树种的不合理引进可能诱发本地林业新虫害的观点,并对其发生机理以及相应的研究和治理对策进行了讨论。     

白蜡吉丁柄腹茧蜂的羽化和产卵与寄主之间的关系

白蜡窄吉丁是危害白蜡属树木的一种重要蛀干害虫,因其幼虫期高度的隐蔽性生活而极难检测和防治.白蜡吉丁柄腹茧蜂是新发现外寄生于白蜡窄吉丁幼虫的优势天敌种,对寄主害虫的控制作用较强,具有良好的生物防治利用前景.研究调查了白蜡吉丁柄腹茧蜂及其寄主白蜡窄吉丁越冬代成虫羽化的时序差异、不同时期林间的寄生率、寄主密度与寄生率的关系以及寄主幼虫大小与茧蜂产卵量的关系.结果表明,越冬后白蜡吉丁柄腹茧蜂的羽化时间比其寄主害虫白蜡窄吉丁的羽化要晚1个多月.2003年白蜡吉丁柄腹茧蜂越冬代成虫的羽化从6月中旬持续到8月中旬,羽化高峰期在7月份;寄主白蜡窄吉丁的羽化期在5月中下旬.2004年白蜡吉丁柄腹茧蜂越冬代成虫的羽化从5月下旬持续到7月下旬,羽化高峰期在6月下旬至7月上旬;寄主羽化期在4月中旬至5月中旬（室内）.越冬后天敌的羽化时间刚好适应最早寄主发育到可供寄生的龄期,这是二者长期协同进化的结果,也表明白蜡吉丁柄腹茧蜂很可能是一种专性寄生蜂.林间白蜡吉丁柄腹茧蜂对白蜡窄吉丁幼虫的自然寄生率随着时间的推移总体上是逐步上升的.自然条件下茧蜂决定是否产卵与寄主幼虫的大小即龄期有关,它仅在前胸宽和体宽1.5 mm、体长12 mm以上,即3～4龄的寄主幼虫体表产卵,但只要接受寄主并产卵,不同龄期寄主幼虫上的产卵量无显著的差异.     

一种有效防控白蜡窄吉丁的阻隔网技术

[目的]白蜡窄吉丁Agrilus planipennis Fairmaire是一种危害极隐蔽、具有毁灭性的林木蛀干害虫.北京市延庆区栽植的洋白蜡Fraxinus pennsylvanica,受白蜡窄吉丁危害严重,当地林业保护站积极采取多种防控措施,其中阻隔网作为一种新的防控方法,可有效控制白蜡窄吉丁的危害.本研究调查不同防控管理措施林地内洋白蜡的受害情况,并估算不同管理措施所需的费用,以期评价阻隔网技术的防治效果.[方法]2017-2019年,在北京市延庆区选择使用阻隔网防治白蜡窄吉丁(样地1)、伐除受害严重的白蜡树后更植其它树种(样地2)和仅伐除受害严重的白蜡树(样地3)的样地3块,调查各样地内洋白蜡受害情况,调查指标包括:树冠枝枯梢率、树冠活力等级、羽化孔数量、萌蘖枝条数量和啄木鸟刻痕数.通过Tukey检验对各样地内地面调查指标进行差异性比较,并统计不同防控措施下每年单位面积样地的防治成本.[结果]样地1内白蜡保存率(100％)高于样地2(80％)和样地3(34％),且样地1的白蜡受害情况在树冠枝枯梢率、树冠活力等级、羽化孔数量、萌蘖枝条数量和啄木鸟刻痕数指标上显著低于样地2和样地3.样地1每年单位面积的防治成本为2150元/hm2,低于样地2(5625元/hm2)和样地3(5720元/hm2).[结论]使用阻隔网防治白蜡窄吉丁成效显著,且防治成本低,建议今后可与其它无公害防治技术相结合进行害虫综合治理.     

