麦双尾蚜与麦田中生物和非生物因子的灰色关联分析

利用灰色系统理论,将麦双尾蚜Diuraphis noxia (Mordvilko) 种群消长动态与麦田生物群落中主要生物因子和非生物因子进行灰色关联分析。结果表明影响麦双尾蚜及其它麦蚜种群消长的关键因子主要为麦蚜间的竞争和天敌的捕食压力。非生物因子的作用较小,其中较重要的因子有平均相对湿度和降水量。在塔城小麦田中关键天敌类群为瓢虫类,寄生天敌的影响较小;在伊犁小麦田中,麦双尾蚜及其它麦蚜的关键天敌类群为蚜小蜂类,大麦田中斑腹蝇类较重要,燕麦田中瓢虫类占优势。     

麦田天敌种群动态及主要天敌对麦蚜捕食效能的研究

查明麦田害虫天敌有98种,其中捕食性天敌80种,寄生性天敌18种,对天敌种群动态作了系统观察,分析了影响天敌种群数量的环境因素,对大灰食蚜蝇,黑带食蚜蝇,七星瓢虫捕食麦蚜效能进行了探讨。     

应用罩笼法定量评价天敌对麦蚜的控害作用

【目的】定量分析麦田自然天敌对麦蚜的控制作用。【方法】系统调查和罩笼接虫法。【结果】龟纹瓢虫Propylaea japonica Thunberg是麦蚜的主要天敌。在麦蚜发生平稳期、盛发期、消退期,自然天敌对麦蚜有稳定的控制作用,控害指数分别为35%、42%和32%。【结论】在制定麦蚜的防治策略时,应充分考虑自然天敌的控害作用,加强对自然天敌的保护利用。     

小麦和牧草上的蚜虫与天敌种群动态及其相互关系

2008年4月底至6月初在山东禹城调查了小麦和3种牧草上的蚜虫和天敌种群密度。结果表明,麦蚜种群高峰期在5月中旬,寄生蜂和瓢虫的高峰期比蚜虫分别滞后5—10d和15～20d;麦蚜种群增长率与天敌种群密度变化呈负相关,其中与瓢虫的相关性达到显著水平;4月底至5月初小麦抽穗期是麦蚜种群爆发的关键时期,天敌密度低、害益比大是爆发的重要原因;4月底至5月初,牧草上的天敌密度是小麦上的2～3倍。牧草在麦蚜种群生态调控中具有潜在应用价值。     

瓢虫和草蛉对小麦挥发物组分的行为及电生理反应

利用触角电位（electroantennogram, EAG）和嗅觉测定技术,比较分析了4种捕食性天敌昆虫七星瓢虫Coccinella septempunctata、龟纹瓢虫Propylaea japonica、中华通草蛉Chrysoperla sinica和大草蛉Chrysopa septempunctata对麦蚜取食诱导小麦挥发物的行为和电生理反应,揭示了瓢虫及草蛉类天敌昆虫的嗅觉反应特点。4种捕食性天敌昆虫对麦蚜取食诱导挥发物都有较高的EAG反应值,七星瓢虫和龟纹瓢虫对6-甲基-5_庚烯-2-酮、6-甲基-5-庚烯-2-醇的反应值较大;中华通草蛉和大草蛉对6-甲基-5-庚烯-2-醇和水杨酸甲酯的反应值较大,七星瓢虫对6-甲基-5-庚烯-2-醇的反应值最大,为0.96±0.18 mV;4种天敌昆虫对苯甲醛的EAG反应值较低,对反-2-己烯醛无反应。“Y”型管嗅觉测定结果表明,4种天敌昆虫对2-莰烯、6-甲基-5-庚烯-2-酮、6-甲基-5-庚烯-2-醇和水杨酸甲酯具有正趋性。说明4种多食性的捕食性天敌昆虫对麦蚜取食诱导挥发物各组分的嗅觉与行为反应各具特点;寄主麦蚜生境中的嗅觉线索在这4种捕食性天敌昆虫的寄主定位和生境选择中起重要作用。     

