悬铃木方翅网蝽发生为害调查与防治

悬铃木方翅网蝽是一种外来入侵害虫,该虫近几年在石家庄发生普遍,为害严重.调查了悬铃木方翅网蝽在石家地区的寄主植物、为害特点和发生规律,观察描述了其形态特征、生活史和生活习性,测试分析了树冠喷施不同药剂对悬铃木方翅网蝽的防效.     

悬铃木方翅网蝽生物学、化学生态学及防治研究进展

悬铃木方翅网蝽Corythucha ciliata是一种入侵性害虫,专一性为害悬铃木属植物,导致寄主植物叶片褪绿变色、提前脱落,给园林绿化带来严重为害。该虫原产北美,20世纪60年代传入欧洲,2002年在我国湖南省首次发现,目前其分布范围已扩大到湖北、上海、山东、河南和北京等地,并在多地呈暴发态势。悬铃木方翅网蝽有较强的环境适应能力,对高温和低温均有较好耐性。近年来,有关悬铃木方翅网蝽信息素的研究逐渐引起人们的关注,部分生物活性分子和嗅觉分子机制已被解析,为制定该虫的生态防治措施提供了依据。本文综述了现阶段国内外有关悬铃木方翅网蝽生物学、危害特性、传播规律、化学生态学、环境适应性及其防治方法的研究进展,并从绿色防控方面展望了该虫需重点开展的研究方向,以期为该领域研究者提供参考。     

悬铃木方翅网蝽在我国的潜在分布分析

运用生态位模型MaxEnt和GARP对悬铃木方翅网蝽Corythucha ciliate(Say)在我国的潜在分布进行了模拟,并结合其寄主植物悬铃木在我国的分布进行了分析。实验采用悬铃木方翅网蝽在我国的分布数据,结合6种气候变量和海拔数据构建模型,并将MaxEnt和GARP的输出结果进行合意。研究显示MaxEnt和GARP的模拟结果基本一致,均能较好的模拟悬铃木方翅网蝽在我国的分布,二者均显示山东西南部和中部、四川中部和东部、重庆、陕西中部、河南中部和东部、安徽、江苏、上海、贵州、湖南、江西、浙江、福建中部和北部、云南中部等地区为悬铃木方翅网蝽的适宜分布区,此外,河北中部和南部、山东东部,广东和广西的北部亦具潜在分布的可能性。与MaxEnt输出结果相比,GARP相对较为保守。MaxEnt输出结果显示年平均气温和极端低温对悬铃木方翅网蝽地理分布的限制作用最大。考虑到该虫对高低温度的耐受性,我国二球悬铃木栽培的南界(南宁和广州)和北界(大连、北京、石家庄、太原)需要重视和监控起来。     

军配盲蝽对五种网蝽捕食作用研究

【目的】网蝽科Tingidae害虫严重危害我国农林经济作物,盲蝽科Miridae昆虫作为该虫的主要天敌类群之一,对网蝽害虫的绿色防控具重要意义。为明确军配盲蝽Stethoconus japonicus(Schumacher)雌、雄成虫对5种重要网蝽害虫的控害潜能,评价其生防潜力。【方法】在恒定条件(温度(26±1)℃,相对湿度70%±5%,L︰D=14︰10)下研究了军配盲蝽雌、雄成虫对茶网蝽Stephanitis chinensis(Drake)、梨网蝽S.nashi(EsakietTakeya)、桂花网蝽Eteoneussigillatus(Drakeet Poor)、入侵害虫菊方翅网蝽Corythucha marmorata(Uhler)和悬铃木方翅网蝽C. ciliate(Say)成虫的捕食选择性及捕食作用。【结果】军配盲蝽雌、雄虫对5种网蝽捕食选择率大小依次为茶网蝽悬铃木方翅网蝽梨网蝽菊方翅网蝽桂花网蝽,且雌虫比雄虫选择偏好性更强;军配盲蝽对5种网蝽的平均捕食量存在显著性差异,雌虫较雄虫平均捕食量大;军配盲蝽雌、雄虫对5种网蝽的捕食功能反应均符合HollingⅡ型,对茶网蝽捕食效能a'/Th最高,最大日捕食量1/Th,分别为36.2和28.6头,其次为悬铃木方翅网蝽,而对桂花网蝽捕食效能最低,最大日捕食25.4和18.7头。【结论】军配盲蝽成虫对5种网蝽均具有较好的控害潜能,对茶网蝽和入侵害虫悬铃木方翅网蝽有较强的选择偏好性和捕食效能,研究为准确评价军配盲蝽捕食网蝽的生防潜能提供了理论依据。     

