虫瘿多样性及其与寄主植物和环境间关系

虫瘿是自然界极常见的生物现象,凝聚着昆虫与植物间显著、复杂而密切的协同关系。本文主要阐述了致瘿昆虫的主要类群及其在植物上的致瘿部位、虫瘿外部形态、虫瘿发育过程、虫瘿内部结构、虫瘿寄主植物多样性以及虫瘿空间分布规律等,探讨了致瘿昆虫和寄主植物间相互关系,以及影响虫瘿空间分布的环境因素等。最后对目前虫瘿生物学存在的问题及以后的研究方向进行了讨论,以期为有害虫瘿的控制和有益虫瘿的开发与利用,以及致瘿昆虫与寄主植物间协同演化关系、致瘿昆虫的致瘿机理等研究奠定一定的理论基础。     

虫瘿与其生物群落及寄主植物间的关系

虫瘿是自然界极其常见的生物现象,是植物与昆虫互作的奇特产物。本文对虫瘿生物群落多样性、虫瘿与其生物群落的关系以及虫瘿与寄主植物的关系进行概述,探讨了致瘿昆虫在虫瘿形成中的作用、植物化学对致瘿昆虫产卵交配行为的影响以及植物激素在虫瘿形成中的作用,最后对虫瘿今后的研究方向进行了讨论,为虫瘿的致瘿生物学及其瘿内生物相互关系的进一步研究奠定基础。     

致瘿昆虫对寄主植物生理和代谢的影响

虫瘿是致瘿昆虫刺激植物后诱导形成的畸形结构,是研究植物与昆虫协同进化的理想材料,同时致瘿昆虫通常还是重要的农林害虫。因此,研究致瘿昆虫对寄主植物的影响,一方面可进一步揭示致瘿昆虫与植物的关系,有助于揭示成瘿植物生长的一般过程;另一方面,了解成瘿植物对致瘿昆虫的响应有助于筛选植物抗性指标、抗性基因、敏感基因等,为抗性育种提供理论基础。本文主要围绕致瘿昆虫对寄主植物光合作用、生理和代谢活动的影响等进行了综述。致瘿昆虫普遍引起寄主植物光合色素减少、光合速率降低,虫瘿内部组织中糖类、氨基酸类等初生代谢物质含量增加,虫瘿外部组织中酚类、黄酮类等非挥发性和萜类为主的挥发性次生代谢物质含量增加,寄主植物POD和SOD等保护酶活性增强,以及IAA, SA和JA等植物激素含量提高。现有研究资料显示,致瘿昆虫对寄主植物生理和代谢影响的研究仍处于初级阶段,其影响机制还需要进一步研究。     

奇特的虫瘿

虫瘿作为自然界一种奇特的生物现象 ,主要是由致瘿昆虫通过产卵、取食或分泌化学物质刺激植物体而形成的。该文对虫瘿的致瘿原因和成瘿过程进行了详细描述 ,讨论了它与人类和植物的关系 ,并就其中富含脂肪、蛋白质等化学物质展望了未来人类在医疗、工业、园林等行业对虫瘿的开发和利用。     

植物的虫瘿与成瘿昆虫

虫瘿是植物组织遭受昆虫取食或产卵的刺激后,细胞加速分裂和异常分化而长成的畸形瘤状物或突起,它们是昆虫生活的"房子".介绍了虫瘿的形态多样性和形成过程,成瘿昆虫的多样性、生活史、寄生、食性和寄食现象,成瘿昆虫与寄主植物的关系以及人类对虫瘿的利用.     

向川安瘿蜂寄生白栎虫瘿和成瘿枝的代谢组比较

虫瘿是植物受致瘿昆虫产卵和取食等刺激而异常生长形成的不正常组织。营养假说认为虫瘿组织营养物质的含量高于寄主植物的成瘿部位,而次生代谢产物的含量低于寄主植物的成瘿部位。向川安瘿蜂(Andricus mukaigawae)属膜翅目(Hymenoptera)瘿蜂科(Cynipidae),在白栎(Quercus fabri)枝条上形成虫瘿。本文基于非靶向代谢组,使用高效液相色谱-质谱检测、鉴定和比较向川安瘿蜂幼虫期虫瘿与寄主植物成瘿枝的代谢物。研究结果表明,向川安瘿蜂虫瘿和成瘿枝的代谢物组成存在差异;虫瘿的脂肪含量均高于成瘿枝,虫瘿的4种单宁和4种黄酮物质的含量均低于成瘿枝,这支持营养假说;虫瘿的氨基酸含量均低于成瘿枝,部分酚类物质的含量高于成瘿枝,这不支持营养假说。     

