中华通草蛉和大草蛉幼虫对黑刺粉虱若虫的捕食功能反应

【目的】为了研究中华通草蛉Chrysoperla sinica(Tjeder)幼虫和大草蛉Chrysopa pallens(Rambur)幼虫对黑刺粉虱Aleurocan spinfetus(Quaintance)若虫的捕食作用。【方法】在室内(25±1)℃条件下对2种草蛉的捕食功能反应模型进行了评估,并对2种草蛉的3龄幼虫的种内干扰作用和自身密度作用的反应方程进行了拟合。【结果】2种草蛉的捕食功能均属于HollingⅡ反应模型,捕食量均随黑刺粉虱若虫密度的增加而增加。中华通草蛉和大草蛉的自身密度方程分别为E=0.753 0×P~(–0.134 8)和E=0.697 5×P~(–0.164 6),种内干扰作用方程分别为A=2.362 6×P~(–0.231 8)和A=2.429 6×P~(–0.225 6)。【结论】中华通草蛉和大草蛉对黑刺粉虱均具有较好的捕食作用。     

叶色草蛉的生物学研究Ⅱ.种群干扰和搜索行为(英文)

研究了叶色草蛉对棉蚜的搜索行为及其自身的种群干扰行为。结果表明:1)在两处地点的4种试验容器即培养皿、养虫器、内置障碍物的养虫器和内置盆栽棉花的笼罩中,草蛉幼虫的捕食效率因猎物的密度而变化。其捕食常数(Q)和干扰系数(m)随密度的增加而增大,但随空间异质性的增加而减小;2)在笼罩的棉株上,一龄和二龄草蛉幼虫每天的食蚜量分别为13.6头和29.4头。幼虫较多地在上部叶片上捕食棉蚜;3)在笼罩的棉株上,无论是一龄幼虫还是二龄幼虫草蛉都更多地停留在下部的棉叶上,且在上部叶片和下部叶片上的草蛉幼虫的百分率存在明显差异     

黄玛草蛉对木瓜粉蚧的捕食作用评价

为明确黄玛草蛉Mallada basalis(Walker)对木瓜粉蚧Paracoccus marginatus Williams and Granara de Willink的捕食作用,在实验室条件下观察了黄玛草蛉2龄、3龄幼虫对木瓜粉蚧2龄、3龄若虫及成虫的捕食选择偏好,同时采用捕食功能反应方法评价了黄玛草蛉2龄、3龄幼虫对木瓜粉蚧各虫态的捕食效能.结果表明,黄玛草蛉2龄、3龄幼虫偏好捕食木瓜粉蚧若虫,对木瓜粉蚧各虫态的捕食量均随着猎物密度的增加而增加符合HollingⅡ模型.其中,黄玛草蛉3龄幼虫具有较高的捕食能力,其对木瓜粉蚧2龄、3龄若虫及成虫的日最大捕食量分别为116头、81头和19头,a/Th值(a为瞬时攻击率,Th为处置单头猎物时间)分别为284.76、134.26和28.38.黄玛草蛉幼虫对猎物的寻找效应随猎物密度的增加而呈线性下降,且在相同猎物密度条件下,黄玛草蛉3龄幼虫对猎物的搜寻效应明显高于2龄幼虫.研究结果表明,黄玛草蛉对木瓜粉蚧具有较好的捕食能力.     

干扰作用及空间异质性对大草蛉雄成虫捕食作用的影响

大草蛉雄成虫在捕食过程中,麦秆数越多,环境阻力越大,空间异质性越复杂,捕食作用率越低;大草雄成虫种内干扰作用系数为0．9390,大草蛉雄成虫与龟纹瓢虫幼虫之间的种间干扰作用系数为0．8722,产者大于后者,竞争强度I与天敌P之间的关系为I=0.06400 1.1127lgP.     

