蚜虫学研究现状与学科发展趋势

蚜虫由于本身具有的一些特性,如周期性的孤雌生殖、多样的生活史、卵生或卵胎生、多样化的虫瘿、行为分化等特征,成为众多昆虫学家和进化生物学家研究的对象,以蚜虫为研究模型可以解决很多重大的生物学问题。综合最新的研究成果,本文从蚜虫系统学、蚜虫与寄主植物的关系、蚜虫生物地理学和多样性、蚜虫生物学和生态学、蚜虫行为学、蚜虫与内共生菌关系以及蚜虫功能基因组学等方面综述了蚜虫学的研究进展,并指出了蚜虫学研究中的热点。     

蚜虫种群遗传多样性的影响因素及分子基础

蚜虫是一个复杂的类群 ,不同种群之间常常表现遗传多样性 ,特别是同种蚜虫的不同种群 ,这种多样性与环境因素 (寄主植物、地理气候条件等 )的影响密切相关 ,而且蚜虫种群多样性无论在细胞学水平 ,还是分子生物学水平均表现明显的遗传分化。该文在分析了蚜虫种群遗传多样性影响因素的基础上 ,从蚜虫核型变化、核DNA和线粒体DNA遗传分化和多样性方面总结了导致蚜虫种群遗传多样性的内在分子基础 ,并讨论了研究蚜虫种群遗传多样性的重要意义和前景     

寄主植物一蚜虫-天敌三重营养关系的化学生态学研究进展

综述了寄主植物-蚜虫-天敌三重营养关系的化学生态学研究.重点阐述了3个研究热点①植物挥发性物质在蚜虫及其天敌选择奇主行为过程中的作用;②蚜虫信息素和蜜露对蚜虫天敌寄主选择行为的影响;③植物挥发性物质对蚜虫信息素作用的影响.对寄主植物-蚜虫-天敌三重营养关系的全面了解,将为蚜虫的综合治理提供新思维.     

蚜虫唾液蛋白研究进展

蚜虫属于半翅目蚜科,多为重要的农业害虫,通过刺吸式口器吸食植物汁液,传播病毒,其爆发常常造成重大经济损失。在漫长的协同进化历程中,植物建立了高效的防御系统以应对蚜虫威胁。为了克服植物的防御反应,蚜虫也发展了相应的反制手段,其中蚜虫在取食过程中分泌的唾液蛋白能调控植物防御反应,降解植物次生物质,从而在蚜虫与植物互作中发挥着至关重要的作用。本文综述了蚜虫唾液蛋白的组分鉴定方法和相关蛋白的功能,并对唾液蛋白在蚜虫防治的应用和今后的研究方向进行了展望。常见的蚜虫唾液蛋白组分的鉴定和分析方法包括唾液蛋白的酶活性分析、唾液蛋白组学分析、唾液腺转录组学和蛋白组学分析等。但这些方法各有利弊,仅采取一种分析方法不能客观全面地反映蚜虫唾液蛋白分泌谱,多种技术手段联合分析方可提供更为逼真详实的信息。蚜虫唾液蛋白种类繁多,可分为解毒酶、保护酶、水解酶、结合功能蛋白以及分类未知的效应蛋白等。蚜虫唾液蛋白功能多样,能参与唾液鞘的形成,诱导植物防御反应,促进蚜虫取食,提高蚜虫繁殖力等。通过RNAi干扰唾液蛋白编码基因会显著改变蚜虫取食行为,并降低蚜虫存活率、产蚜量和适合度。因此,唾液蛋白是防控蚜虫的理想靶标。目前,采用寄主诱导的基因沉默(host-induced gene silencing, HIGS)技术已培育了数种靶向唾液蛋白基因的高效抗蚜作物品系,展示出了良好的应用前景。从目前研究来看,各种蚜虫唾液蛋白谱急需采用多组学手段联合分析的方法来进行完整解析。各种唾液蛋白的具体功能方面的研究还严重缺乏,需从蚜虫、植物、两者之间的互作等多维度探究唾液蛋白的作用及相关的分子机制,为发展基于蚜虫唾液蛋白调控的蚜虫防治新策略打下基础。     