植物虫瘿

虫瘿是造瘿昆虫诱导植物组织不正常生长产生的,它们通过释放某些酶或者植物激素刺激寄主植物细胞增大或增殖产生了特异形态的虫瘿,而这种特异形态就是造瘿昆虫遗传基因的体外表达。但虫瘿产生的分子机制不是十分清楚,文章主要对目前植物虫瘿的形态特征、形成机制等方面进行综述。     

中华蚊母树虫瘿类型及其致瘿昆虫生活史初探

初步观察了中华蚊母树(Distylium chinense(Fr.)Diels)不同类型虫瘿的发生过程及致瘿昆虫生活史。结果表明,中华蚊母树的虫瘿有3种类型,分别为叶/枝上大型虫瘿、叶上泡状虫瘿和叶柄/果上球型虫瘿。三者均为单室封闭型,次生开口。经鉴定致瘿昆虫均为半翅目蚜科昆虫,其中叶上泡状虫瘿致瘿昆虫为蚊母新胸蚜Neothoracaphis yanonis Matsumura。该虫3月初在虫瘿内营孤雌生殖,繁殖2代,5月底前飞离出瘿。     

一种花瘿蚊(双翅目:瘿蚊科)与其寄主植物对萼猕猴桃Actinidia valvata的相互关系(英文)

猕猴桃属植物Actinidia spp,自然分布于中国的亚热带地区。对萼猕猴桃A.valvata的花芽受Pseudasphond ylia 瘿蚊属一未知种的寄生而形成花芽虫瘿,这种花芽瘿由于近年来在制药工业上的应用而受到重视。在中国中南地区研究对萼猕猴桃—瘿蚊的相互关系过程中,我们的记载表明该造瘿昆虫在一定情形下可能改变其寄主植物的雌雄异株之生殖模式。野外调查与实验证明寄主植物受寄生而形成虫瘿的比例很高。但虫瘿密度却于不同沟谷间,或同一沟谷内不同植株间有异。在二条沟谷内,92％和75％植株分别被寄生,而在第3条沟谷内没有植株受寄生。受寄生的雄性植株只产生虫瘿,而受寄生的雌性植株则产生正常果与虫瘿。有迹象显示当寄主植株有虫瘿形成时其正常果数量也更多。作者认为这可能是昆虫诱导功能上雌雄异株植物形成雄性异株雌雄同株之生殖模式的少数例子     

《基于三级营养水平的进化生态学:一支黄花、作瘿昆虫及其天敌》

该书由美国普林斯顿大学出版社 1 997年出版 ,作者为ＷａｒｒｅｎＧ .Ａｂｒａｈａｍｓｏｎ和ＡｒｔｈｕｒＥ .Ｗｅｉｓ。全书通过对一支黄花、作瘿昆虫及其天敌间的相互作用的研究 ,建立了田地生态和进化生态相互作用的系统模式 ,阐明了三级营养水平相互作用的关系。主要内容包括 :( 1 )进化生态学、植物及昆虫的相互关系 ;( 2 )茎杆作瘿昆虫的天敌和一支黄花 :三级营养水平互作的模式系统 ;( 3 )硕蝽Ｅｕｒｏｓｔａ对一支黄花的影响 ;( 4)寄主植物对作瘿昆虫的抗性 ;( 5)作瘿昆虫对寄主植物的选择 ;( 6)由硕蝽Ｅｕｒｏｓｔａ产生的虫瘿 ;(…     

Cynipid galls on oak leaves are resilient to leaf vein disruption

Journal of Plant Research - Oaks serve as host plants for numerous insects, including those forming galls. Galls induced on oaks are completely dependent on leaf resources. Many other folivores...     