麦蚜寄生蜂和捕食性天敌种群对景观复杂性的响应

农业景观结构影响昆虫的物种组成与多样性,本文选择复杂景观和简单景观的麦田景观为研究对象,研究了不同麦田景观结构对麦蚜天敌种群的影响。在简单与复杂两种景观下,分析了麦蚜寄生蜂和捕食性天敌的迁入时间、迁入量、种群增长率及种群密度之间的差异。结果表明:复杂景观中麦蚜寄生蜂和捕食性天敌的物种多样性较高,复杂景观下寄生蜂的迁入量高于简单景观下寄生蜂的迁入量。景观复杂性同样影响捕食性天敌的迁入时间,且捕食性天敌在复杂景观下迁入量均高于简单景观,而且存在显著性差异。两种景观中寄生蜂和捕食性天敌种群增长速率与最大种群密度均存在显著性差异。     

麦蚜及其天敌生态位的初步研究

本研究分析了麦蚜及其天敌生态位的概貌．结果表明两种麦蚜以黍缢管蚜生态位宽度较广（B=0．7284）;麦长管蚜生态位宽度较窄(B=0．6264);麦长管蚜与黍缢管蚜存在生态位重叠（L=0．6497）．在天敌群落中生态位宽度依次为食蚜蝇>飘虫>蚜茧蜂>蜘蛛>食虫蝽。天敌之间亦存在生态位重叠．五类天敌与麦长管蚜的生态位重叠均值高于与黍缢管蚜的均值．即天敌对麦长管蚜的空间跟随,控制作用越大．     

不同农业景观结构对麦蚜种群动态的影响

研究表明农业景观结构的复杂性与害虫种群发生强度关系密切,然而在不同农业景观结构下研究麦蚜的发生、种群及寄生蜂的变化还不多。设计了不同的麦田景观结构,调查研究了不同麦田景观结构对麦蚜种群的影响。在简单与复杂两种农业景观结构下,分析了不同种类麦蚜的入田时间、入田量、种群增长率、种群密度及寄生性天敌的多样性与寄生率。结果表明:景观结构对不同种类麦蚜影响不同,但复杂农业景观下麦蚜迁飞入田时间都要晚于简单农业景观(连片种植)下的入田时间,复杂农业景观下有翅蚜的迁入量显著低于简单景观下有翅蚜的迁入量,并且复杂农业景观下麦蚜种群增长速率高于简单农业景观下的增长速率。不同种类麦蚜对景观结构的不同反应可能与形态学与生活史特征有关,两种不同农业景观结构下寄生性天敌的多样性与寄生率无显著差异。复杂景观结构下的麦蚜有翅蚜低的迁入量、高的增长速率可能与生境高度破碎化有关,其中与温室大棚塑料白色反光有的很大的影响。生境破碎化影响了麦蚜对寄主植物寻找以及天敌对猎物的寻找效应。     

天敌—麦蚜—产量三者之间关系及控蚜指标的研究

笼罩试验表明,小麦扬花期,天敌与麦蚜在1：30-1：180之间时,蚜变系数为0.98-6.9,更正减退率为4.8-86.9%。与化防比较,减产为2.2-12.3%,天敌不同麦蚜的比值（x）同减产百分率（y）之间的直线回归方程为：y=-0.0211027 0.0008962x,r=0.92。套穗试验与上述结果趋于一致。分析天敌—麦蚜—产量三之间关系。结合化防指标等,提出以七星重瓢虫成虫食量为标准,天敌与麦蚜在1：57时不需化防。根据麦蚜主要天敌的食量,将该指标转换成天敌控蚜头数。     

麦蚜与龟纹瓢虫在麦田的空间格局分析

【目的】为保护麦田天敌并合理利用天敌对麦蚜进行控制。【方法】通过田间网格式取样调查,应用生态位和地统计学方法研究了麦田中麦蚜及其主要天敌龟纹瓢虫Proplaea japonica的时空分布格局。【结果】麦蚜及瓢虫时间序列上的种群动态分析显示,麦田中龟纹瓢虫发生期比麦蚜滞后,麦蚜与龟纹瓢虫的种群数量动态趋势相似,种群相关系数为0.930,表明龟纹瓢虫与麦蚜种群呈明显的跟随关系。在空间上,麦蚜和龟纹瓢虫两者的生态位重叠度随着麦蚜的发生量增多而增高,最高达0.52。麦蚜与龟纹瓢虫的空间格局在时间序列上,随着种群数量改变而变化。在低种群密度下,麦蚜的半变异函数为线性模型,呈随机分布;在高密度下,麦蚜和龟纹瓢虫的的半变异函数均为指数模型,呈聚集分布。Block Kriging空间插值分析,得到二维空间插值模拟图,较好反映了麦蚜和龟纹瓢虫种群在麦田的时空分布。【结论】麦田生态系统中麦蚜与其天敌——龟纹瓢虫在时空分布上具有较强的相似性。同时研究结果提示,评价自然天敌对害虫的控害功能时,要综合分析两者的数量关系和空间分布关系及其控害功能的协同作用,才能提出可靠的防治策略。     