白蜡窄吉丁幼虫及其天敌在空间格局上的关系

调查了白蜡窄吉丁幼虫与其寄生性天敌白蜡吉丁柄腹茧蜂和捕食性天敌啄木鸟啄食白蜡窄吉丁的啄痕在空间格局上的规律.结果表明,在林间水平方向上,白蜡窄吉丁幼虫呈聚集分布,白蜡吉丁柄腹茧蜂和啄木鸟的啄痕也表现为聚集分布;在垂直方向上,白蜡窄吉丁幼虫分布于地面至3.37m以下的树干,主要集中于1.0m左右的主干,天敌也集中在此范围内活动.     

白蜡吉丁肿腿蜂的生物学和生态学特性及繁殖技术研究

采用室内测定并结合林间实地调查的方法,研究了新发现的寄生于蛀干害虫白蜡窄吉丁的外寄生蜂——白蜡吉丁肿腿蜂Sclerodermus pupariae Yang et Yao的生物学特性及其人工繁殖技术。结果表明,白蜡吉丁肿腿蜂外寄生于白蜡窄吉丁的幼虫和蛹及预蛹,是自然控制该害虫的一种重要寄生蜂,自然寄生率为13.9%左右。该蜂在天津1年发生5代,世代重叠明显,寿命长。白蜡吉丁肿腿蜂的卵、幼虫、茧蛹期和全世代的发育起点温度分别为（16.89±0.79）℃,（17.03±1.42）℃,（16.90±1.68）℃和（15.31±0.47）℃。有效积温分别为（33.82±4.13）日·度、（49.11±7.93）日·度、（128.88±27.87）日·度和（277.00±14.15）日·度。雌性成蜂易于低温保存,对寄主有较强的搜索力和攻击力。繁蜂寄主容易大量获得,是生物防治白蜡窄吉丁的重要理想天敌之一。     

隔离饲养对白蜡窄吉丁成虫寿命和繁殖力的影响

白蜡窄吉丁Agrilus planipennis Fairmaire是近年来发生和危害严重的国际性检疫害虫。为了了解不同饲养条件和种内个体间相互感知对成虫生物学的影响, 本研究采用群体饲养、 单对饲养、 无隔离单雌饲养、 视觉隔离单雌饲养和嗅觉隔离单雌饲养等5种处理, 在室内测定了白蜡窄吉丁成虫的寿命、 取食量、 产卵量和产卵历期等参数的变化。结果显示： 隔离饲养降低了白蜡窄吉丁成虫的寿命和繁殖力, 且不同处理下白蜡窄吉丁成虫的寿命和取食量均存在显著差异（P<0.05）, 但产卵量的差异不明显（P>0.05）。其中无隔离单雌饲养时成虫的平均寿命最长, 为32.40 d, 群体饲养的寿命最短, 为20.77 d, 且单雌饲养的寿命均比单对饲养和群体饲养的长。单雌饲养的3种情况下, 视觉隔离条件下的日均取食量最大, 为156.16 mm², 嗅觉隔离的最小, 为107.35 mm²; 无隔离饲养条件下雌虫的产卵量最大, 产卵历期也最长, 分别为98.33 d和21.33 d。这些研究结果表明, 白蜡窄吉丁种内个体间相互感知的阻断对成虫的取食、 发育和繁殖活动存在明显影响, 且嗅觉在其种群内的交流活动中作用最重要, 其次是视觉。此外, 个体之间的相互干扰或竞争对白蜡窄吉丁成虫的寿命和繁殖力也可能存在一定的影响。这为生产上采用隔离措施如营造混交林带防治该虫提供了理论基础。     

Genetic analysis of emerald ash borer (<Emphasis Type="Italic">Agrilus planipennis</Emphasis> Fairmaire) populations in Asia and North America