Why do many galls have conspicuous colors? A new hypothesis

Galls are abnormal plant growth induced by various parasitic organisms, mainly insects. They serve as “incubators” for the developing insects in which they gain nutrition and protection from both abiotic factors and natural enemies. Galls are typically armed with high levels of defensive secondary metabolites. Conspicuousness by color, size and shape is a common gall trait. Many galls are colorful (red, yellow etc.) and therefore can be clearly distinguished from the surrounding host plant organs. Here we outlined a new hypothesis, suggesting that chemically protected galls which are also conspicuous are aposematic. We discuss predictions, alternative hypotheses and experimental tests of this hypothesis.     

The chemical composition of plant galls: are levels of nutrients and secondary compounds controlled by the gall-former?

The chemical composition of galled and ungalled plant tissue was compared in a series of experiments. Gall and adjacent plant tissue was analysed for 20 species of gall-former on 11 different plant species. There were clear differences between galled and ungalled tissue in levels of nutrients and secondary compounds. Gall tissue generally contained lower levels of nitrogen and higher levels of phenolic compounds than ungalled plant tissue. The gall tissue produced by the same plant in response to different species of gall-former differed in chemical composition, as did the gall-tissue from young and mature galls of the same species. The chemical differences between gall and plant tissues were studied in more detail in two field manipulations. Firstly, the seasonal changes in phenolic biosynthesis in Pontania proxima and P. pedunculi (Hymenoptera: Tenthredinidae) gall tissue were compared to those of their host plants, Salix alba and S. caprea. In both types of gall tissue, phenolic levels declined as the season progressed, but levels in the surrounding plant tissue increased. When the gall insects were killed with insecticide, phenolic levels in the galled tissue dropped to the same level as those in adjacent plant tissue. Secondly, the density of Cynips divisa (Hymenoptera: Cynipidae) galls on Quercus robur leaves was reduced by removing half the galls present, either those from the central region of the leaf or those from the edge. Decreasing gall density increased the size of the remaining galls and the weight of the insects, but these effects were most marked when the galls remaining were growing centrally on the leaf, i.e. when the galls from the edge had been removed. Decreasing gall density increased the nitrogen content of the remaining galls, again to a greater extent in galls growing centrally on the leaf. The results of these studies suggest that the levels of nutrients and secondary compounds in gall tissue are usually markedly different to those of surrounding plant tissue, and that gall-formers may produce species-specific and temporally variable changes in the chemical composition of gall tissue. Received: 7 July 1997 / Accepted: 29 September 1997     

Structure of floral galls of Byrsonima sericea (Malpighiaceae) induced by Bruggmanniella byrsonimae (Cecidomyiidae,Diptera) and their effects on host plants

Galls are anomalies in plant development from parasitic origin, and affect cellular differentiation or growth of plants. This parasite–plant interaction occurs in many environments and typically in vegetative organs of plants. The existence of galls in reproductive organs and their effects on the host plant are seldom described in the literature. In this paper, we present a novel study of galls in plants of the neotropical region. Galls of Bruggmmaniella byrsonimae develop in the flower buds of Byrsonima sericea DC. (Malpighiaceae) and affect development of the reproductive organs and the reproductive effort of these plants. The sepals and petals show hypertrophy of parenchyma tissues after differentiation, and the stamens exhibit degeneration of the sporogenic tissue. The gynoecium is not entirely developed; ovary and ovules are often absent. Changes in vascular tissues are also frequent, which may indicate high demand for nutrient resources by the new tissues initiated by the larva. We compared the amount of inflorescences, galls and fruits to evaluate possible effects on host reproduction. The results suggest that the Cecidomyiidae galls in flower organs affect fruit set and the reproductive success of B. sericea.     

