苹果绵蚜与苹果绵蚜蚜小蜂种间关系的模拟研究——Ⅰ.两种群生物学的数量特征比较

本研究通过对苹果绵蚜(Eriosoma lanigerum Haus.)和苹果绵蚜蚜小蜂(Aphelinus mali Hald.)的生物学和生态学特性的比较分析,得到如下结论:(1)苹果绵蚜完成一世代的积温要求和发育起点温度均低于苹果绵蚜蚜小蜂,二者的有效积温分别为352.19日度和375.51日度,发育起点温度分别为7.62度和7.95度。因此,苹果绵蚜较其寄生蜂更适合于昆明地区的气候条件;(2)苹果绵蚜种群的增长能力大于苹果绵蚜蚜小蜂,二者的内禀增长率在20℃下分别为0.1390和0.1146,在25℃下分别为0.2647和0.1628。这可能是昆明地区苹果绵蚜蚜小蜂不能控制苹果绵蚜为害的主要原因。另外,本研究首次利用卡方密度函数对各种温度下的昆虫产卵的时间分布进行了拟合,取得了较好的效果。     

苹果绵蚜蚜小蜂发育历期、发育起点温度和有效积温的研究

本文以苹果绵蚜为繁殖寄主,研究了苹果绵蚜蚜小蜂在不同温度下的发育历期、发育起点温度和有效积温。结果显示:苹果绵蚜蚜小蜂的发育历期随温度的升高而缩短,最适发育温度为21℃-27℃。山东地区越冬代苹果绵蚜蚜小蜂打破滞育的发育起点温度为雌蜂8.58℃,雄蜂8.22℃;有效积温为雌蜂148.72日度,雄蜂154.68日度。非越冬代苹果绵蚜蚜小蜂在卵-羽化阶段发育起点温度为雌蜂5.62℃,雄蜂5.55℃;有效积温为雌蜂284.40日度,雄蜂为295.61日度。并推测了2008年济南地区苹果绵蚜蚜小蜂发生代数和越冬代羽化时间,与实测情况基本相符。     

入侵性害虫——苹果绵蚜田间种群数量的调查方法

2007年6月中旬到10底在山东省莱阳市对苹果绵蚜Eriosoma lanigerum(Hausmann)的田间发生数量进行调查研究。在田间定点调查5株苹果树上苹果绵蚜虫落数量和虫落面积,并在其它苹果树上随机选择20个虫落,计数每个虫落中苹果绵蚜的活体数,从而计算单位面积虫落中苹果绵蚜的平均数量。分析指出,以计算法求得的虫落中苹果绵蚜的实际数量为指标,既考虑了苹果绵蚜虫落的数量和大小,也考虑了单位面积虫落中苹果绵蚜活体数,并且把被苹果绵蚜蚜小蜂寄生的僵蚜排除在外,能较客观地反映出田间实际情况,是一种比较准确的表示苹果绵蚜田间数量的方法。     

苹果绵蚜密度及聚集度对日光蜂寄生作用的影响

苹果绵蚜日光蜂(Aphelinus mali Hald.)是苹果绵蚜的主要寄生蜂。1879年L.O.Howard首次发现了这种寄生蜂。此后,国内外对其生物学特性、杂交育种及在生物防治中的应用作了大量研究。利用日光蜂防治苹果绵蚜的效果一方面取决于它的生物学和生态学特性。日光蜂世代历期、食性范围、寄生时期和绵蚜活动时期的重叠度、日光蜂自然增长率、日光蜂自身密度和环境适应能力等都会影响它的寄生效果。     

温度对苹果绵蚜生长发育的影响

苹果绵蚜Eriosoma lanigerum(Hausm.)是云南苹果树的毁灭性害虫。苹果栽培面积不断扩大,由于检疫措施不严和防治工作跟不上,苹果绵蚜仍在蔓延。但云南过去未对苹果绵蚜生物学进行过系统研究。作者根据生产需要,对苹果绵蚜的有关生物学进行了观察研究。     