悬铃木方翅网蝽与红带网纹蓟马的竞争关系研究

【背景】悬铃木方翅网蝽是仅危害悬铃木的外来入侵物种,而红带网纹蓟马寄主广泛,可吸食悬铃木叶片汁液,2个物种客观上发生了竞争关系。【方法】以悬铃木方翅网蝽与红带网纹蓟马共同发生的悬铃木种植街区为研究地点,每10d调查15根悬铃木枝条,记录各枝条各叶片上2个物种的数量,进而评价悬铃木方翅网蝽入侵对红带网纹蓟马的竞争排斥能力。【结果】悬铃木方翅网蝽在整个调查期间的种群数量明显高于红带网纹蓟马;悬铃木方翅网蝽在悬铃木上的时间生态位宽度和重叠指数均大于红带网纹蓟马,两者的时间生态位竞争系数达0.7022,明显高于对悬铃木枝条和叶片的竞争强度;悬铃木方翅网蝽和红带网纹蓟马对悬铃木枝条和叶片的竞争强度较低,且具有阶段性,空间竞争主要发生在6月中旬至7月下旬的2个种群发生高峰期;悬铃木方翅网蝽与红带网纹蓟马在悬铃木上的繁殖生态位出现了明显的时间分化,红带网纹蓟马仅秋季世代产卵于悬铃木叶片上,而悬铃木方翅网蝽所有世代均产卵于悬铃木叶上,但2个物种在悬铃木上共同繁殖期间,红带网纹蓟马选择产卵的枝条和叶片均有悬铃木方翅网蝽产卵,表明2个物种对产卵枝条和叶片具有相似的空间需求。【结论与意义】悬铃木方翅网蝽与红带网纹蓟马在悬铃木上整体的时空生态位竞争强度较弱,且2个物种的营养生态位差异较大;悬铃木方翅网蝽的入侵对红带网纹蓟马的生存和种群发展无明显影响。     

二球悬铃木叶片挥发物与悬铃木方翅网蝽的相互作用研究

[目的]为了理解悬铃木方翅网蝽Corythucha ciliata(Say)与二球悬铃木间的和昆虫与寄主互作机制,本实验测定了悬铃木方翅网蝽取食对其寄主植物二球悬铃木的挥发性化合物的影响,以及该虫对这些化合物的行为反应。[方法]运用固相微萃取结合气相色谱与质谱联用技术,测定了不同为害时间段中悬铃木叶片挥发物的变化。通过"Y"形嗅觉仪检测了该虫对不同处理的悬铃木叶片和其挥发物成分的行为反应。[结果]随着为害时间的增加,挥发性化合物的种类和数量总体呈上升趋势。悬铃木未处理叶片中的挥发物有4种成分,包括:顺-3-己烯醇,1,8-桉叶素,(E)-4,8-二甲基-1,3,7-壬三烯和反式-β-石竹烯。在为害后叶片中,共检测到9种挥发性化合物,除了上述4种成分外,新增加了α-侧柏烯,桧烯,月桂烯,顺-3-己烯醇乙酸酯和γ-松油烯。行为学研究发现,悬铃木叶片能显著地吸引悬铃木方翅网蝽,其中顺-3-己烯醇,1,8-桉叶素对该虫具有吸引作用,而反式-β-石竹烯具有趋避作用。[结论]悬铃木叶片被悬铃木方翅网蝽危害后会产生多种挥发物,其中一些挥发物能显著影响该虫的行为,可能在悬铃木方翅网蝽的寄主定位中起着重要的作用,另一些化合物可能参与悬铃木对该虫的间接防御反应。     

