Exploring landscape structure effect on termite territory size using a model approach

The foraging territory of the Formosan subterranean termite, Coptotermes formosanus Shiraki, was simulated by using a lattice model in order to study how landscape structure affects the foraging territory. Three kinds of landscape were generated on lattice space: ideal, random and fractal landscape. Each lattice cell had a value ranging from 0.0 to 1.0, interpreted as transition probability, P_trans, which represents spatially distributed property of the landscapes. The heterogeneity of the fractal landscape was characterized by a parameter, H, controlling aggregation of lattice cells with higher value of P_trans. Higher H values corresponded to higher aggregation levels. The model made use of minimized local rules based on empirical data that determines the development of the foraging territory. Additionally, seasonal cycle (summer and winter season), and obstacles which hinder the growth of the territory were incorporated in the model as environmental variables. Territory size was largest in the ideal landscape while it was larger in the random landscape than in the fractal landscape. As obstacle density increased, the territory size decreased. In the fractal landscape, the territory size increased, decreased, and increased again as H increased.     

白蚁抗病原微生物侵染机制研究进展

白蚁作为古老的社会性昆虫,在其生活史内易受到多种病原物的潜在威胁。本文主要根据白蚁的生理免疫及其社会性行为,如白蚁的细胞免疫和体液免疫以及相互清理等利他性行为,对其抵抗病原物侵染和扩散的个体生理免疫和群体行为防御策略进行了综述,以期为白蚁免疫策略的研究提供必要的信息。目前已从白蚁额腺和胸腺中分离到具抗菌活性的分泌物,且已明确白蚁能产生termicin、spinigerin等抗菌肽和转铁蛋白、溶菌酶等抗菌蛋白,抗菌肽的理化性质已得到初步研究。此外,白蚁的社会性行为( 如相互清理、交哺等) 能有效降低白蚁被病原物侵染的几率。运用RNA干扰等分子生物学方法证明利用病原微生物防治白蚁具有广阔的前景,但需要我们对白蚁抗菌肽的进化、各种抗菌肽和抗菌蛋白之间的相互作用以及各种生理免疫策略与群体内的社会性行为之间的联系进行更深入的研究。     

Synonymy of soil-feeding termites Pseudocapritermes sowerbyi and Pseudocapritermes largus,with evidence from morphology and genetics

Pseudocapritermes Kemner is a termite group that constructs subterranean gallery systems in topsoil. This genus is distributed in the Oriental region and contains 18 species. Dependence on the morphological measurements of soldiers makes the taxonomy of Pseudocapritermes difficult. In this study, we compared morphological characters of soldiers and adults of P. largus and P. sowerbyi. In addition, three fulllength mitochondrial genes (COI, COII, and 16S rRNA) were sequenced from a total of eight P. largus and P. sowerbyi colonies. Morphological comparison of soldiers showed that P. largus is larger than P. sowerbyi, but there was overlap in some measurements. In adults, the morphological characters of P. largus were congruent with those of P. sowerbyi. Sequence alignments of COI, COII, and 16S rRNA revealed a high pairwise genetic identity (ranging from 99.64 to 100%) between the two species, which suggested that P. largus and P. sowerbyi are the same species. Molecular phylogenetic analysis based on COII revealed that Pseudocapritermes belongs to the Termes group having soldiers with asymmetrical snapping mandibles and is more closely related to Sinocapritermes than to other Termes group genera distributed in China. Morphological similarity and genetic identity indicate that P. largus is a junior synonym of P. sowerbyi.     