苹果绵蚜与苹果绵蚜日光蜂种间关系的模拟研究——Ⅱ.自然系统的模拟及灵敏度分析

本文在生物学特性研究的基础上,组建了苹果绵蚜(Eriosoma lanigerum)及其日光蜂(Aphelinus mali)寄主——天敌作用系统的Boxcar train模型,对苹果绵蚜猖獗期的二种群数量进行了模拟,其结果与果园调查基本吻合。用此模型做系统的灵敏度分析,结果表明系统的内部因子(如蚜蜂的基数比例)和外部因子(温湿度)对系统均有影响。温度升高,二种群数量增加,反之则下降。湿度增加,苹果绵蚜日光蜂种群数量上升,反之则下降。湿度变化对苹果绵蚜无不良影响。比较而言,温度对系统的影响比湿度大得多。减少苹果绵蚜基数比增加日光蜂基数对系统的影响大,据此可从理论上估计生物防治的局限性。     

苹果绵蚜为害产量损失测定

苹果绵蚜为害苹果的树干、枝,新稍及根部,从中吸取大量营养,使寄主生长发育不良,产量降低。经测定苹果绵蚜发生群落数与造成的产量呈负相关,而与产量损失率成正相关,在苹果单株产量108．19～154．20kg,苹果绵蚜群落数±30～＞150个的情况下,小国光和青香蕉品种的产量损失率分别为4．10％～38．81％和7．5％～32．04％。     

苹果绵蚜在不同寄主果园中的种群数量动态比较

【背景】在我国,苹果绵蚜对苹果等寄主的危害日益严重,发生面积不断扩大,而品种抗性是害虫治理的一种重要手段。【方法12007—2009年于山东莱阳地区系统调查了苹果绵蚜在不同寄主果园的发生动态规律,比较了不同寄主对苹果绵蚜的抗性差异。【结果】苹果绵蚜在红富士、乔纳金、新红星苹果园和西府海棠果园中1a有2个发生高峰,5月底到7月下旬是第1个高峰,也是全年发生的最高峰,9月初到10月底是全年发生的第2个高峰,而7月底到8月底是苹果绵蚜发生的低谷期。苹果绵蚜在红富士苹果上的发生数量显著高于在乔纳金、新红星苹果和西府海棠上的发生数量。在3a的调查时间内,苹果绵蚜在红富士、乔纳金、新红星苹果上每次平均发生量分别为153．2、31．6、30．3头·株^-1。越冬前调查表明,苹果绵蚜对红富士的为害率显著高于青香蕉、乔纳金、新红星和小国光,小国光的被害率以及虫落数量最低。【结论与意义】红富士是苹果绵蚜的感虫品种,而小国光、乔纳金和新红星相对抗虫。文中讨论了苹果绵蚜抗性品种的筛选方法,为掌握不同寄主对苹果绵蚜的抗性差异以及制定苹果绵蚜的抗性治理策略提供了依据。     

外来入侵种——苹果绵蚜在中国的适生区预测

苹果绵蚜Eriosoma lanigerum(Hausmann)是我国重要的检疫性害虫,主要为害苹果、海棠等苹果属(Malus Mill.)植物。目前,该种害虫已在我国一些苹果主产区迅速扩散,并给我国的苹果产业造成了较为严重的经济损失。为了对其进行有效监控,控制其蔓延,制定合理的防治策略,本研究利用GARP和MAXENT两种生态位模型,结合其寄主地理分布,预测苹果绵蚜在我国的潜在地理分布区。研究结果表明:GARP和MAXENT预测结果相似,但前者预测面积比后者广泛。苹果绵蚜在我国的最适适生区主要分布在东北(辽宁南部)、华北(河北东、南部、北京、天津和山西南部)、华东(山东大部)、华中(河南北部)和西北(陕西中部)。另外,河北南部、山东和河南南部、甘肃东部、四川中南部、陕西大部、云南与西藏的零星地区是苹果绵蚜的中度适生区;黑龙江、吉林、新疆等20个省份(市、自治区)的全境是苹果绵蚜低度适生区或不适生区。此外,刀切法(Jackknifetest)检验结果表明,1月份平均最高温是影响苹果绵蚜分布最重要的环境变量。最后,提出几点管理苹果绵蚜的方法和防治策略,避免该种害虫传播或入侵到其它苹果产区。     