悬铃木方翅网蝽触角气味结合蛋白基因鉴定

【目的】悬铃木方翅网蝽Corythucha ciliata是专性危害悬铃木属Platanus植物的外来入侵害虫,本研究旨在获得该害虫触角中气味结合蛋白(OBPs)基因信息,以期寻求有效控制害虫的嗅觉分子靶标。【方法】利用Illumina HiSeq~(TM) 4000高通量测序技术对悬铃木方翅网蝽雌雄成虫触角进行转录组测序并对测序结果进行生物信息学分析;通过实时荧光定量PCR(qPCR)方法,分析OBP基因在悬铃木方翅网蝽雌雄成虫触角中的表达模式。【结果】对悬铃木方翅网蝽雌雄成虫触角6个样品的转录组测序,共获得40.87 Gb clean reads,各样品的序列长度均达到6.31 Gb。转录组数据分析共鉴定出26个推测的悬铃木方翅网蝽OBP基因,其编码蛋白中24个(CcilOBP1-24)属于Classic OBPs,CcilOBP25/26属于Plus-C OBPs;与半翅目其他昆虫相关OBPs系统发育分析表明,大部分CcilOBPs形成独立一簇,少数与其他半翅目昆虫OBPs直系同源。qPCR分析显示,有11个OBP基因在雌雄成虫触角中表达量差异显著,其中有9个OBP基因(CcilOBP5/6/9/10/17/18/21/24/25)在雄成虫触角中显著高表达,有2个OBP基因(CcilOBP14/16)在雌成虫触角中显著高表达。【结论】本研究获得了悬铃木方翅网蝽成虫触角气味结合蛋白基因信息,研究结果为生物控制该害虫提供了重要基础数据和候选分子靶标。     

悬铃木方翅网蝽在中国的首次发现

悬铃木方翅网蝽原产北美地区,首次在中国区系中发现.该种新入侵害虫在湖北武汉等城市危害三球悬铃木.介绍了方翅网蝽属和悬铃木方翅网蝽的鉴别特征、分布和为害情况.     

我国发现又一有害入侵生物

近日在湖北省发现一种新的有害外来入侵昆虫——悬铃木方翅网蝽。武汉、襄樊、荆门、宜昌等城市的三球悬铃木均受到危害，个别地区危害较严重。悬铃木方翅网蝽属昆虫纲半翅目网蝽科网蝽属，原产于北美，主要危害悬铃木属树种，抑制光合作用，影响植株生长，其危险性较大，不易除治。危害严重时，则引起寄主植物大量叶片枯黄脱落，严重破坏景观。资料表明，该种害虫在欧洲传播悬铃木溃疡病和法国梧桐炭疽病两种真菌病害，导致植株死亡。另外，这种害虫还可成群侵入居室内干扰居民生活。     

上海地区悬铃木方翅网蝽的生活史及发生情况

观察悬铃木方翅网蝽Corythucha ciliata(Say)在上海的生活史和生活习性,并对其在上海的发生情况进行调查。悬铃木方翅网蝽在上海1年发生5代,第5代成虫于10月中下旬主要在悬铃木主干和支干的树皮下越冬,4月上旬越冬成虫上树为害,4月下旬开始产卵,5月上旬始见第1代若虫,第1代若虫期17～18d,世代历期约30d,7～8月间世代重叠现象明显。悬铃木方翅网蝽在上海11个区均有发生,株被害率最高的4条道路分别为徐汇区龙华西路、肇嘉浜路、松江区人民北路及长宁区延安西路,为害率达100%。为害程度最严重的的3条道路分别为松江区人民北路、长宁区延安西路和水城南路,虫情指数分别达95.6%、76.7%和72.2%。     

Habitat expansion of an exotic lace bug, Corythucha marmorata (Uhler) (Hemiptera: Tingidae), on the Kii Peninsula and Shikoku Island in western Japan

Habitat expansion of an exotic lace bug Corythucha marmorata (Uhler) was observed on the Kii Peninsula in 2003–2004, and on Shikoku Island between 2004 and 2007. The bug was first sighted in Nishinomiya City in Hyogo Prefecture in 2000, and then further south in central Kii Peninsula in 2003 before reaching the southern tip of the peninsula by 2004. The bug was first observed in the Tokushima and Ehime Prefectures of Shikoku Island in 2004, after which the range expanded and extended across the entire island by 2007. In this study, six wild Asteraceae species were identified as the host plants to the lace bug.     