中华草蛉、龟纹瓢虫和异色瓢虫对B型烟粉虱的捕食功能反应

室内研究了中华草蛉Chrysopa sinicaTjeder、龟纹瓢虫Propylaea japonica(Thunberg)和异色瓢虫Leis axyridis(Pallas)对B型烟粉虱Bemisiatabaci(Gennadius)若虫的捕食功能反应和寻找效应。结果表明,3种天敌成虫和幼虫的捕食量均随着猎物密度的增加而上升,当猎物增加到一定水平,捕食量趋向稳定,捕食功能反应曲线符合HollingⅡ型方程。异色瓢虫、中华草蛉和龟纹瓢虫成虫和幼虫对烟粉虱若虫的捕食量差异显著,理论最大日捕食量分别为417,263,156头和625,238,108头。3种天敌对烟粉虱若虫的寻找效应随着天敌密度的增加而下降,干扰作用逐渐增强,其寻找效应表现为龟纹瓢虫(0.5656)>异色瓢虫(0.4371)>中华草蛉(0.4029),对烟粉虱的控制能力表现为异色瓢虫>龟纹瓢虫>中华草蛉。     

不同龄期的大草蛉对桃蚜的捕食作用

大草蛉Chrysopa pallens（Rambur）是我国分布较广、捕食能力较强的天敌昆虫。为明确大草蛉对桃蚜Myzus percicae潜在的控制能力,在室内研究了大草蛉不同龄期幼虫和成虫对桃蚜的捕食作用,以及种内干扰对大草蛉捕食的影响。结果表明：25℃恒温条件下,大草蛉成虫和幼虫对桃蚜的捕食功能反应可拟合Holling Ⅱ圆盘方程,在24 h内大草蛉成虫、1龄幼虫、2龄幼虫和3龄幼虫对桃蚜理论最大捕食量分别为370.4头、21.5头、112.4头和217.4头。大草蛉成虫和幼虫对桃蚜的捕食量均随着猎物密度的增加而增加,当桃蚜数量增加到150头后,大草蛉成虫和幼虫捕食量的增加速度明显减缓。成虫及幼虫对桃蚜的搜寻效应随着猎物密度的增加而降低,内干扰作用随着大草蛉虫龄的增加而增强。试验结果表明大草蛉对桃蚜具有较强的控害能力,对研究桃蚜生物防治技术有重要参考价值。     

天敌昆虫大草蛉的研究进展与展望

大草蛉Chrysopa pallens(Rambur)是重要的捕食性草蛉种类之一,可捕食蚜虫、叶螨、粉虱、蓟马、鳞翅目卵及幼虫等多种害虫。本文综合分析了国内外近几十年对大草蛉的研究成果,对其生物学、生态学特性进行了归纳,尤其梳理了大草蛉嗅觉趋性行为、滞育特性、人工饲养、田间控害能力等研究热点,并对大草蛉的田间应用前景进行了展望。     

玛草蛉幼虫对螺旋粉虱若虫的捕食功能反应与搜寻效应

玛草蛉Maflada sp.是新入侵危险性害虫螺旋粉虱Aleurodicus dispersus Russell的捕食性天敌.本文在室内开展了玛草蛉幼虫对螺旋粉虱若虫的捕食功能和搜寻效应研究.结果表明:玛草蛉2龄和3龄幼虫对螺旋粉虱若虫的捕食反应均属HollingⅡ型,拟合方程分别为(Na=0.8836N--+0.88...     

饥饿对大草蛉雄成虫捕食作用的影响

对不同饥饿程度大草蛉雄成虫捕食作用影响的研究表明,饥饿不能改变大草蛉雄成虫捕食作用功能反应类型,饥饿对捕食量影响不显著;大草蛉雄成虫对麦二叉蚜的捕食量（Ｎａ）随着时间（ｔ）的变化,其模型为Ｎａ＝１００／１＋ｅ＾－０．３０８８－０．０９９６ｔ;大草蛉雄成虫在２４ｈ内的捕食速率（Ｖ）与其时间段（ｘ）的关系为Ｖ＝６．７１１７ｘ＾－０．７９２８;大草蛉雄成虫喜好选择捕食麦二叉蚜的低龄若蚜。     

