美国杂交杏李花果期节肢动物的生态位分析

美国杏李园害虫中绣线菊蚜与山楂叶螨的生态位宽度较宽,占据空间较大,为害虫优势种群,在空间维度上害虫之间存在较大竞争;大草蛉在各期的生态位宽度最大,说明大草蛉是重要的优势天敌,且天敌与主要害虫在空间上相遇机率较大;天敌之间生态位重叠指数较高,表明主要天敌之间存在明显的相互竞争关系;美国杏李园天敌对主要害虫在时间维度上有较强的追随效应和控制作用.主要天敌的数量与主要害虫绣线菊蚜种群数量追随关联度顺序为草蛉类>龟纹瓢虫>蜘蛛类>异色瓢虫>其它瓢虫类>食蚜蝇类>七星瓢虫>多异瓢虫.草蛉类和龟纹瓢虫与绣线菊蚜的模糊贴近度最高,说明这两种天敌与绣线菊蚜的同域效应高,对绣线菊蚜有较强的追随作用,抑制着绣线菊蚜种群数量的增长.     

北坞园林绿地捕食性瓢虫发生规律及生态位的研究

为有效保护和利用园林绿地中的捕食性瓢虫资源,研究了北京园林绿地中瓢虫的发生规律及生态位。采用定点定期黄板诱集法调查园林绿地捕食性瓢虫资源,然后进行了瓢虫发生时序动态、生态位宽度及生态位重叠等分析。由生态位宽度将瓢虫分为种群竞争力强、中和弱3类,由Mcnaughton优势度指数也将瓢虫分为优势种、常见种和偶见种3类;异色瓢虫、龟纹瓢虫、红点唇瓢虫和菱斑巧瓢虫既是种群竞争力强的瓢虫种类,也是园林绿地瓢虫的优势种,种群竞争力中的瓢虫种类多为瓢虫常见种,弱的种类多为瓢虫偶见种;园林绿地中优势捕食性瓢虫的发生时序动态既与园林植物上发生的蚜虫种类相关,又与园林植物种类相关;异色瓢虫与龟纹瓢虫,异色瓢虫与红点唇瓢虫,以及龟纹瓢虫与菱斑巧瓢虫全年的生态位重叠指数较高,均达0.8以上,而异色瓢虫与菱斑巧瓢虫,龟纹瓢虫与红点唇瓢虫,红点唇瓢虫与菱斑巧瓢虫全年的生态位重叠指数较小,均低于0.7。本文为有效保护园林绿地中的瓢虫资源提供了技术支撑。     

梅园昆虫群落特征、动态及优势种生态位

系统调查梅园昆虫群落并对群落组织水平和时空生态位进行测定.结果表明,群落结构较丰富,有昆虫6目23科,群落物种数、多样性指数、均匀性指数随时间推移而增加;在害虫中桃蚜和桃小食心虫空间生态位宽度最大,朝鲜球坚蚧时间生态位宽度最大;在天敌中黑缘红瓢虫时间和空间生态位宽度均最大,异色瓢虫、红点唇瓢虫及寄生蜂次之.黑缘红瓢虫与朝鲜球坚蚧的生态位重叠值在时空二维上均较大,且二者在时间上的同步性和空间上的同域性均优于其它天敌,为优势种群,应加以保护和利用.     

桃园山楂叶螨、桃一点斑叶蝉及其主要天敌生态位

对山东桃园山楂叶螨、桃一点斑叶蝉及其主要天敌的时间、空间和时间一空间二维生态位宽度和生态位重叠进行了研究。结果表明,主要天敌异色瓢虫、七星瓢虫、龟纹瓢虫、大草蛉和蜘蛛与该2种害虫在时间上的同步性和空间上的同域性均较强,为保护利用天敌控制该2种害虫提供了依据。     

梨园芳香植物间作区中国梨木虱与其天敌类群的相互作用

为探讨间作芳香植物对梨园中国梨木虱与其天敌类群相互作用的影响,在梨园中设置不同种类的芳香植物间作处理,以清耕区为对照,研究不同芳香植物间作区中国梨木虱及其天敌类群组成、种群消长动态、时间生态位的变化,并进行灰色关联度分析。结果表明,不同处理区中国梨木虱及其天敌类群数量和发生频率、组成及时序特征、时间生态位宽度与重叠存在明显差别。在梨树年生长周期中,薄荷间作区的中国梨木虱的时间生态位宽度明显增大,多数天敌的时间生态位宽度显著增加,中国梨木虱与天敌种群发生量分布较均匀,但发生的高峰不明显,时间生态位重叠指数均较大,表现出时序上的同步性和跟随性。孔雀草间作区、罗勒间作区、自然生草区的中国梨木虱的生态位宽度较薄荷间作区小,有明显的高峰期,天敌的生态位宽度较对照大,无明显的高峰期。一些天敌种群如跳小蜂、丽草蛉、茧蜂、姬蜂与中国梨木虱在时序上同步性较大,跟随现象明显;而龟纹瓢虫、异色瓢虫和七星瓢虫等天敌种群与中国梨木虱在时序上同步性较差,跟随现象较弱。灰色关联度分析结果表明,薄荷间作区跳小蜂、孔雀草间作区中华大草蛉、罗勒间作区龟纹瓢虫和中华大草蛉、自然生草区丽草蛉、茧蜂、赤眼蜂对中国梨木虱的影响程度较其它种群大。结果显示,梨园间作芳香植物可能通过改变中国梨木虱及其天敌类群的组成、时序特征和生态位特征等控制中国梨木虱的发生。     