Interpopulation variation of hibernal-aestival-diapause in the egg parasitoid wasp Anagrus takeyanus: adaptation to seasonal host-plant alternation of the tingid host, Stephanitis takeyai

The egg parasitoid wasp, Anagrus takeyanus Gordh & Dunbar (Hymenoptera: Mymaridae), is one of the few natural enemies of the andromeda lace bug, Stephanitis takeyai Drake & Maa (Heteroptera: Tingidae). Studying this wasp in two habitats, I found that at Kyoto, where the bug alternates its host plants seasonally, most wasp individuals in the overwintering eggs of the bug entered summer diapause immediately after winter diapause. However, at Nara, where the bug does not alternate its host plant, the wasp proved to have no summer diapause. Changes in the parasitization rate between generations differed at the two study sites. In Kyoto, the overwintered generation suffered the highest parasitism among the three generations of the year. In contrast, the first and second generations suffered higher parasitization rates in Nara. This difference in level of parasitization between the two study sites corresponded to the different diapause regime of the wasp and the seasonal population trends of the lace bug. Laboratory experiments showed that short photoperiod in combination with low temperature could terminate the long diapause at the time the non-aestivating individuals terminate winter diapause. As a life cycle without host plant alternation is likely to be an ancestral character of the bug, the aestivation of the wasp is thought to have been appended to overwintering as an adaptation to the evolution of seasonal host plant alternation in the lace bug.     

Evaluation of the impacts of herbivory by lace bugs on Chinese privet (Ligustrum sinense) survival and physiology

Biological control of Chinese privet, Ligustrum sinense, is the best long-term option for control of this widespread invasive plant in the southeastern USA. A pre-release efficacy assessment was conducted by testing the effects of damage caused by a lace bug, Leptoypha hospita, on potted privet plants in the laboratory. Inoculating 15 pairs of lace bug adults on plants resulted in a significantly higher defoliation rate and reduced leaf biomass by more than 59% compared to 0 and 3 lace bug pairs. Leaf biomass of plants inoculated with 3 and 9 pairs of lace bug did not differ significantly from control plants. The percentage of the total leaf area affected by lace bug feeding was positively correlated with the density of lace bugs inoculated. This was also evident by the reduced chlorophyll content of leaves exposed to 9 and 15 pairs of lace bugs and their offspring. Our tests showed that one generation of feeding by the lace bug caused significant defoliation as well as reduced photosynthetic activity of remaining leaves. Continuous long term feeding by the lace bug or other potential defoliating insects could result in suppression of Chinese privet populations and possibly reduction to desirable levels.     

外来入侵菊方翅网蝽生物学特性及实验种群生命表

为了解近年来入侵我国的菊方翅网蝽的生物学特性,并为该昆虫种群在我国未来发展的趋势及防治提供科学依据,我们在温度(25±2) ℃、湿度(80±5)%、光周期L∶D=14∶10的实验室条件下,饲养、观察并记录了其各龄幼虫的形态特征,测定了该虫生长发育历期、存活率和产卵量等,构建了实验种群繁殖特征生命表,并计算了种群动态的相关参数.结果表明: 菊方翅网蝽的卵期为(14.58±1.17) d,若虫期为(14.88±1.45) d,成虫寿命为(59.88±5.85) d,单雌产卵量为(87.2±17.8)粒.该实验种群的内禀增长率(r_m)为0.05,周限增长率(λ)为1.06,世代平均历期(T)为46.11 d,净繁殖率(R₀)为11.88,种群加倍时间(t)为12.91 d;此外,在种群的稳定年龄组配中,若虫期占59.3%,成虫期占40.7%.预计菊方翅网蝽有可能会在中国进一步扩散并造成潜在的危害.     

