白蚁表皮碳氢化合物研究进展

近年来, 固相微萃取等现代技术的使用显著促进了白蚁表皮碳氢化合物研究的开展。至今, 已有约29种白蚁的表皮碳氢化合物组分得到鉴定, 分属于木白蚁科、 鼻白蚁科、 原白蚁科和白蚁科, 其组分主要为正烷烃、 含有不同数量甲基的支链烷烃及少量烯烃。白蚁表皮碳氢化合物不仅具有一定的科、 属特异性, 大多数种类还具备特有组分, 表明其可作为种间识别的指标。表皮碳氢化合物组分在种内个体识别方面的作用, 在低等白蚁中多获得了支持性结果, 但也有研究认为在这些种类中表皮碳氢化合物不是种内个体识别（同巢个体识别）的唯一指标。发现其与品级分化的相关是近年来白蚁表皮碳氢化合物研究的重要进展。有些种类表皮碳氢化合物的年消长与生殖蚁的分化有关; 而另一些种类生殖蚁含有表皮碳氢化合物特有组分, 其含量与生殖蚁的生殖状态有关, 提示其可能在品级分化中发挥重要作用。作为研究白蚁品级分化和维持机理的新方向, 表皮碳氢化合物值得进一步研究探索。     

实验室内从幼年群体中培养出家白蚁短翅补充型

白蚁是多形态昆虫,一般每一家族可分为两大类型:生殖类型(繁殖蚁)和非生殖类型(不育蚁)。在两大类型中,一般又可分化为若干品级;非生殖类型中有工蚁和兵蚁等品级。对品级分化、生成及调节,近年来已做了很多工作。总的说来,白蚁品级分化不能单用遗传来解释。因为新孵化的幼蚁(若蚁)可以分化为各个品级的成员。多种因素,例如外激素及激素(内分泌)在品级分化上起到重要作用。     

乳白蚁属Coptotermes(Isoptera: Rhinotermitidae)检疫分子鉴定研究进展

白蚁是一类受到世界广泛关注的重要社会性昆虫,对人类生活、经济以及生态环境等有很大的影响,特别是乳白蚁属Coptotermes众多种类危害尤为严重。乳白蚁常随木质包装或原木远距离传播异地建群,其为害隐蔽、潜伏期长,一旦爆发则为害严重且难防治,因其种类多、形态趋同,同一巢群中有龄期不一的虫态和多种生物型,可用分类特征少,造成形态分类困难、人为分类现象普遍。近年来分子生物学技术的日益发展,使得白蚁的分类鉴定更加快速、灵敏和可靠,系统发育分析研究更为深入全面,遗传进化方面取得大量研究成果。本文对基于生物信息学的乳白蚁属检疫分类鉴定和系统发育研究方法进行了介绍和评述,并对DNA技术在乳白蚁属分类和进化研究中的应用进行了讨论。     

白蚁唾腺及水分管理

白蚁唾腺及其水分管理是白蚁社会行为及生态功能的基础。白蚁唾腺包括上唇腺、上颚腺和下唇腺。上唇腺仅在少数白蚁中有报道,是否普遍存在尚存疑问。上颚腺为1对小型腺体,分别位于两侧上颚基部的头腔内,在不同种类白蚁中广泛存在。其分泌物可能与防卫、品级分化及保护上颚免于磨损有关。下唇腺在不同种类白蚁的各品级个体中广泛存在,是白蚁中功能最复杂的外分泌腺体;由腺泡群、下唇腺囊及相关的导管组成;其分泌物复杂多样,行使营养、防卫及水分管理等功能。本文介绍白蚁唾腺的解剖形态、超微结构、分泌物种类与功能、水分管理等方面的研究进展,提出了白蚁水分管理机制的可能途径。     