DNA条形编码在蚜虫类昆虫中的应用

2003年提出的DNA条形编码技术给生物分类研究带来了空前的繁荣,众多学者对此进行了分析和讨论.蚜虫类昆虫具有多型、转主寄生等复杂的生物学特性,其形态特征多有特化或退化,因此,DNA条形编码在蚜虫类昆虫中的应用必将给蚜虫分类学研究带来巨大的活力.文章总结了国际DNA条形编码技术的研究进展和现状,并展望了DNA条形编码在蚜虫类昆虫研究中应用的方向,该研究技术主要用于对蚜虫物种快速准确的鉴定、解决多型性问题、发现隐存分类单元,探讨蚜虫种间的系统发育关系、蚜虫与寄主植物的关系,解释蚜虫地理分布格局和推测近期分化物种的成因等.     

寄主植物-蚜虫-天敌三重营养关系的化学生态学研究进展

综述了寄主植物－蚜虫－天敌三重营养关系的化学生态学研究,重点阐述了3个研究热点：①植物挥发性物质在蚜虫及其天敌选择寄主行为过程中的作用;②蚜虫信息素和蜜露对蚜虫天敌寄主选择行为的影响;③植物挥发性物质对蚜虫信息系作用的影响。对寄主植物－蚜虫－天敌三重营养关系的全面了解,将为蚜虫的综合治疗提供新思维。     

中国蚜虫类昆虫物种多样性与分布特点(半翅目,蚜总科)

研究了蚜虫类昆虫在中国的物种多样性、区系成分和分布特点.基于多年的标本采集记录和已发表文献,建立了中国蚜虫物种数据库和中国蚜虫地理分布数据库.应用GIS的空间分析功能对中国蚜虫的地理分布和分布密度进行了分析.结果表明中国记录蚜虫类昆虫268属1 099种/亚种,其中特有种518种,占中国蚜虫物种总数的47.1%.中国蚜虫的区系成分十分复杂,主要分为9种类型,其中以典型古北种、典型东洋种、跨古北界和东洋界分布的物种为主,同时与新北界、澳洲界的关系也较为密切.在自然地理区划上,蚜虫在中国东部地区的分布多于西部地区,中部地区多于南北两端.基于物种多样性和分布密度,确定了蚜虫在中国的5个多样性中心,即甘南山地、横断山区、天山山地、东部平原和台湾岛.     

蚜虫与体内布赫纳氏菌及其次生共生菌的相互关系

对蚜虫与其内共生细菌共生关系的研究进展进行综述。布赫纳氏菌Buchnera普遍存在于蚜虫体内特殊的菌胞中,与蚜虫形成专性共生关系,为宿主蚜虫提供多种必需氨基酸和B族维生素。蚜虫体内的菌胞数量是一个动态变量,受蚜虫体内、外环境因子的影响。在某些蚜虫体内菌胞中还发现有若干种类次生共生细菌,其功能尚不完全清楚,可能与蚜虫的生态学特征有关。对蚜虫与其体内共生菌相互关系的研究提出一些新的问题。     

蚜虫迁飞的研究进展

蚜虫的迁飞能造成危害扩展、病毒病传播和防碍人们的正常生活。蚜虫迁飞有其生理生态基础。寄主营养、蚜群拥挤度、天敌以及气候条件是刺激有翅蚜产生的主因素。蚜虫迁飞与卵巢发育存在明显的共轭关系。蚜虫迁飞多发生在晴朗的白天 ,并且温度、光照和风是影响迁飞行为的主导因子。蚜虫可上升到逆温层并随气流迁飞到上百公里以外的地方。目前 ,昆虫雷达观察、天气学分析和分子生物学方法已应用于蚜虫迁学的研究中 ,文章对蚜虫迁飞的生理生态基础、迁飞行为、影响迁飞的生态因子以及研究方法进行了综述 ,以期为蚜虫这类小型昆虫的迁飞研究提供指导     