Rapid, high-throughput detection of azalea lace bug (Hemiptera: Tingidae) predation by Chrysoperla rufilabris (Neuroptera: Chrysopidae), using fluorescent-polymerase chain reaction primers

Azalea lace bugs, Stephanitis pyrioides (Scott) (Hemiptera: Tingidae), are the most common pest of azaleas (Rhododendron spp.) in nursery production and the landscape. Although pesticides are commonly used to control lace bugs, natural enemies can be a significant source of lace bug mortality. Lacewings (Neuroptera: Chrysopidae) are natural enemies of lace bugs and easily consume them in laboratory studies. Field studies on lacewing biocontrol of azalea lace bugs are underway; however, monitoring lacewing predation in a nursery environment by direct observation is impractical. Here, we describe a fluorescent-polymerase chain reaction method to estimate S. pyrioides consumption based on the gut contents of lacewing predators. Lace bug DNA was detected in fed lacewings up to 32 h after ingestion. More than 80% of the ingested lace bugs were detected using our method with only one false positive result. The assay is both high-throughput and relatively inexpensive, making it a practical approach to documenting lace bug predation in the field.     

Potential host plants of Corythucha arcuata (Het., Tingidae) in Europe: a laboratory study

Abstract:  The oak lace bug Corythucha arcuata (Say) (Het., Tingidae), native to North America, was found in Europe on Quercus robur L. and other oaks in the spring of 2000. The potential host plant range of this species in Europe and its development time were investigated in a laboratory study. An assay was performed on leaf cuts of different plant species. On the deciduous European oaks ( Q. robur , Quercus pubescens Willd, Quercus petraea (Mattuschka) Liebl., Quercus cerris L.), as well as Rubus ulmifolius Schott. and Rubus idaeus L., most of the lace bugs (>50%) reached the adult stage; on Castanea sativa Mill., Rubus caesius L. and Rosa canina L., a reduced number of individuals (<25%) reached the adult stage. No nymphs survived on Quercus rubra L. (mentioned in literature as a host plant), on the evergreen oaks Quercus suber L. and Quercus ilex L., on Malus domestica Borkh. and four tested maple species. On plant species where the lace bug reached the adult stage, the development time varied from 13 to 27 days. On European deciduous oak species, the development time was longer on leaves taken in late summer (September) than on those of late spring (June); on the contrary, such differences were not observed on Rubus species, and Castanea sativa .     

Spread and potential host range of the invasive oak lace bug [Corythucha arcuata (Say, 1832) – Heteroptera: Tingidae] in Eurasia

1. The North American oak lace bug feeds on leaves of ‘white oaks” in its native range. In Europe, it was first discovered in northern Italy in 2000. In recent years, it has subsequently spread rapidly and population outbreaks have been observed in several European countries. In the present study, we summarize the steps of its expansion.
2. To predict its potential host range, we checked 48 oak species in 20 sentinel gardens in seven countries between 2013 and 2018.
3. In total, 27 oak species were recorded as suitable hosts; 13 of them are globally new ones, 23 out of the 29 in section Quercus (～ white oaks, an intrageneric taxonomic unit within genus Quercus), including Asian oaks, native to Japan, Korea and China, and four out of five in section Cerris (another intrageneric unit of the same genus), were accepted as hosts. None of the species in section Lobatae (red oaks) or in the Ilex group was accepted.
4. Host records were also collected in forest stands of 10 countries. We found 11 oak species that were infested. Outbreak populations were most commonly found on Quercus robur, Quercus frainetto, Quercus petraea and Quercus cerris, comprising widespread and outstandingly important oaks species in Europe.
5. Based on our findings, we conclude that suitable hosts for oak lace bug are present in most of Europe and Asia. This means that a lack of hosts will likely not restrict further range expansion.