大豆田节肢动物群落优势种群时间生态位及营养关系分析

【目的】阐明大豆田节肢动物群落时间生态位及营养关系,为大豆害虫生态调控手段的实施提供坚实的理论依据。【方法】以大豆田节肢动物群落为研究对象,通过两年的田间系统调查分析。【结果】统计得到种类220余种,物种可分为天敌、害虫和中性昆虫3个类群,以天敌物种丰富度最高;害虫中以烟蓟马Thrips tabaci(0.36902)和大豆蚜Aphis glycines(0.13122)优势度最高,且有着较高的生态位重叠指数(0.8163),蚜小蜂Aphytis sp.和大草蛉Chrysopa septempunctata对害虫的时间生态位重叠指数很高,其他天敌如异色瓢虫Harmonia axyridis、龟纹瓢虫Propylaea japonica、黑带食蚜蝇Zyistrophe balteata和黑食蚜盲蝽Deraeocoris punctulatus等对害虫的重叠指数居中;大豆田中各类群构成错综复杂的食物网结构。【结论】综合考虑天敌的种群数量,确定捕食性天敌是控制害虫种群数量的有效天敌。研究可知不能单纯从时间生态位的重叠指数的高低来判断天敌的控制能力。     

新疆麦蚜主要天敌的生态位

利用生态位理论,对新疆塔城、伊犁两地区麦田麦蚜主要天敌类群瓢虫类、食蚜蝇类、斑腹蝇类、蚜茧蜂类和蚜小蜂类的生态位宽度和重叠度进行了计算和分析。瓢虫类在塔城和伊犁小麦田的时间生态位宽度均较长。塔城食蚜蝇类和瓢虫类的时间生态位重叠度最大。伊犁麦田食蚜蝇类空间生态位最宽,瓢虫类时-空生态位宽度最大,斑腹蝇类和瓢虫类时间生态位的重叠度最大,蚜小蜂和斑腹蝇空间生态位以及时-空生态位的重叠度最大。对伊犁大麦田和燕麦田蚜虫的天敌生态位也进行了计算分析。     

豇豆田生态系统中主要害虫及天敌的生态位研究

对武汉地区春播和夏播豇豆田生态系统中主要害虫、天敌的种类及空间、时间生态位进行了调查研究。结果表明,春播和夏播豇豆中,瓢虫、蜘蛛和捕食蝽同主要害虫的生态位重叠较大,跟随作用强,具保护利用价值;害虫生态位宽度以蚜虫LipaahiserysimiKaltenbach、蓟马ThripspalmiKarny、豆野螟MarucatestulalisGeyer较宽,天敌生态位春播田中瓢虫较宽,夏播田中蜘蛛较宽。     

棉蚜及其捕食性天敌时空生态位研究

研究结果表明,棉蚜的时间生态位宽度较小而空间生态位宽度较大,说明棉蚜种群的发生有高峰期明显和全株为害的特点．棉蚜的时动空间生态位宽度与种群密度无相关性,说明棉蚜的为害较复杂．捕食性天敌中草间小黑蛛和龟纹瓢虫的时空生态位宽度较大,说明它们发生期较长、分布范围较广．八斑球腹蛛和龟纹瓢虫与棉蚜的时间生态位重叠度较大,八斑球腹蛛和草间小黑蛛与棉蚜的空间生态位重量度较大．与棉蚜的时间×空间生态位重叠度,八斑球腹蛛＞龟纹瓢虫＞草间小黑蛛＞其它天敌合计＞三色长蝽＞三突花蛛＞小花蝽,这一结果同棉蚜与捕食性天敌数量的关联度大小排序相一致,表明捕食性天敌与棉蚜的时间同步和空间同线性与天敌的捕食作用密切相关．     