黄玛草蛉对两种蚜虫的捕食效能

实验室条件下研究了黄玛草蛉2龄与3龄幼虫对甘蓝蚜以及玉米蚜成虫的捕食功能反应。结果表明:黄玛草蛉2龄与3龄幼虫对2种蚜虫的捕食量均随着猎物密度的增加而增加,寻找效应随着猎物密度的增加而减小。不同龄期幼虫对2种蚜虫的捕食功能反应均符合HollingⅡ模型,黄玛草蛉2龄与3龄幼虫对玉米蚜最大理论日捕食量分别为120.48头、185.18头;黄玛草蛉2龄与3龄幼虫对甘蓝蚜最大理论日捕食量分别为60.60头、86.95头。在相同猎物种类下,黄玛草蛉3龄幼虫对2种蚜虫的捕食量均高于黄玛草蛉2龄幼虫;在相同猎物密度下,黄玛草蛉2龄幼虫与3龄幼虫对玉米蚜的捕食量均高于甘蓝蚜。     

Causality, randomness, intelligibility, and the epistemology of the cell

Because the basic unit of biology is the cell, biological knowledge is rooted in the epistemology of the cell, and because life is the salient characteristic of the cell, its epistemology must be centered on its livingness, not its constituent components. The organization and regulation of these components in the pursuit of life constitute the fundamental nature of the cell. Thus, regulation sits at the heart of biological knowledge of the cell and the extraordinary complexity of this regulation conditions the kind of knowledge that can be obtained, in particular, the representation and intelligibility of that knowledge. This paper is essentially split into two parts. The first part discusses the inadequacy of everyday intelligibility and intuition in science and the consequent need for scientific theories to be expressed mathematically without appeal to commonsense categories of understanding, such as causality. Having set the backdrop, the second part addresses biological knowledge. It briefly reviews modern scientific epistemology from a general perspective and then turns to the epistemology of the cell. In analogy with a multi-faceted factory, the cell utilizes a highly parallel distributed control system to maintain its organization and regulate its dynamical operation in the face of both internal and external changes. Hence, scientific knowledge is constituted by the mathematics of stochastic dynamical systems, which model the overall relational structure of the cell and how these structures evolve over time, stochasticity being a consequence of the need to ignore a large number of factors while modeling relatively few in an extremely complex environment.     

On the Position of the Genera Turdoides, Argya, Illadopsis, Neociehla, Ptyrticus, Maerosphenus and Pseudoaleippe in the Timaliidæ

Although in these five genera the long broad first primary and rounded wing agree with Timalia pileata, as does the profile of the bill of Argya fulvus and Argya rubiginosus, they do not do so in any other respect,. neither in their habits, nest and eggs, nor in the scutation of the tarsus. We therefore propose to remove them all from the Timaliidae and place them in two separate families, but leaving them in their present position in the classification as placed by Sclater in Syst. Av. Æthiop. ii. 1930.     

Diacylglycerol, phosphatidic acid, and the converting enzyme, diacylglycerol kinase, in the nucleus

There exists phosphoinositide (PI) cycle in the nucleus, which is operated differentially from the classical PI cycle at the plasma membrane. Evidence has been accumulated that nuclear PIs and the related enzymes are closely involved in a variety of nuclear processes, although the details remain to be elucidated. In this mini review, some components of PI cycle, i.e., diacylglycerol, phosphatidic acid, and the converting enzyme, diacylglycerol kinase, in the nucleus are discussed with focusing on the lipid metabolism, cell cycle regulation, and animal models.     

The tree, the network, and the species

To enrich the Hennigian internodal conception of species, a new formalization of the definition of the species concept is proposed. This rigorous definition allows for considerable unification of the various, and sometimes conflicting, techniques of species delimitation used in practice. First, the domain of such a definition is set out, namely, the set of all organisms on Earth, past, present, and future. Next, the focus is on the genealogical relationship among organisms, which provides the key to analysing the giant or global genealogical network (GGN) connecting all these organisms. This leads to the construction of an algorithm revealing the topological structure of the GGN, from families to lineages, ending up with a definition of species as equivalence classes of organisms corresponding to branches of the 'tree of life'. Such a theoretical definition of the species concept must be accompanied by various recognition criteria to be operational. These criteria are, for example, the ill-named 'biological species concepts', 'phylogenetic species concepts', etc., usually, but wrongly, presented as definitions of the species concept. Besides clarifying this disputed point, the definition in the present study displays the huge diversity of the scales (time-scale and population size) involved in actual species, thus explaining away the classical problems raised by previous attempts at defining the species concept (uniparental reproduction, temporal depth of species, and hybridization).  © 2006 The Linnean Society of London, Biological Journal of the Linnean Society , 2006, 89 , 509–521.