香港地区蚜虫物种多样性

蚜虫是半翅目中一类体型较小的昆虫,广布于世界各地,其中绝大部分是农林害虫。目前,国内许多地区已开展蚜虫物种多样性和区系研究,但香港地区因蚜虫研究基础薄弱,至今尚未开展过系统研究。作者研究和整理了英国自然历史博物馆和中国科学院动物研究所动物标本馆已有的香港地区蚜虫标本,并参考大量相关文献,从分类阶元、特有物种、动物地理区划和寄主植物四个方面分析了香港地区蚜虫物种多样性。研究发现香港地区已知蚜虫7科44属70种,分别占中国已知科、属、种的53.85%、16.60%和6.83%,多样性较为丰富,其中有香港地区特有种6种。香港地区在动物地理区划中位于东洋界华南区闽广沿海亚区,蚜虫物种以分布于东洋界、古北界 东洋界、东洋界 澳洲界成分为主。现记载香港地区共有蚜虫的寄主植物30科58属,其中蚜科的寄主植物最为丰富,其次为扁蚜科和斑蚜科;寄主植物中寄生蚜虫类群最多的3个科分别为:禾本科、桑科和樟科。虽然香港地区面积仅占中国总面积的万分之一,但该地区复杂的地形地貌、适宜的气候环境以及丰富的植被共同构成了有利于蚜虫生存的小生境,因此蚜虫物种多样性较高,这也是我国南方地区蚜虫物种丰富的鲜明体现。     

Additive multiple predator effects can reduce mosquito populations

1. Multiple predator interactions may profoundly alter ecological community dynamics and can complicate predictions of simpler pairwise predator–prey interaction strengths. In particular, multiple predator effects may lessen or enhance prey risk, with implications for community-level stability. Such emergent effects may modulate natural enemy efficacy towards target organisms. 2. In the present study, a functional response approach was used to quantify emergent multiple predator effects among natural enemies towards the disease vector mosquito complex, Culex pipiens. Conspecific multiple predator–predator interactions of the cyclopoid copepod Macrocyclops albidus (intermediate predator) were quantified by comparing multiple predator consumption simulations, based on individual consumption rates, with multiple predator consumption rates that were experimentally observed. Further, the study examined the influence of the presence of a predator at a higher trophic level, Chaoborus flavicans, on copepod group predation. 3. Both predators displayed type II functional responses, with C. flavicans consuming significantly more prey than M. albidus individually. Overall consumption levels of mosquitoes increased with greater predator density and richness. Antagonistic or synergistic emergent multiple predator effects between conspecifics of M. albidus were not detected, and the higher-level predator did not reduce effects of the intermediate predator. Accordingly, evidence for additive multiple predator interactions was found. 4. The lack of predator–predator interference between cyclopoid copepods and larval chaoborid midges provides strong support for their combined application in mosquito biocontrol. It is proposed that there should be increased examination of multiple predator effects in assessments of natural enemy efficacies to better understand overall predatory effects within communities and utilities in vector control.     

The influence of vigilance on intraguild predation

Theoretical work on intraguild predation suggests that if a top predator and an intermediate predator share prey, the system will be stable only if the intermediate predator is better at exploiting the prey, and the top predator gains significantly from consuming the intermediate predator. In mammalian carnivore systems, however, there are examples of top predator species that attack intermediate predator species, but rarely or never consume the intermediate predator. We suggest that top predators attacking intermediate predators without consuming them may not only reduce competition with the intermediate predators, but may also increase the vigilance of the intermediate predators or alter the vigilance of their shared prey, and that this behavioral response may help to maintain the stability of the system. We examine two models of intraguild predation, one that incorporates prey vigilance, and a second that incorporates intermediate predator vigilance. We find that stable coexistence can occur when the top predator has a very low consumption rate on the intermediate predator, as long as the attack rate on the intermediate predator is relatively large. However, the system is stable when the top predator never consumes the intermediate predator only if the two predators share more than one prey species. If the predators do share two prey species, and those prey are vigilant, increasing top predator attack rates on the intermediate predator reduces competition with the intermediate predator and reduces vigilance by the prey, thereby leading to higher top predator densities. These results suggest that predator and prey behavior may play an important dynamical role in systems with intraguild predation.     