黑胸散白蚁下唇腺的解剖和扫描电镜观察

【目的】通过研究黑胸散白蚁Reticulitermes chinensis下唇腺解剖构造及其在不同品级个体间的分化,为进一步探索口交哺和品级分化机制提供参考。【方法】通过显微解剖观察,了解黑胸散白蚁下唇腺的形态构造及其在不同品级个体间的分化;通过扫描电镜观察,了解下唇腺的结构及神经支配;通过饮水实验,研究工蚁饮水及下唇腺囊的贮水功能。【结果】黑胸散白蚁下唇腺是左右对称结构,每侧构造由一个下唇腺腺泡群、一个下唇腺囊及相关的导管组成。每侧导管分别开口于舌基部下方。蚁后的下唇腺最发达,在下唇腺大小、下唇腺囊大小、腺泡大小及腺泡数量4方面均显著高于其他品级个体;兵蚁、工蚁、有翅成虫的下唇腺也较为发达,相互之间这4个参数的差异性不显著。扫描电镜观察发现,工蚁下唇腺腺泡由主导管和分支导管相连,腺泡外侧有神经分布。黑胸散白蚁工蚁有饮水习性,获得的水贮存在下唇腺囊内。【结论】黑胸散白蚁不同品级个体间,蚁后的下唇腺最发达,有翅成虫的下唇腺也比较发达,说明蚁后除行使生殖职能外,还承担交哺育幼等职能。黑胸散白蚁工蚁有饮水习性,下唇腺囊有贮水功能。     

扩头蔡白蚁消化与生殖系统解剖及其与黑翅土白蚁的比较研究

扩头蔡白蚁Tsaitermes ampliceps(Wang&Li)和黑翅土白蚁Odotoermes formosanus(Shiraki)是分布广泛的食木性昆虫,群居生活,具有复杂的品级分化.本试验研究了低等白蚁扩头蔡白蚁不同品级的消化和生殖系统结构,并与高等白蚁黑翅土白蚁进行了比较.结果显示扩头蔡白蚁的消化、生殖系...     

保幼激素类似物对白蚁的作用研究进展

本文介绍了保幼激素类似物对白蚁的影响,包括诱导前兵蚁、兵蚁和一些中间品级(形态畸形)的产生、抑制白蚁的取食、减少或消除白蚁的共生原生动物群、对白蚁产生不同水平的急性和慢性毒性、抑制工蚁蜕皮以及繁殖蚁建立新群体等方面的影响,其中最主要影响是诱导前兵、兵蚁和一些中间品级的产生破坏了白蚁群体品级比例的平衡性或完整性.因此,保幼激素类似物可用于白蚁的防治,并在田问防治散白蚁和乳白蚁均取得了较好的防治效果,并探讨了应用保幼激素类似物防治白蚁的潜力与前景.     

台湾乳白蚁种群兵蚁量度特征变异及其分类学意义分析

台湾乳白蚁Coptotermes formosanus是我国南方木材及其建筑结构最主要的有害白蚁,也是世界重要的入侵性物种。台湾乳白蚁兵蚁品级的量度特征是其描述鉴定的重要依据,本文对台湾乳白蚁兵蚁主要量度特征数据进行了整合,并就台湾乳白蚁11个地理种群兵蚁品级的主要量度特征进行了比较,探讨了台湾乳白蚁相应量度特征的分类学意义。     

白蚁的品级和胚后发育

白蚁品级划分涉及个体发育、解剖构造、外部形态、行为以及群体功能等诸多方面,这些因素相互交织以及不同作者思考的角度不同,都会造成品级定义和内涵的差异。本文介绍了白蚁蜕皮类型、综述了白蚁品级的定义和内涵以及胚后发育途径的研究进展,并对相关问题进行了讨论。     

白蚁信息素研究进展

白蚁是最古老的社会性昆虫, 其社会性的维持需要信息素的相互作用。本文回顾了近年来国内外白蚁信息素研究的最新进展, 内容涉及白蚁踪迹信息素、 性信息素、 告警信息素和促食信息素的功能、 化学成分及产生信息素的外分泌腺。白蚁分泌信息素的腺体主要有背板腺、 腹板腺、 后腹板腺、 额腺和唾腺。绝大多数白蚁信息素是挥发性物质。白蚁在化学通讯上存在节俭策略, 即同一种化合物由不同的白蚁种类的不同外分泌腺分泌, 可具有不同的功能。总结了各类信息素在白蚁物种间、 同一物种的品级间和性别间的异同和作用方式, 强调了白蚁信息素的反应阈值、 最佳浓度、 有效期和物种特异性对其功能的影响。目前对白蚁信息素的研究尚处于起步阶段, 其研究成果对等翅目系统发育研究和白蚁防治具有重要的意义。文章最后展望了白蚁信息素在白蚁防治上的应用前景。     

Effects of juvenile hormone III on Reticulitermes flavipes: changes in hemolymph protein composition and gene expression