Host plant response and phenotypic plasticity of a galling weevil (Collabismus clitellae: Curculionidae)

The response of a host plant to gall‐inducing insects varies both among and within plants, so that different levels of resources are available to the insects. The weevil Collabismus clitellae Boheman induces galls on the shoots of Solanum lycocarpum St Hil. in south‐east Brazil. Galls are found on a range of parts within an individual plant and are more abundant on smaller plants. In the present study, the host plant response as a possible influence on the performance of C. clitellae both between and within plants was tested. Gall abortion increased with plant height. Within plants, gall size was positively related to shoot diameter and number of chambers within the gall. The increase in gall larval density (number of individuals per gall volume unit) resulted in smaller adults and reduced developmental rates, probably because of resource limitation within the gall. The number of eggs laid by females increased with shoot diameter. Females laid more eggs on thicker shoots, where there are fewer chances to form galls with high larval density. However, this relationship was weak and a large variation was found for adult sizes. The availability of high quality sites is limited to smaller plants and thicker shoots located on the basal region of the plant. The phenotypic plasticity of this insect species in adult size and development time allows individuals growing on low quality sites to reach maturity, thus enhancing exploitation of the host plant.     

Structural modification of Quercus petraea leaf caused by Cynips quercusfolii – histological study of galls

Galls formed by the interaction of insects on plant tissues are an example of the unusual transformation and use of plants by insects. The aim of this study was to characterize the structure of galls formed by Cynips quercusfolii L. on sessile oak leaves. In the structure of galls, we distinguished the following: (1) the protective ‘first contact zone’ created by epidermal and sub-epidermal sclerenchyma rings, (2) the wide parenchymatous ring, (3) the internal protective zone created by the sclerenchyma ring, and (4) the nutritional zone consisting of cells filled with amyloplasts containing starch. A characteristic for galls in the development stage is the centripetal starch gradient in which starch accumulates in a ‘ring of amyloplasts’ in the larval chamber.     

Hypersensitivity of Fagus sylvatica L. against leaf galling insects

Hypersensitivity is known as a localized resistance of plants against pathogens. It also can be detected in response to galling insects, i.e., in the area immediately adjacent to the site of oviposition and attempted penetration by the galling larva. This host response includes morphological and histological changes that cause the death of the attacked tissue. It is observed as a rounded dark brown halo around the gall induction site. We provide the first observation on the occurrence and possible relevance of this induced mechanism by which one of the most common tree species in Germany, Fagus sylvatica L., resists attack by two of its most common galling insects, Mikiola fagi and Hartigiola annulipes (Diptera: Cecidomyiidae). Galls induced by these cecidomyiids were extremely common in the studied area in beech forests around Darmstadt, Germany. The availability of resources (leaves on a stem) was a poor predictor of attack by the galling insects as well as for gall abundance (galls successfully formed). Hypersensitive reaction was the most important factor acting against the galling population studied. More than 77% of the attempts of the insects to induce galls on F. sylvatica resulted in failure and consequently the death of the galling larvae. Therefore, few live galls remained to be found and destroyed by natural enemies. This corroborates the view that in galling insect–host plant system interactions plant-driven factors may play a major role in determining herbivore failure and success, and perhaps the resulting community structure.     

Anti-insect effects of the gall wall of Baizongia pistaciae [L.], a gall-inducing aphid on Pistacia palaestina Boiss

The Enemy hypothesis is a theoretical framework for understanding the adaptive nature of galls induced in host plants by insects. Contrary to other gall inducing insects, like Cynipids or sawflies, this hypothesis has not been studied for the gall aphids on pistachio trees in the Middle East. Galls on plants are supposed to protect their inducers from other organisms, including herbivores feeding on the host plant and possibly feeding on the gall tissue. Assuming that among aphid enemies there are numerous insects which have to perforate the gall wall to access the aphids inside, determining whether the gall wall has anti-insect properties should be one of the first steps in dealing with this hypothesis. In the present research using Baizongia pistaciae [L.], an aphid that creates perfectly closed galls in Pistacia palaestina Boiss, laboratory experiments were first conducted on a herbivore, the stored grain pest, Tribolium castaneum Herbst, to assess chemical anti-insect activities of the gall tissue, and an effort was made to understand why these properties do not harm the aphids inside the gall. Addition of fresh gall tissue to food reduced the population growth of flour beetles. Non-polar organic extracts had contact toxicity for larvae of these insects, and an impact on the feeding preferences of the adults. These results indicate chemical anti-insect activities of the gall tissue. The research also reveals that the permeability of the gall wall to non-polar volatile compounds is important to the survival of the aphids inside the gall cavity. These findings do not allow us to reject the Enemy hypothesis in the gall-inducing aphids/Pistacia trees interactions.