Predator biodiversity strengthens herbivore suppression

Species diversity at lower trophic levels generally improves ecosystem functioning. However, the impact of greater predator diversity on herbivore regulation is uncertain because predator species both compete with and prey on each other. In a large-scale field experiment we examined the relationship between predator species diversity and the suppression of two herbivores, green peach and cabbage aphids, on collard plants. We show that, for both aphid species, the strength of herbivore suppression increased with higher predator biodiversity. Greater resource exploitation by predators in diverse communities generally led to improved predator survivorship and reproduction. Herbivore population size was negatively correlated with plant biomass, providing evidence that greater aphid suppression leads to improved plant growth. Our study suggests a harmonious relationship between predator conservation and herbivore control, and a relatively weak role for predator interference, within this community.     

The effects of habitat fragmentation on persistence of source-sink metapopulations in systems with predators and prey or apparent competitors.

We consider systems with one predator and one prey, or a common predator and two prey species (apparent competitors) in source and sink habitats. In both models, the predator species is vulnerable to extinction, if productivity in the source is insufficient to rescue demographically deficient sink populations. Conversely, in the model with two prey species, if the source is too rich, one of the prey species may be driven extinct by apparent competition, since the predator can maintain a large population because of the alternative prey. Increasing the rate of predator movement from the source population has opposite effects on prey and predator persistence. High emigration rate exposes the predator population to danger of extinction, reducing the number of individuals that breed and produce offspring in the source habitat. This may promote coexistence of prey by relaxing predation pressure and apparent competition between the two prey species. The number of sinks and spatial arrangement of patches, or connectivity between patches, also influence persistence of the species. More sinks favor the prey and fewer sinks are advantageous to the predator. A linear pattern with the source at one end is profitable for the predator, and a centrifugal pattern in which the source is surrounded by sinks is advantageous to the prey. When the dispersal rate is low, effects of the spatial structure may exceed those of the number of sinks. In brief, productivity in patches and patterns of connectivity between patches differentially influence persistence of populations in different trophic levels.     

The influence of generalist predators in spatially extended predator–prey systems

The presence of generalist predators is known to have important ecological impacts in several fields. They have wide applicability in the field of biological control. However, their role in the spatial distribution of predator and prey populations is still not clear. In this paper, the spatial dynamics of a predator–prey system is investigated by considering two different types of generalist predators. In one case, it is considered that the predator population has an additional food source and can survive in the absence of the prey population. In the other case, the predator population is involved in intraguild predation, i.e., the source of the additional food of the predator coincides with the food source of the prey population and thus both prey and predator populations compete for the same resource. The conditions for linear stability and Turing instability are analyzed for both the cases. In the presence of generalist predators, the system shows different pattern formations and spatiotemporal chaos which has important implications for ecosystem functioning not only in terms of their predictability, but also in influencing species persistence and ecosystem stability in response to abrupt environmental changes. This study establishes the importance of the consideration of spatial dynamics while determining optimal strategies for biological control through generalist predators.     

Estimating predation risk in zooplankton communities: the importance of vertical overlap

In order to estimate predation risk in nature, two basic components of predation need to be quantified: prey vulnerability, and density risk. Prey vulnerability can be estimated from clearance rates obtained from enclosure experiments with and without predators. Density risk is a function of predator density, and the spatial and temporal overlap of the predator and prey populations. In the current study we examine the importance of the vertical component of overlap in making accurate estimates of predation risk from the invertebrate predator Mesocyclops edax on rotifer versus crustacean prey. The results indicate that assumptions of uniform predator and prey densities cause a significant underestimation of predation risk for many crustacean prey due to the coincident vertical migration of these prey with the predator. The assumption of uniformity is more reasonable for estimating predation risk for most rotifer prey.     

Ventilatory frequency indicates visual recognition of an allopatric predator in nai;ve Nile tilapia

Perceiving a possible predator may promote physiological changes to support prey ‘fight or flight’. In this case, an increase in ventilatory frequency (VF) may be expected, because this is a way to improve oxygen uptake for escape tasks. Therefore, changes in VF may be used as a behavioral tool to evaluate visual recognition of a predator threat. Thus, we tested the effects of predator visual exposure on VF in the fish Nile tilapia, Oreochromis niloticus. For this, we measured tilapia VF before and after the presentation of three stimuli: an aquarium with a harmless fish or a predator or water (control). Nile tilapia VF increased significantly in the group visually exposed to a predator compared with the other two, which were similar to each other. Hence, we conclude that Nile tilapia may recognize an allopatric predator; consequently VF is an effective tool to indicate visual recognition of predator threat in fish.     