标记-重捕技术研究果园异色瓢虫种群动态

利用标记-重捕技术,对果园异色瓢虫的种群动态进行了估测,结果表明,6月14日至6月28日生防美国杂交杏李园异色瓢虫的种群数量为1058．97头,存活率为0．5534,新增数量为525．48头,将理论标记异色瓢虫在种群中的总数和实际标记释放总数进行配对样本t检验,95％置信区间上下限相差不超过59．43头,试验结果和理论值精度较高。     

不同寄主植物对桃小食心虫生长发育和繁殖的影响

为探索寄主植物对桃小食心虫Carposina sasakii生长发育和繁殖的影响, 在室内温度23±1℃, 相对湿度80%±7%, 光周期15L∶9D条件下, 测定了桃小食心虫在杏Armeniaca vulgaris、 李Prunus salicina、 桃Amygdalus persica、 枣Ziziphus jujuba、 苹果Malus pumila和梨Pyrus sorotina上各发育阶段的历期、 存活率和/或产卵量, 并组建了桃小食心虫在各寄主植物上的生命表。结果表明： 桃小食心虫的生长发育和繁殖在不同寄主植物间存在显著差异。幼虫的发育历期以李为最短（12.48 d）, 梨为最长（19.15 d）; 整个幼虫期的存活率以李为最高（50.54%）, 梨为最低（17.91%）; 单雌平均产卵量以枣（214.50粒/雌）和桃（197.94粒/雌）最高。生命表分析结果表明, 净生殖率R₀以枣（117.49）为最大, 平均世代周期T则以梨（41.31 d）和苹果（41.51 d）最长, 内禀增长率r_m以李（0.1294）为最高, 其次为枣（0.1201）和杏（0.1128）。这些结果有助于深入了解该虫在不同寄主植物上的种群动态。     

苹掌舟蛾药效实验的统计分析

苹掌舟蛾（Ｐｈａｌｅｒａ ｆｌａｖｅｓｃｅｎｓ Ｂｒｅｍｅｒ ｅｔ Ｇｒｅｙ）为北方苹果、南方枇杷和梨、桃、李、杏、梅、樱桃、山楂等果树的重要害虫,常致枇杷及光叶石楠受害成灾。本用统计的方法分析了采用农药和病毒防治苹掌舟蛾幼虫的效果。     

杏、李和杏李光合特性比较及优异种质筛选

利用Li-6400便携式光合测定系统对80份杏、李和杏李种质光合参数进行测定的结果表明,供试品种间光合特性差异较大。对80份种质进行聚类分析,根据光合速率将它们分为高、中、低3种光合速率类型,根据水分利用效率分为高、较高、中及低4种水分利用效率类型。杏中高光合速率类型占50%,高于李、杏李中该类型的频率;李和杏李则以中等光合速率为主,分别占55.2%和62.5%。杏和杏李中较高和中等水分利用效率类型较多,未发现高和低水分利用效率类型,而李的水分利用效率类型则分布广泛。综合考虑光合和水分指标,筛选出2个李品种澳得罗达、理查德早生,3个杏品种超仁、兰州大接杏和仰韶杏表现出高光效、较高水分利用效率,可用于今后的生产和育种实践。     

苹小卷叶蛾在四种寄主植物上的生长发育及繁殖

【目的】研究阐明不同寄主对苹小卷叶蛾Adoxophyes orana生长发育及繁殖的影响。【方法】在室温26±1℃,RH 80%±5%和光周期16L∶8D条件下,以桃Amygdalus persica、苹果Malus pumila、李Prunus salicina和杏Armeniaca vulgaris 4种果树叶片为食料,观察苹小卷叶蛾实验种群生长发育特性和繁殖能力,组建实验种群生命表。【结果】苹小卷叶蛾在桃、苹果、李、杏上生长发育和繁殖存在显著差异。全世代的发育历期在苹果上最短,为34.44 d;在李上最长,为38.37 d。取食桃的蛹重最重(28.25 mg/蛹),取食李的蛹重最轻(17.93 mg/蛹)。世代存活率在桃和苹果上较高(≥60.00%),在李和杏上较小(分别为45.00%和50.00%)。在桃上产卵最多(96.15粒/雌),在杏上最少(68.15粒/雌)。生命表参数表明,净增殖率以桃上为最高(23.20),杏上最低(11.66);内禀增长率也以桃上为最高(0.0953);世代平均周期则以李上最长(35.72 d);种群加倍时间以桃上最短(7.29 d),杏上最长(9.79 d)。【结论】4种寄主植物中,桃和苹果较适宜苹小卷叶蛾幼虫的发育及繁殖。     