麦田昆虫群落的结构与时序动态

采用目测法和网捕法 ,通过对小麦整个生长季节内昆虫群落的系统调查 ,共查得昆虫11目 2 3科 36种 ,其中捕食性昆虫有 4目 5科 12种、寄生性昆虫有 2目 3科 4种、植食性昆虫有 5目 12科 15种、粪食性等其他类昆虫有 1目 3科 5种。在捕食性天敌昆虫中 ,瓢虫的种类和数量最多 ,其次为草蛉和食蚜蝇 ;在寄生性天敌昆虫中 ,蚜茧蜂为优势种 ,其次为寄蝇 ;在植食性昆虫中 ,麦长管蚜为绝对的优势种 ,其次为赤须盲蝽、灰飞虱和麦蓟马。天敌昆虫对害虫具有明显的跟随现象 ,不能有效地控制麦长管蚜的发生与危害。依据昆虫群落的组成与结构 ,结合小麦生育期 ,采用最优分割法将麦田昆虫群落动态划分为 5个阶段 ,并指出不同阶段昆虫群落特点及相应的害虫防治策略。     

The responses of polyphagous predators to prey spatial heterogeneity: aggregation by carabid and staphylinid beetles to their cereal aphid prey

Abstract. 1. Discrete patches of aphids were artificially created in winter wheat fields in 1982 and in 1983 using field cages.
2. Aggregation by polyphagous predators at these patches following cage removal was measured using pitfall traps in patch and control areas.
3. Several species of polyphagous beetle (Carabidae and Staphylinidae) aggregated in these patches while other species did not.
4. The consequences of aggregation by polyphagous predators to a single prey species are discussed.     

麦田昆虫群落结构及多样性的季节动态

通过2年对麦田昆虫群落的系统调查,共查得昆虫11目、62科1、13种,其中植食类51种、捕食类23种、寄生类24种、腐食和食血类15种,种类数和个体数分别占群落总数的45.13,20.35,21.24,13.27%和92.89,2.19,3.63,1.35%。麦田昆虫群落可划分为4个营养层、6个功能团和19个类群,麦长管蚜Macrosiphum avenae(Fabricius)是绝对的优势种,其数量变动决定着总群落结构和多样性的季节动态。麦田昆虫群落多样性表现为前期和后期高、中期低的时间格局,类群多样性与物种多样性的变化趋势最为相似,可用类群多样性代替物种多样性进行群落分析。     

Changes in herbivore control in arable fields by detrital subsidies depend on predator species and vary in space

Prey from the decomposer subsystem may help sustain predator populations in arable fields. Adding organic residues to agricultural systems may therefore enhance pest control. We investigated whether resource addition (maize mulch) strengthens aboveground trophic cascades in winter wheat fields. Evaluating the flux of the maize-borne carbon into the food web after 9 months via stable isotope analysis allowed differentiating between prey in predator diets originating from the above- and belowground subsystems. Furthermore, we recorded aphid populations in predator-reduced and control plots of no-mulch and mulch addition treatments. All analyzed soil dwelling species incorporated maize-borne carbon. In contrast, only 2 out of 13 aboveground predator species incorporated maize carbon, suggesting that these 2 predators forage on prey from the above- and belowground systems. Supporting this conclusion, densities of these two predator species were increased in the mulch addition fields. Nitrogen isotope signatures suggested that these generalist predators in part fed on Collembola thereby benefiting indirectly from detrital resources. Increased density of these two predator species was associated by increased aphid control but the identity of predators responsible for aphid control varied in space. One of the three wheat fields studied even lacked aphid control despite of mulch-mediated increased density of generalist predators. The results suggest that detrital subsidies quickly enter belowground food webs but only a few aboveground predator species include prey out of the decomposer system into their diet. Variation in the identity of predator species benefiting from detrital resources between sites suggest that, depending on locality, different predator species are subsidised by prey out of the decomposer system and that these predators contribute to aphid control. Therefore, by engineering the decomposer subsystem via detrital subsidies, biological control by generalist predators may be strengthened.     