You can run--or you can hide: optimal strategies for cryptic prey against pursuit predators

We consider the optimal behavior of a cryptic prey individualas it is approached by a predator searching for prey. Althoughthe predator has not yet discovered the prey, it has an increasinglikelihood of doing so as it gets closer to the prey. Further,the closer the predator is to the prey when it discovers it,the more likely the predator will be to capture the prey. Thesearguments suggest that the prey should flee before the predatordiscovers it. However, the act of fleeing will alert the predatorto the presence of the prey and trigger an attack that mightnot have occurred otherwise. We capture these conflicting outcomesin a mathematical model, which we then use to predict the optimalbehavior of the prey and predator. We argue that the optimalstrategy for the prey is either to run as soon as they detecta predator approaching or to only flee in response to havingbeen detected by the predator. Running as soon as the predatoris detected is associated with low predator search speeds, alow nonpredation cost to running, a large advantage to the preyin initiating chases rather than reacting, limited ability tospot the predator at distance, a high ability to spot prey bythe predator, and a high probability that chases will be successful.The optimal strategy for the predator depends on whether itscurrent trajectory is taking it closer to or further from theprey. In the latter case, the predator should attack immediatelyon discovering the prey; in the former case, it should delayits attack until it reaches the point on its current trajectorywhere distance to the prey is minimized.     

Anti‐Predator Behaviour in a Nocturnal Primate,the Grey Mouse Lemur (Microcebus murinus)

Although one‐third of all primates are nocturnal, their anti‐predator behaviour has rarely been studied. Because of their small body size, in combination with their solitary and nocturnal life style, it has been suggested that they mainly rely on crypsis to evade predators. However, recent studies revealed that nocturnal primates are not generally cryptic and that they exhibit predator‐specific escape strategies as well as alarm calls. In order to add to this new body of research, we studied anti‐predator strategies of nocturnal grey mouse lemurs experimentally. In order to elicit anti‐predator behaviour and alarm calls, we conducted experiments with a carnivore‐, snake‐ and raptor model. We also conducted playback experiments with mouse lemur alarm calls to characterize their function. In response to predator models, they exhibited a combination of anti‐predator strategies: in response to carnivore and snake models, mouse lemurs monitored the predator, probably to assess the potential risk that emanates from the predator. In response to raptor models they behaved cryptically and exhibited freezing behaviour. All mouse lemurs, except one individual, did not alarm call in response to predator models. In addition, during playback experiments with alarm calls, recorded during real predator encounters, mouse lemurs did not emit alarm calls nor did they show any escape behaviour. Thus, as in other nocturnal primates/mammals, mouse lemurs do not seem to rely on routinely warning of conspecifics against nearby predators.     

Dynamics of a intraguild predation model with generalist or specialist predator

Intraguild predation (IGP) is a combination of competition and predation which is the most basic system in food webs that contains three species where two species that are involved in a predator/prey relationship are also competing for a shared resource or prey. We formulate two intraguild predation (IGP: resource, IG prey and IG predator) models: one has generalist predator while the other one has specialist predator. Both models have Holling-Type I functional response between resource-IG prey and resource-IG predator; Holling-Type III functional response between IG prey and IG predator. We provide sufficient conditions of the persistence and extinction of all possible scenarios for these two models, which give us a complete picture on their global dynamics. In addition, we show that both IGP models can have multiple interior equilibria under certain parameters range. These analytical results indicate that IGP model with generalist predator has “top down” regulation by comparing to IGP model with specialist predator. Our analysis and numerical simulations suggest that: (1) Both IGP models can have multiple attractors with complicated dynamical patterns; (2) Only IGP model with specialist predator can have both boundary attractor and interior attractor, i.e., whether the system has the extinction of one species or the coexistence of three species depending on initial conditions; (3) IGP model with generalist predator is prone to have coexistence of three species.