Termites express polyphenism during caste differentiation that is mostly undefined at the molecular level. Using the eastern subterranean termite, Reticulitermes flavipes Kollar, we wanted (1) to test juvenile hormone (JH) model assays for their ability to induce detectable molecular changes in worker termites and (2) to investigate hemolymph proteins and their corresponding genes during JH-induced soldier caste differentiation. Our results illustrate pronounced changes in two hemolymph proteins after JH treatment, as well as differences among several caste phenotypes. Significant increases in the expression of four genes encoding hemolymph proteins, including two vitellogenins and two hexamerins, were observed after JH exposure. These findings are the first to demonstrate such protein and gene expression changes during termite caste differentiation. These results also validate the utility of JH model assays for inducing detectable molecular changes in worker termites that have begun presoldier differentiation.     

Transcriptomic analysis of epigenetic modification genes in the termite Reticulitermes speratus

Eusocial insects display a caste system in which different castes are morpho-logically and physiologically specialized for different tasks.Recent studies have revealed that epigenetic modifications,including DNA methylation and histone modification,me-diate caste determination and differentiation,longevity,and polyethism in eusocial insects.Although there has been a growing interest in the relationship between epigenetic mech-anisms and phenotypic plasticity in termites,there is ltte information about differential expression levels among castes and expression sites for these genes in termites.Here we show royaltissuc-specific expression of epigenetic modification genes in the termite Reticulitermes speratus.Using RNA-seq,we identified 74 genes,including three DNA methyltransferases,seven sirtuins,48 Trithorax group proteins,and 16 Polycomb group proteins.Among these genes,15 showed king-specific expression,and 52 showed age-dependent differential expression in kings and queens.Quantitative real-time PCR revealed that DNA methyltransferase 3 is expressed specifically in the king's testis and fat body,whereas some histone modification genes are remarkably expressed in the king's testis and queen's ovary.These findings imply that epigenetic modification plays important roles in the gamete production process in termite kings and queens.     

Life history and development--a framework for understanding developmental plasticity in lower termites

Termites (Isoptera) are the phylogenetically oldest social insects, but in scientific research they have always stood in the shadow of the social Hymenoptera. Both groups of social insects evolved complex societies independently and hence, their different ancestry provided them with different life-history preadaptations for social evolution. Termites, the 'social cockroaches', have a hemimetabolous mode of development and both sexes are diploid, while the social Hymenoptera belong to the holometabolous insects and have a haplodiploid mode of sex determination. Despite this apparent disparity it is interesting to ask whether termites and social Hymenoptera share common principles in their individual and social ontogenies and how these are related to the evolution of their respective social life histories. Such a comparison has, however, been much hampered by the developmental complexity of the termite caste system, as well as by an idiosyncratic terminology, which makes it difficult for non-termitologists to access the literature.
Here, we provide a conceptual guide to termite terminology based on the highly flexible caste system of the "lower termites". We summarise what is known about ultimate causes and underlying proximate mechanisms in the evolution and maintenance of termite sociality, and we try to embed the results and their discussion into general evolutionary theory and developmental biology. Finally, we speculate about fundamental factors that might have facilitated the unique evolution of complex societies in a diploid hemimetabolous insect taxon. This review also aims at a better integration of termites into general discussions on evolutionary and developmental biology, and it shows that the ecology of termites and their astounding phenotypic plasticity have a large yet still little explored potential to provide insights into elementary evo-devo questions.     

Morphogenesis and gene expression in the soldier-caste differentiation of termites

Summary: Since almost all termite species possess a soldier caste, there must be ubiquitous mechanisms of soldier differentiation throughout isopteran species. In order to reveal the caste differentiation mechanisms, observations during the soldier morphogenesis and identification of soldier specific gene expression are thought to be important. In this article, I summarize research approaches for analyzing caste differentiation in termites, and introduce two of our studies in Hospitalitermes medioflavus (Termitidae) and Hodotermopsis japonica (Termopsidae).¶Colonies of the nasute termite H. medioflavus have soldiers with a frontal projection (nasus) on the head, from which defensive substances are secreted. During soldier differentiation from male minor worker to presoldier, the most dynamic morphogenesis occurs. In the presumptive nasus epithelium of minor workers, a disc-like structure termed "soldier-nasus disc" rapidly develops to form the nasus of presoldiers. This rapid growth is associated with two folding layers of cuticle and epithelium.¶To identify genes specifically expressed in soldiers of the damp wood termite Hodotermopsis japonica, a differential display using RT-PCR was tried, comparing mRNA from the heads of soldiers and pseudergates. An identified gene candidate termed SOL1 was expressed specifically in terminally differentiated mature soldiers, and the product of the gene was suggested to encode a novel protein with a putative signal peptide at the N-terminus. This gene was shown to be expressed in the mandibular glands which actually develop during the soldier differentiation. Thus, these molecular techniques are applicable to reveal the proximate mechanisms of caste determination in termites and other social insects.     