夏季苹果新梢生理指标与抗苹果绵蚜的关系

研究苹果生理指标与其对苹果绵蚜(Eriosoma lanigerum Hausmann)抗性的关系,为筛选培育抗性品种,实现持续有效治理苹果绵蚜提供依据.田间调查不同苹果品种对苹果绵蚜的抗性,测定比较各品种正常枝条生理指标,以及被苹果绵蚜危害后生理指标的变化.结果表明,正常枝条中可溶性糖(r=0.99)、蛋白质(r=0.86)含量与感蚜率呈正相关;氨基酸含量与感蚜率呈负相关(r=-0.96);酚类物质和4种酶活性与苹果感蚜率均不存在明显相关性.被害后昭锦108可溶性糖含量有所下降,红富士、金冠分别上升1.4％、7.0％;蛋白质、氨基酸、酚类物质含量均有所下降,其中红富士总酚含量明显下降,达23.5％,总酚下降率与感蚜率呈正相关(r=0.94);超氧化物歧化酶(Superoxide Dismutase,SOD)、过氧化氢酶(Catalase,CAT)活性均上升,其中CAT变化率与感蚜率存在相关性(r=-0.92),昭锦108 CAT活性明显上升,达91.2％;多酚氧化酶(Polyphenol Oxidase,PPO)、过氧化物酶(Peroxidase,POD)活性增减不一;金冠4种酶活性均上升.研究表明,对苹果绵蚜抗性较强的品种:可溶性糖、蛋白质含量较低,游离氨基酸含量较高;受害后可溶性糖含量下降,总酚含量下降率较低,游离氨基酸含量下降率较高.酶活性对抗蚜性的影响不明显.     

Optimal profit of the parasitation by Aphelinus mali in an IPM complementary strategy for the control of Eriosoma lanigerum

During summer the parasitoid Aphelinus mali may certainly reduce the infestation of woolly apple aphid (Eriosoma lanigerum), but studies on the single interaction rarely indicate sufficient biological control in the period May-June. In this period chemical control by spirotetramat or pirimicarb remains indispensable in order to anticipate on dense migration waves and subsequent colonization of extension shoots by E. lanigerum. The limited parasitation by A. mali around flowering is linked with a delayed emergence from diapause and with a slower reproduction rate than its host. In 2010 and 2011 the first adult flights monitored on yellow sticky traps corresponded perfectly with the currently used prediction models for A. mali. Further accurate monitoring all along the season enabled also to determine a well defined endo-parasitic phase of A. mali occurring after the small peak observed around flowering. During this endo-parasitic phase A. mali larvae reside inside their mummified host. Compounds with higher acute toxicity on A. mali adults, like chloronicotinyl insecticides (CNI's), are preferably positioned here. Selectivity in the time can then be claimed. Respecting this principle, the further parasitation potential of A. mali in summer is not hampered. Preservation of the first peak of flights of A. mali in the pre-flowering period is essential for an exponential flight increase. This is essential for the parasitation of E. lanigerum in summer, which constitutes a valuable complement in the integrated control strategy.     

Effect of trap color and orientation on the capture of Aphelinus mali (Hymenoptera: Aphelinidae), a parasitoid of woolly apple aphid (Hemiptera: Aphididae)

The factors affecting trap capture of adult Aphelinus mali (Haldeman) (Hymenoptera: Aphelinidae) were studied in 2010-2011 in eastern Washington apple (Malus spp.) orchards infested with its host woolly apple aphid, Eriosoma lanigerum (Hausmann) (Hemiptera: Aphididae). The initial study of white sticky cards indicated that traps stapled to the trunk in a vertical orientation had the highest capture. A factorial experiment of three colors (clear, white, and yellow) by three orientations (trunk, scaffold, and hanging) indicated that yellow traps and traps on trunks caught higher numbers ofA. mali. For this reason, the recommended trap for this natural enemy is a yellow trap stapled to the trunk. Having a readily available and effective sampling method for this species may be helpful in implementing biological control programs and assessing the impact of different spray regimes.     