Arthropod food webs in organic and conventional wheat farming systems of an agricultural long‐term experiment: a stable isotope approach

• 1 Agricultural intensification not only alters the structure of arthropod communities, but also may affect biotic interactions by altering the availability of basal resources. We analyzed variations in stable isotope ratios (¹⁵N/¹⁴N and ¹³C/¹²C) of fertilizers, plants, prey and generalist predators in organic and conventional farming systems in a long‐term agricultural experiment [DOK trial (bioDynamic, bioOrganic, Konventionell)]. Two basal resources with pronounced differences in carbon isotope signatures, wheat litter (C₃ plant) and maize litter (C₄ plant), were used to uncover differences in food web properties between the two farming systems (conventional versus organic).
• 2 Predators incorporated significantly higher proportions of carbon from wheat sources in organically managed fields, suggesting that they were more closely linked to wheat‐consuming prey in this system. The δ¹⁵N values of three predaceous species were more than 2‰ greater in summer than in spring.
• 3 The results obtained suggest that generalist predators consumed higher proportions of herbivore prey in the organic system and that starvation and intraguild predation rates increased in some predator species with time.
• 4 Because the effects of farming system and sampling date on predators were species‐specific, conserving a diverse natural enemy community including species with different phenologies and sensitivities to management practices may, in the long term, be a good strategy for maintaining high pest suppression throughout the growing season.

     

The Role of Natural Enemy Foraging Guilds in Controlling Cereal Aphids in Michigan Wheat

Insect natural enemies (predators and parasitoids) provide important ecosystem services by suppressing populations of insect pests in many agricultural crops. However, the role of natural enemies against cereal aphids in Michigan winter wheat (Triticum aestivum L.) is largely unknown. The objectives of this research were to characterize the natural enemy community in wheat fields and evaluate the role of different natural enemy foraging guilds (foliar-foraging versus ground-dwelling predators) in regulating cereal aphid population growth. We investigated these objectives during the spring and summer of 2012 and 2013 in four winter wheat fields on the Michigan State University campus farm in East Lansing, Michigan. We monitored and measured the impact of natural enemies by experimentally excluding or allowing their access to wheat plants infested with Rhopalosiphum padi (L.) and Sitobion avenae (F.) (Hemiptera: Aphidae). Our results indicate that the natural enemy community in the wheat fields consisted mostly of foliar-foraging and ground-dwelling predators with relatively few parasitoids. In combination, these natural enemy groups were very effective at reducing cereal aphid populations. We also investigated the role of each natural enemy foraging guild (foliar-foraging versus ground-dwelling predators) independently. Overall, our results suggest that, in combination, natural enemies can almost completely halt early-season aphid population increase. Independently, ground-dwelling predators were more effective at suppressing cereal aphid populations than foliar-foraging predators under the conditions we studied. Our results differ from studies in Europe and the US Great Plains where foliar foraging predators and parasitoids are frequently more important cereal aphid natural enemies.     

Ground beetle (Coleoptera: Carabidae) diversity, activity density, and community structure in a diversified agroecosystem

Diversity and abundance of ground beetles (Coleoptera: Carabidae) can be enhanced in vegetable and field intercropping systems, but the complexity of polycultures precludes the application of generalized assumptions of effects for novel intercropping combinations. In a field experiment conducted at Lacombe and Ellerslie, Alberta, Canada, in 2005 and 2006, we investigated the effects of intercropping canola (Brassica napus L.) with wheat (Triticum aestivum L.) on the diversity and community structure of carabid beetles, and on the activity density responses of individual carabid species. Shannon-Wiener diversity index scores and species evenness increased significantly as the proportion of wheat comprising total crop plant populations increased in one site-year of the study, indicating a positive response to enhanced crop plant species evenness in the intercrops, and in that same site-year, ground beetle communities in intercrops shifted to more closely approximate those in wheat monocultures as the percentage of wheat in the intercrops increased. Individual carabid species activity densities showed differing responses to intercropping, although activity densities of some potential root maggot (Delia spp.) (Diptera: Anthomyiidae) predators were greater in intercrops with high proportions of wheat than in canola monocultures. The activity density of Pterostichus melanarius (Illiger), the most abundant species collected, tended to be greater in canola monocultures than high-wheat intercrops or wheat monocultures. We conclude that intercrops of canola and wheat have the potential to enhance populations of some carabid species, therefore possibly exerting increased pressure on some canola insect pests.     