Emerald ash borer (EAB), Agrilus planipennis Fairmaire (Coleoptera: Buprestidae), is an invasive pest of North American ash (Fraxinus spp.) trees first discovered outside of its native range of northeastern Asia in 2002. EAB spread from its initial zone of discovery in the Detroit, Michigan and Windsor, Ontario metropolitan areas, in large part, from inadvertent human-assisted movement of infested ash materials. EAB infestations are now known in 15 US states and two Canadian provinces. The primary goal of this study was to use molecular markers to characterize the population genetic structure of EAB in its native and introduced range. This information may provide valuable insights on the geographic origin, potential host range, invasion potential, and additional biological control agents for ongoing management efforts of this destructive wood-boring beetle. EAB were collected from 17 localities in its native Asian range and from 7 localities in North America, and population structure analyzed using mtDNA gene sequences, AFLP fingerprints, and alleles at 2 microsatellite loci. Analysis of mtDNA cytochrome oxidase subunit I gene (COI; 439 bp) sequences revealed all North American individuals carry a common mtDNA haplotype also found in China and South Korea. Additional mtDNA haplotypes observed in China and South Korea differed from the common haplotype by 1–2 nucleotide substitutions and a single individual from Japan differed by 21 nucleotide changes (4.8%). Analysis using AFLP fingerprints (108 loci) indicated Asian populations were more highly variable, yet had less overall population structure, than the North American populations. North American populations appear most closely related to populations in our sample from the Chinese provinces of Hebei and Tianjin City. Further, population assignment tests assigned 88% of the individual beetles from North America to either Hebei or Tianjin City.     

A new forest pest in Europe: a review of Emerald ash borer (Agrilus planipennis) invasion

In this publication, we review the biology, ecology, invasion history, impacts and management options of Emerald ash borer (EAB) Agrilus plannipennis, with a particular focus on its invasion in Europe. Agrilus planipennis (EAB) is a wood‐boring beetle native to East Asia. Having caused massive damages on ash species in North America in the last decades, it was first recorded in Europe in 2003 in Russia (Moscow). All ash (Fraxinus) species native to Europe and North America are known to be susceptible to EAB attacks, which cause high tree mortality even among formerly healthy trees. Recorded expansion rates are between 2.5 and 80 km/year in North America and between 13 and 41 km/year in European Russia. Given current expansion rates, EAB is expected to reach Central Europe within 15–20 years. A combination of mechanical, biological and chemical control and phytosanitary measures may reduce its impact, which nevertheless most likely will be substantial. There is an urgent need to identify native enemies in Europe, to test suitable biocontrol agents and to develop early detection and management measures. Although it is obvious that EAB will become a major pest in Europe, early and dedicated response will likely be able to reduce the level of ash mortality, and thus improve the opportunity for long‐term survival of ash as an important component in European forests.     

Microsatellite population genetics of the emerald ash borer (Agrilus planipennis Fairmaire): comparisons between Asian and North American populations

The emerald ash borer (EAB) (Agrilus planipennis Fairmaire) (Coleoptera; Buprestidae), is an invasive wood-boring beetle native to northeast Asia. This species was first detected in Michigan USA in 2002, and is a significant threat to native and ornamental ash tree species (Fraxinus spp.) throughout North America. We characterized seven polymorphic microsatellite markers for EAB and used these to investigate EAB population structure in the early invasive populations within North America and in comparison with Asia. We found 2–9 alleles per microsatellite locus, no evidence of linkage disequilibrium, and no association with known coding sequences, suggesting that these markers are suitable for population genetic analysis. Microsatellite population genetic structure was examined in 48 EAB populations sampled between 2003 and 2008 from five regions, three in the introduced range, Michigan (US) and Ontario and Quebec (Canada) and two Asian regions, China and South Korea, where EAB is native. We found significant genetic variation geographically but not temporally in EAB populations. Bayesian clustering analyses of individual microsatellite genotypes showed strong clustering among multiple North American populations and populations in both China and South Korea. Finally, allelic richness and expected heterozygosity were higher in the native range of EAB, but there was no difference in observed heterozygosity, suggesting a significant loss of alleles upon introduction but no significant change in the distribution of alleles within and among individuals.     