The ontogeny of soldiers in Prorhinotermes simplex (Isoptera, Rhinotermitidae)

The ontogeny of the soldier caste in Prorhinotermes simplex is studied with emphasis on the instar origin of soldiers, the duration of the presoldier stage, and changes in external anatomy during the soldier morphogenesis. The soldiers of different instar origin are compared morphometrically and by analysis of the soldier defensive secretion. The soldiers were found to develop from larvae of the second up to the eighth instar, via a short (13–17 days) presoldier stage. The early soldier instars were found exclusively in incipient colonies while the mature colony contains late instar soldiers only. The abrupt change in the external anatomy occurs in two steps. During the larva-presoldier moult, the head increases in length but only slightly in width. During the presoldier-soldier moult, both the length and width of the head increase markedly and the typical cordate shape is attained; the relative size of the pronotum increases considerably. The long falcate mandibles develop mainly during the larva-presoldier moult. One antennal segment is added during these two moults. With increasing instar age of soldiers a relative increase of the pronotum and the head size in its posterior region was observed. No functional differences in external anatomy were found among the six soldier instars. The composition of the frontal gland secretion is similar in the six soldier instars, an extraordinarily high amount of a defensive substance, (E)-1-nitropentadecene, was detected together with (Z,E)-α-farnesene, presumably an alarm substance. The strategy of soldier production is discussed. We conclude that the observed patterns of soldier production in P. simplex correspond well to its ecological strategy of an advanced single-site nester able to migrate and form foraging groups. Received 16 August 2005; revised 21 November and 6 February 2006; accepted 16 February 2006.     

c-fos蛋白在白蚁婚飞时脑中免疫组织化学定位观察(简报)

在原癌基因家族中有一类可以被第二信使诱导的原癌基因,它们能对神经递质、激素等刺激作出反应进行表达,这类基因称为即刻早基因(imme- diate-early gene,IEG)。c-fos就是其中重要的一种即刻早基因。目前已经证实哺乳动物的性行为与其脑中的c-fos表达有关,c-fos特异性表达被认为是研究性行为时脑部神经细胞活动的重要指征,Joppa 等人用此方法已经在鼠、仓鼠脑中定位出与性行为有关的神经活动区域。c-fos在昆虫的脑中也有表达,但有关昆虫性行为时的脑部神经细胞c-fos表达未见有报道。婚飞是白蚁重要的性行为,婚飞行为是否像哺乳动物那样与脑部神经细胞c-fos表达有关呢?因此本文研究的目的是:(1)用免疫细胞化学方法检测雌、雄繁殖蚁婚飞时脑中是否有c-fos特异性表达。(2)研究c-fos在白蚁脑中的精确定位,了解与其性行为有关的脑部神经活动区域。(3)为进一步推测c-fos在白蚁婚飞中可能的作用及婚飞的分子调节机制提供依据。     

Nitrogen Mineralization, Ammonia Accumulation, and Emission of Gaseous NH3 by Soil-feeding Termites

There are numerous reports on the accumulation of ammonia in the mounds of soil-feeding termites. Here, we provided direct evidence for an effective mineralization of nitrogenous soil organic matter in the gut of Cubitermes spp., which gives rise to enormous ammonia concentrations in the intestinal tract. In Cubitermes ugandensis, the ammonia content of the nest material [24.5 μmol (g dry wt.)⁻¹] was about 300-fold higher than that of the parent soil. Large amounts of ammonia were present throughout the intestinal tract, with lowest values in the extremely alkaline gut sections (pH >12) and highest values posterior hindgut [185 μmol (g dry wt.)⁻¹]. Results obtained with other Cubitermes species were similar. Ammonia concentrations in the posterior hindgut of these humivorous species (up to 130 mM) are among the highest values ever reported for soil macroinvertebrates and are matched only by insects feeding on an extremely protein-rich diet (e.g., the sarcophageous larvae of blowflies). Volatilization of ammonia [about 10 nmol (g fresh wt.)⁻¹ h⁻¹], either directly by emission from the termite body or indirectly from their feces, led to NH₃ concentrations in the nest atmosphere of C. ugandensis that were three orders of magnitude above the ambient background – a relative accumulation that is considerably higher than that observed with CH₄ and CO₂. Together with previous results, these observations document that through their feeding activity and due to the physicochemical and biochemical properties of their digestive system, soil-feeding termites effectively catalyze the transformation of refractory soil organic nitrogen to a plant-available form that is protected from leaching by adsorption to the nest soil. Nitrogen mineralization rates of soil-feeding termites may surpass those effected by tropical earthworms and should contribute significantly to nitrogen fluxes in tropical ecosystems.     