不同寄主植物对山楂叶螨生长发育和繁殖的影响

室内采用叶碟饲养的方法研究了苹果、桃、李、樱桃和杏等不同果树对山楂叶螨Tetrancychusvienensis生长发育和繁殖的影响。结果表明,在李树上山楂叶螨的发育历期短、生殖力强、存活率高,rm值大,而在樱桃和杏树上该螨的发育历期长、生殖力弱、存活率低、rm值小。寄主转换试验结果表明,当山楂叶螨由苹果转移至樱桃和杏树时,其生长发育的历期显著延长,rm值大幅度降低;而由苹果转移至桃树和李树时,其生长发育的历期虽也有所延长,但差异不显著,rm值则明显降低。表明山楂叶螨对新寄主的适应因不同寄主而异,在桃和李上经历1代后即可适应,而在杏和樱桃上经历2代后才能适应新的寄主。     

Role of host feeding niches and host refuges in habitat-related behaviour of Hyssopus pallidus (Hymenoptera: Eulophidae), a larval parasitoid of the codling moth

Parasitoid fitness depends largely on the capability to locate a host in an ecosystem. A parasitoid of a polyphagous host might not be able to find or to access the host in all its feeding niches. This study evaluated the niche selection of Hyssopus pallidus (Askew), a larval parasitoid of Cydia pomonella (Linnaeus), at the plant level with the goal of assessing its potential for biological control on different fruit crops throughout the plant cycle. Parasitoid behaviour during host location and reproduction rate were investigated on host caterpillars actively feeding on apple, pear, apricot or plum, and on caterpillars diapausing under the bark. Under laboratory conditions, the host searching behaviour of H. pallidus varied depending on the fruit species offered and the infestation of the fruits. Parasitoid females searched longer on apples than on other fruit species, and they searched longer on infested than on uninfested apples. Female wasps were able to locate and parasitize host caterpillars under the tree bark, and their behaviour did not vary with host accessibility. The numbers of caterpillars attacked by H. pallidus depended on the fruit species. The highest numbers of caterpillars were parasitized in apples and apricots. Their accessibility (i.e. position) within the fruit or on the branch did not influence parasitism success. Although hosts were parasitized throughout the season, the best results were achieved with early and late releases. Therefore, the host niche selection behaviour of H. pallidus most likely co-evolved with the host C. pomonella on apples, which renders H. pallidus a valuable biocontrol agent for successful release at different times of the season into apple orchards.     

Identification and genetic diversity of plum cultivars grown in Belarus

A study of the collection of sour cherry, sweet cherry, common plum, diploid and tetraploid types of plums, and apricots grown in Belarus carried out using 20 SSR markers showed that they are characterized by high genetic diversity. Among 106 genotypes, 524 polymorphic alleles were identified. The average number of alleles was 15.4 in common plum samples, 11.3 in diploid and tetraploid plum, 9.3 in sour cherry, 6.0 in apricot, and 4.9 in sweet cherry. The greatest genetic diversity is characteristic of common plum cultivars (PD = 0.811). The genetic diversity decreases as follows: diploid plum (PD = 0.741), sour cherry (PD = 0.721), apricot (PD = 0.673), and sweet cherry (PD = 0.655). Cluster analysis shows that the degree of intraspecific divergence in sour cherry and sweet cherry cultivars is less than that of common plum, diploid plum, and apricot plum. Although apricots and plums belong to the subgenus Prunophora, according to the results of SSR analysis, apricot cultivars form a cluster that is more distant from both Cerasus and Prunophora. A set of seven SSR markers (EMPA001, EMPA005, EMPA018, EMPA026 and BPPCT025, BPPCT026, BPPCT039) was selected for DNA identification of cultivars of sour cherry, sweet cherry, common plum, diploid plum, and apricot, as well as species and interspecies hybrids.     

Modelling the geographical range of a species with variable life-history

We show how a climatic niche model can be used to describe the potential geographic distribution of a pest species with variable life-history, and illustrate how to estimate biogeographic pest threats that vary across space. The models were used to explore factors that affect pest risk (irrigation and presences of host plant). A combination of current distribution records and published experimental data were used to construct separate models for the asexual and sexual lineages of Rhopalosiphum padi (Linnaeus) (Hemiptera: Aphididae). The two models were combined with knowledge of host plant presence to classify the global pest risk posed by R. padi. Whilst R. padi has a relatively limited area in which sexual lineages can persist year round, a much larger area is suitable for transient sexual and asexual lineages to exist. The greatest risk of establishment of persistent sexual and asexual populations is in areas with warm temperate climates. At the global scale the models show very little difference in risk patterns between natural rainfall and irrigation scenarios, but in Australia, the amount of land suitable for persistent asexual and transient sexual populations decreases (by 20%) if drought stress is no longer alleviated by irrigation. This approach proved useful for modelling the potential distribution of a species that has a variable life-history. We were able to use the model outputs to examine factors such as irrigation practices and host plant presence that altered the nature (transient or permanent) and extent of pest risk. The composite niche maps indicate pest risk in terms that are useful to both biosecurity agencies and pest managers.