The red turpentine beetle, <Emphasis Type="Italic">Dendroctonus valens</Emphasis> LeConte (Scolytidae): an exotic invasive pest of pine in China

An exotic invasive pest of pines, the red turpentine beetle, Dendroctonus valens LeConte (Scolytidae) (RTB), was first detected in Shanxi Province, northern China, in 1998 and started causing widespread tree mortality there in 1999. This outbreak continues and has spread to three adjacent provinces, causing unprecedented tree mortality. Although it is considered a minor pest of pines in North America, RTB has proven to be an aggressive and destructive pest of Pinus tabuliformis, China’s most widely planted pine species. The bionomics and occurrence, distribution, response to host volatiles, and host preference of this pine beetle in China are compared with what is known of the beetle in its native range in North America. Factors likely contributing to D. valens success in China and control of the beetle outbreak are discussed. (−)-β-pinene was shown to be the most attractive host volatile for D. valens from the Sierra Nevada of California, whereas 3-(+)-carene is the most attractive host volatile for beetles in China. Monocultures of Pinus tabuliformis, several consecutive years of drought conditions and warm winters have apparently factored D. valens invasion and establishment in China.     

North American arthropods at risk due to widespread Fraxinus mortality caused by the Alien Emerald ash borer

Emerald ash borer (Agrilus planipennis Fairmaire) (EAB), an alien invasive wood-boring buprestid beetle, is causing large-scale decline and mortality of the most widely distributed species of ash (Fraxinus spp.) trees endemic to eastern North America. We determined which arthropod species that are associated with ash may become threatened, endangered, and co-extinct with the demise of ash as a dominant tree species. A literature survey revealed that 43 native arthropod species in six taxonomic groups (Arachnida: Acari; Hexapoda: Coleoptera, Diptera, Hemiptera, Hymenoptera, and Lepidoptera) are known to be associated only with ash trees for either feeding or breeding purposes, and thus face high risk of endangerment. Most of these species are gall-formers followed by folivores, subcortical phloem/xylem feeders, sap feeders, and seed predators. Another 30 arthropod species are associated with 1–2 host plants in addition to ash, and herbivory on these hosts may increase as these arthropods shift from declining ash trees. Extirpation of arthropods dependent upon ash may unleash multiple extinctions of affiliated species with which they may be inextricably linked. The demise of North American ash species due to EAB is expected to lead to biotic loss with cascading ecological impacts and altered processes within forested ecosystems.     

Decreased emergence of emerald ash borer from ash treated with methyl jasmonate is associated with induction of general defense traits and the toxic phenolic compound verbascoside

The emerald ash borer (EAB; Agrilus planipennis Fairmaire) is causing widespread mortality of ash (Fraxinus spp.) in North America. To date, no mechanisms of host resistance have been identified against this pest. Methyl jasmonate was applied to susceptible North American and resistant Asian ash species to determine if it can elicit induced responses in bark that enhance resistance to EAB. In particular, phenolic compounds, lignin, and defense-related proteins were quantified, and compounds associated with resistance were subsequently tested directly against EAB larvae in bioassays with artificial diet. MeJA application decreased adult emergence in susceptible ash species, comparable to levels achieved by insecticide application. Concentration of the phenolic compound verbascoside sharply increased after MeJA application to green and white ash. When incorporated in an artificial diet, verbascoside decreased survival and growth of EAB neonates in a dose-dependent fashion. Lignin and trypsin inhibitors were also induced by MeJA, and analogs of both compounds reduced growth of EAB larvae in artificial diets. We conclude that the application of MeJA prior to EAB attack has the ability to enhance resistance of susceptible ash trees by inducing endogenous plant defenses, and report evidence that induction of verbascoside is a mechanism of resistance to EAB.     