On the origin of termite workers: weighing up the phylogenetic evidence

Resolving the phylogenetic history of a 'true' worker caste in termites is essential to our understanding of termite eusocial evolution. Whether this caste is ancient and monophyletic or derived and polyphyletic will have a tremendous impact on our interpretation of termite eusocial history and remains an outstanding question in termite biology. Recent work has begun to re-examine this question in light of new phylogenetic information, but new questions have now arisen about how best to model character state changes in termite caste systems. In the present paper, we compare the models of Grandcolas and D'Haese [J. Evol. Biol. 15 (2002) 885] and Thompson et al. [J. Evol Biol. 13 (2000) 8691 and attempt to make explicit how these proposals differ with respect to the number of, and homology between, character states. We highlight the support each model has for the two principal, but competing, evolutionary hypotheses outlined above.     

A novel gene from the takeout family involved in termite trail-following behavior

This study investigated physiological and behavioral functions of a novel gene identified from the termite Reticulitermes flavipes. The gene, named deviate, encodes an apparent ligand binding protein from the takeout-homologous family. Initial studies were conducted to investigate deviate mRNA expression among termite castes and body regions, and changes in response to light-dark conditions, starvation, temperature, and juvenile hormone (JH). Deviate has ubiquitous caste and tissue expression, including antennal expression. Consistent with characteristics of other takeout family members, deviate expression is responsive to photophase conditions (p<0.1), and feeding, temperature, and JH (p<0.05). Using RNA-interference (RNAi) techniques, short-interfering RNAs (siRNAs) homologous to the deviate gene were synthesized and injected into worker termites, which were then subjected to bioassays designed to (1) induce caste differentiation or (2) measure various behavioral aspects of foraging and trail following. No impacts on JH-dependent caste differentiation were observable. However, trail following accuracy was significantly reduced in termites that received deviate siRNA injections, and this pattern generally mirrored deviate mRNA attenuation and recovery after RNAi. In a subsequent distance foraging bioassay, deviate-silenced termites exhibited equal feeding levels to controls, suggesting the deviate gene is not linked to general vigor or the ability/motivation of termites to move and forage. These findings are among the first linking the expression of a termite gene with eusocial behavior; they illustrate the connection between deviate expression and trailing behavior, which is a key evolutionary adaptation vital to subterranean social insects such as termites and ants.     

Caste- and development-associated gene expression in a lower termite

Background  

Social insects such as termites express dramatic polyphenism (the occurrence of multiple forms in a species on the basis of differential gene expression) both in association with caste differentiation and between castes after differentiation. We have used cDNA macroarrays to compare gene expression between polyphenic castes and intermediary developmental stages of the termite Reticulitermes flavipes.     

Lignocellulose degradation by microorganisms from termite hills and termite guts: A survey on the present state of art

Abstract: In several aspects termites are a fascinating group of insects having attracted the interest of many researchers. They exhibit a complex social behavior and caste differentiation occurring elsewhere only among the hymenoptera. In an enlarged part of the hindgut, the paunch, termites have established a unique symbiotic association with prokaryotic and eukaryotic microorganisms. A similar flora is also found in wood-eating roaches of the genus Cryptocercus . The study of symbiosis between termites and their intestinal microbes is of general interest, because due to this symbiotic interaction termites can feed on complex biopolymers such as wood. Flagellates and bacteria occur in the gut of lower termites, while higher termites possess only bacteria. In particular spirochetes are abundant in the termite gut. Apart from spirochetes and other more common bacteria, actinomycetes, yeasts and fungi have also been isolated from different species of termites. This review summarizes the distinct role of the intestinal flora in degradation of wood components such as cellulose, hemicellulose and lignin.