Comparison of a Canadian and a Dutch strain of the parasitoid Aphelinus mali (Hald) (Hym., Aphelinidae) for control of woolly apple aphid Eriosoma lanigerum (Haussmann) (Hom., Aphididae) in the Netherlands: a simulation approach

Woolly apple aphid, Eriosoma lanigerum is one of the important apple pests in the Netherlands. Weather conditions and natural enemies determine whether woolly apple aphid (WAA) will reach pest status. WAA may escape control by natural enemies and therefore it must be controlled using chemical insecticides. To prevent unnecessary applications of insecticides and to promote biological and natural control of WAA more knowledge is needed about the role of natural enemies, weather and their effects on the development of WAA populations. The monophagous parasitoid Aphelinus mali (Hald.) has been introduced into most of apple growing areas to control WAA, but success is variable and depends on climatological conditions. In the Netherlands the level of parasitization is often too low, especially after warm winters. The biological control potential of a strain of A. mali from Nova Scotia (Canada) was compared with a Dutch strain by simulating population growth of both WAA and the Dutch and Canadian strain of the parasitoid for three different years The results indicate that the Canadian strain would perform in general better than the Dutch strain under Dutch weather conditions.     

Arthropod abundance in an Australian apple orchard under mating disruption and supplementary insecticide treatments for codling moth, Cydia pomonella (L.) (Lepidoptera: Tortricidae)

The impacts of three codling moth management strategies (i, mating disruption alone; ii, mating disruption plus azinphos-methyl; iii, mating disruption plus fenoxycarb) on some secondary pests and their natural enemies in an apple orchard were compared over two growing seasons: 1993/1994 and 1994/1995. In the absence of azinphos-methyl (strategies i and iii), two-spotted mite ( Tetranychus urticae ) was controlled by Typhlodromus occidentalis and populations of generalist predators (e.g. ladybirds, lacewings and earwigs) increased. The populations of a parasitoid of woolly aphid ( Eriosoma lanigerum ), Aphelinus mali, also increased but not enough to provide adequate control of the aphid. Combined damage caused by lightbrown apple moth ( Epiphyas postvittana ), budworms ( Helicoverpa spp.) and San José scale ( Quadraspidiotus perniciosus ) was significantly higher in the absence of azinphos-methyl in 1994/1995. Beneficial insect populations were not suppressed by fenoxycarb. In 1994/1995, mating disruption plus fenoxycarb produced better control of E. postvittana than mating disruption alone. During transition to an apple integrated pest management program based on codling moth mating disruption, fenoxycarb was shown to be less disruptive to any natural control of secondary pests than azinphos-methyl.     

Isolation and characterization of nine microsatellite loci from Aphelinus mali (Hymenoptera: Aphelinidae), a parasitoid of Eriosoma lanigerum (Hemiptera: Aphididae)

Abstract Nine novel microsatellite markers are presented for Aphelinus mali, a parasitoid of the woolly apple aphid Eriosoma lanigerum. Loci were characterized for 28 individuals from a single orchard in central Chile. Seven loci were polymorphic within A. mali (3–6 alleles per locus; observed heterozygosity ranging from 0.04 to 0.57) and are therefore useful for population genetic studies within this species.     

苹果绵蚜在中国适生区预测及发生影响因子

苹果绵蚜是苹果上一种重要的检疫性害虫,每年给苹果产区造成严重的经济损失.预测苹果绵蚜适生性区域和影响其定殖扩散的环境因子,能够开展苹果绵蚜分布区域测报、制定有效的检疫措施并为防治决策提供依据.本研究基于最大熵算法的生态位模型MaxEnt和地理信息系统软件ArcGIS对苹果绵蚜进行适生区分析及预测,用受试者工作特征曲线(ROC)对预测模型和预测结果进行评估,并用Jackknife方法分析影响绵蚜发生的重要因子.结果表明,苹果绵蚜在我国适生范围很广,其中,辽宁、山东、河南、河北、安徽、江苏、陕西等省的适生性指数较高,对苹果绵蚜发生具有重要影响的是与温度相关的环境因子.     

1株拮抗水稻纹枯病菌鼠乳杆菌的筛选与鉴定

采用平板对峙法从浙江省金华市水稻田土壤中筛选获得1株拮抗水稻纹枯病菌的细菌QT-0304菌株,最大拮抗带宽达到20 mm。根据形态特征、生理生化特征、16S rRNA基因比对及进化树构树分析,鉴定QT-0304菌株为鼠乳杆菌（Lactobacillus murinus）。抗菌谱实验结果表明：QT-0304菌株对苹果腐烂病菌（Valsa mali）和杨树溃疡病病菌（ Botryosphaeria dothidea）均有较好的抑制作用,拮抗带宽分别达到34.5 mm和23.0 mm。