Quantifying the Impact of Woodpecker Predation on Population Dynamics of the Emerald Ash Borer (Agrilus planipennis)

The emerald ash borer (EAB), Agrilus planipennis, is an invasive beetle that has killed millions of ash trees (Fraxinus spp.) since it was accidentally introduced to North America in the 1990s. Understanding how predators such as woodpeckers (Picidae) affect the population dynamics of EAB should enable us to more effectively manage the spread of this beetle, and toward this end we combined two experimental approaches to elucidate the relative importance of woodpecker predation on EAB populations. First, we examined wild populations of EAB in ash trees in New York, with each tree having a section screened to exclude woodpeckers. Second, we established experimental cohorts of EAB in ash trees in Maryland, and the cohorts on half of these trees were caged to exclude woodpeckers. The following spring these trees were debarked and the fates of the EAB larvae were determined. We found that trees from which woodpeckers were excluded consistently had significantly lower levels of predation, and that woodpecker predation comprised a greater source of mortality at sites with a more established wild infestation of EAB. Additionally, there was a considerable difference between New York and Maryland in the effect that woodpecker predation had on EAB population growth, suggesting that predation alone may not be a substantial factor in controlling EAB. In our experimental cohorts we also observed that trees from which woodpeckers were excluded had a significantly higher level of parasitism. The lower level of parasitism on EAB larvae found when exposed to woodpeckers has implications for EAB biological control, suggesting that it might be prudent to exclude woodpeckers from trees when attempting to establish parasitoid populations. Future studies may include utilizing EAB larval cohorts with a range of densities to explore the functional response of woodpeckers.     

Factors affecting the survival of ash (Fraxinus spp.) trees infested by emerald ash borer (Agrilus planipennis)

Emerald ash borer (Agrilus planipennis) (EAB), an Asian woodboring beetle accidentally introduced in North America, has killed millions of ash (Fraxinus spp.) trees and is spreading rapidly. This study examined the effects of tree- and site-level factors on the mortality of ash trees in stands infested by EAB in OH, USA. Our data show that ash populations in forested sites can progress from healthy to almost complete mortality of mature trees within 6 years. Although the end result of nearly complete mortality does not vary, survival analysis with 5 years of data showed that some factors affected the rate of mortality. We found more rapid mortality in stands with lower densities of ash trees. This finding supports an extension of the resource dilution hypothesis whereby concentration of EAB on few trees in low ash density areas leads to rapid decline of these trees. This contradicts an extension of the resource concentration theory that greater host density increases relative pest abundance and host mortality. Although reductions in ash density via diversification may be desirable for other silvicultural, conservation, and management objectives in preparation for EAB, our study shows that the management strategy of reducing ash density is unlikely to protect the remaining ash trees. Survival analysis also showed that mortality was more rapid for trees shaded by other trees and for trees initially exhibiting dieback. In management scenarios where hazard tree removal must be spread over several years due to budget constraints, focusing initial tree removal on stressed trees is recommended.     

Rail transport as a vector of emerald ash borer

1. The emerald ash borer (EAB) Agrilus planipennis Fairmaire (Coleoptera: Buprestidae) is an invasive woodboring beetle native to northeastern Asia that continues to expand its range within North America and European Russia. The insect reproduces within and kills most North American species of ash Fraxinus spp.
2. Because both the adult and larval life stages of EAB are difficult to detect prior to development of tree symptoms, much work has focused on quantifying spread and clarifying the potential movement pathways to improve early detection and monitoring strategies.
3. In the present study, we retrospectively analyzed county‐level infestations of emerald ash borer in the state of Iowa, U.S.A., subsequent to the initial detection of EAB in 2010. Visual data analysis had suggested that new infestations were not in accordance with the expected patterns of establishment along roads, near campgrounds or by large population centres.
4. We found a positive correlation between the establishment and detection of EAB in Iowa counties and the length of railroads in each county. To our knowledge, this is the first statistically significant association between rail pathways and the spread of EAB on the North American continent.