Plant Species Composition Alters the Sign and Strength of an Emergent Multi-Predator Effect by Modifying Predator Foraging Behaviour

The prediction of pest-control functioning by multi-predator communities is hindered by the non-additive nature of species functioning. Such non-additivity, commonly termed an emergent multi-predator effect, is known to be affected by elements of the ecological context, such as the structure and composition of vegetation, in addition to the traits of the predators themselves. Here we report mesocosm experiments designed to test the influence of plant density and species composition (wheat monoculture or wheat and faba bean polyculture) on the emergence of multi-predator effects between Adalia bipunctata and Chrysoperla carnea, in their suppression of populations of the aphid Metopolophium dirhodum. The mesocosm experiments were followed by a series of behavioural observations designed to identify how interactions among predators are modified by plant species composition and whether these effects are consistent with the observed influence of plant species composition on aphid population suppression. Although plant density was shown to have no influence on the multi-predator effect on aphid population growth, plant composition had a marked effect. In wheat monoculture, Adalia and Chrysoperla mixed treatments caused greater suppression of M. dirhodum populations than expected. However this positive emergent effect was reversed to a negative multi-predator effect in wheat and faba bean polyculture. The behavioural observations revealed that although dominant individuals did not respond to the presence of faba bean plants, the behaviour of sub-dominants was affected markedly, consistent with their foraging for extra-floral nectar produced by the faba bean. This interaction between plant composition and predator community composition on the foraging behaviour of sub-dominants is thought to underlie the observed effect of plant composition on the multi-predator effect. Thus, the emergence of multi-predator effects is shown to be strongly influenced by plant species composition, mediated, in this case, by the provision of extra-floral nectar by one of the plant species.     

小麦T型细胞质雄性不育系、保持系蛋白质双向电泳比较研究

以小麦T型细胞质雄性不育系为材料,利用双向电泳技术,对苗期、分蘖期、拔节期和孕穗期叶片和花粉母细胞减数分裂期、单核小孢子期、二—三核小孢子期蛋白质变化作了分析。在细胞质雄性不育系小麦拔节期、孕穗期叶片中,有一个33KD/PI6.3蛋白组分存在,保持系中没有发现这个蛋白组分。在花粉败育的关键时期二—三核小孢子期,小麦细胞质雄性不育系有53KD/PI5.5、50KD/PI5.7、48KD/PI5.6和20KD/PI7.5四种蛋白组分存在,而保持系中也没有存在。小麦细胞质雄性不育系叶片和小孢子发育过程中存在的这五种特异蛋白可能参与育性调控,与细胞质雄性不育特性的形成有关。     

Isolation from mammalian predators differentially affects two congeners

Evolutionary isolation from predators can profoundly influencethe morphology, physiology, and behavior of prey, but littleis known about how species respond to the loss of only someof their predators. We studied antipredator behavior of tammarwallabies (Macropus eugenii) and western gray kangaroos (Macropusfuliginosus) on Kangaroo Island (KI), South Australia, andat Tutanning Nature Reserve on the mainland of western Australia.Both species on KI have been isolated from native mammalian predators for several thousand years. On KI, wallabies (becauseof their size) are vulnerable to diurnal aerial predators.In contrast, on the mainland both species have been exposedcontinuously to native and introduced mammalian and avian predators.At both locations, wallabies modified the amount of time they allocated to vigilance and foraging in response to group size,whereas kangaroos did so only at the higher risk Tutanningsite. Both species modified overall time budgets (they werewarier at the higher risk site), and both species modifiedspace-use patterns as a function of risk. At the higher risk site, tammars were closer to cover, whereas kangaroos were,on average, farther from cover. We hypothesize that the presenceof a single predator, even if it is active at a different timeof day, may profoundly affect the way a species responds tothe loss of other predators by maintaining certain antipredatorbehaviors. Such an effect of ancestral predators may be expected as long as species encounter some predators.