     

Fire effects on insect herbivores in an oak savanna: the role of light and nutrients

Abstract.  1. Environmental heterogeneity created by prescribed burning provided the context for testing whether the distribution of an oak specialist (the lace bug, Corythuca arcuata ) could be explained by stoichiometric mismatches between herbivore and host plant composition.
2. Field observations showed that lace bug density was seven-fold higher in frequently burned than in unburned units.
3. Lace bug density did not increase with leaf nutrient concentrations, but was instead associated with higher light levels, higher concentrations of leaf carbon (C), lignin and total phenolics, and lower levels of cellulose. In addition, lace bugs reared on high-light leaves had higher levels of survivorship than those fed on low-light leaves.
4. Sampling restricted to full-sun leaves was used to test whether fire-related changes in leaf nitrogen (N) and phosphorus (P) concentrations have a secondary influence on lace bug success. This sampling provided only limited evidence for nutrient limitation, as decreases in leaf N and P were associated with an increase in lace bug mass but a decrease in density.
5. It is concluded that burning probably promotes lace bug population growth by increasing canopy openness, light penetration, and the availability of C-based metabolites, and thus simple stoichoimetric mismatches between herbivores and host plants are not of primary importance in this system.     

模拟酸雨对入侵植物豚草与伴生种鬼针草竞争关系的影响

植物种间相互作用对物种的生存至关重要。对于入侵植物而言, 更强的种间竞争能力是其成功入侵的重要机制。然而, 环境条件的变化可能会改变种间关系并影响植物入侵的最终结果。该研究主要探索当今严重的环境问题之一——酸雨对中国入侵植物豚草(Ambrosia artemisiifolia)和伴生本地种鬼针草(Bidens bipinnata)种间相互作用的影响, 进一步了解环境扰动对生物入侵的影响。该研究于2021年3月在北京师范大学室外条件下对豚草和鬼针草开展de Wit替代竞争实验, 并施加不同浓度的酸雨模拟溶液(pH = 3、4、5、7), 记录植株在第24、34、45天的株高以及生长季结束时的株高和地上生物量, 通过计算相对邻株效应指数(RNE)并绘制取代系列图表来评估两者的竞争关系。主要结果如下: 单一种植时, 中浓度酸雨(pH = 4)促进了豚草和鬼针草的早期生长, 而高浓度酸雨(pH = 3)显著抑制了两者的早期生长, 但不影响生长季结束时的株高。混合种植时, 高浓度酸雨(pH = 3)显著降低了豚草在第34、45天时的株高, 但在生长季结束时对豚草无影响, 而鬼针草在生长季结束时株高显著降低。鬼针草相对豚草的RNE在任何酸浓度下都不显著。而豚草相对鬼针草的RNE在无酸雨条件下显著, 酸雨处理时在鬼针草比例较低时显著。取代系列实验图表显示, 低浓度酸雨(pH = 5)增加了在低豚草比例下的鬼针草的竞争优势, 而高浓度酸雨增强了豚草的竞争优势。该研究表明酸雨显著影响了豚草和鬼针草的生长及种间竞争关系, 高浓度酸雨增加了入侵植物豚草的竞争优势。     

Seasonal host alternation by the andromeda lace bug,Stephanitis takeyai (Heteroptera: Tingidae) between its two main host-plant species

I studied the seasonal occurrence of the andromeda lace bug,Stephanitis takeyai, on its two main host-plant species. In a secondary forest in Kyoto, this bug altered its hosts seasonally, i.e., from an evergreen shrub,Pieris japonica, in winter to a deciduous shrub,Lyonia elliptica, in summer. In contrast, in Nara park where fewL. elliptica were available, the bug exploited onlyP. japonica. Thus, seasonal host alternation by this bug is not obligate. A comparison of adult longevity and fecundity on the two host-plant species demonstrated the higher quality ofL. elliptica as a food resource. Corresponding to this difference in host quality, there was a dramatic difference in the seasonal population growth in the two study sites. In Nara, the population size at the beginning of the 2nd generation was almost the same as in the overwintered generation, whereas in Kyoto the population size in the 2nd generation was approximately one hundred times as large as in the overwintered generation. Thus seasonal host alternation is adaptive for the bug. In a previous study, I reported that overwintering as eggs in living leaves of their hosts is likely to be common among all the related species of this bug. Thus, this trait can be considered to be a phylogenetic constraint to the group. I speculate that host alternation by this bug has been derived because it is more adaptive from autoecy on an evergreen plant, similar to the pattern currently found in Nara, and that this bug can not only exploit deciduous host due to a phylogenetic constraint.