Soldier presence suppresses presoldier differentiation through a rapid decrease of JH in the termite Reticulitermes speratus

The regulation of caste differentiation is essential to insect eusociality. Termite soldiers are sterile and cannot eat by themselves because they have specialized mouth morphology. Almost all termite species have a soldier caste, and the soldier ratio per colony is maintained at a low level, probably by elaborate regulatory mechanisms. Although the soldier presence is considered to negatively affect soldier differentiation in all examined species, the detailed mechanism remains unclear. Presoldier differentiation can be induced artificially by juvenile hormone (JH) application to workers, showing that JH is a key factor underlying the regulation of soldier differentiation. In this study, to elucidate physiological changes in workers because of the soldier presence during the molt into presoldiers, JH III applications and JH titer quantifications were carried out in the rhinotermitid termite Reticulitermes speratus. Firstly, the effects of soldier presence before the molt into presoldiers induced by JH III application to workers were investigated. The rates of presoldier molt induced by the treatments with soldiers were significantly lower than those without soldiers. Secondly, worker JH titers in the presence or absence of soldiers were quantified by LC-MS on day 0, 5, 10, and 15 after JH application. Results indicated that the worker JH titers (endogenous + applied JH III) in the presence of soldiers were significantly lower than those without soldiers on day 5 after the JH treatment. On days 10 and 15, such soldier effects were not observed. Finally, the effective duration of soldier presence after the JH application was elucidated. A 4 day period of co-existence with soldiers suppressed presoldier differentiation, suggesting that the soldier presence rapidly decreased the JH titer in other colony members (i.e., workers), resulting in the inhibition of presoldier production.     

New glucosidase activities identified by functional screening of a genomic DNA library from the gut microbiota of the termite Reticulitermes santonensis

β-Glucosidases are widely distributed in living organisms and play a major role in the degradation of wood, hydrolysing cellobiose or cello-oligosaccharides to glucose. Termites are among the rare animals capable of digesting wood, thanks to enzyme activities of their own and to enzymes produced by their gut microbiota. Many bacteria have been identified in the guts of lower termites, some of which possess cellulolytic or/and hemicellulolytic activity, required for digesting wood. Here, having isolated bacterial colonies from the gut of Reticulitermes santonensis, we constructed in Escherichia coli a genomic DNA library corresponding to all of the colonies obtained and screened the library for clones displaying β-glucosidase activity. This screen revealed 8 positive clones. Sequence analysis with the BLASTX program revealed putative enzymes belonging to three glycoside hydrolase families (GH1, GH3 and GH4). Agar-plate tests and enzymatic assays revealed differences between the GH1- and GH3-type enzymes (as regards substrate specificity and regulation) and a difference in substrate specificity within the GH3 group. The substrate specificities and characteristic activities of these enzymes suggest that they may intervene in the depolymerisation of cellulose and hemicellulose.     

Cellulosic ethanol production by Zymomonas mobilis harboring an endoglucanase gene from Enterobacter cloacae

Enterobactercloacae was isolated from the gut of the wood feeding termite, Heterotermesindicola, and a 2.25-kb fragment conferring cellulase activity was cloned in Escherichiacoli. The cloned fragment contained a 1083-bp ORF which could encode a protein belonging to glycosyl hydrolase family 8. The cellulase gene was introduced into Zymomonasmobilis strain Microbial Type Culture Collection centre (MTCC) on a plasmid and 0.134 filter paper activity unit (FPU)/ml units of cellulase activity was observed with the recombinant bacterium. Using carboxymethyl cellulose and 4% NaOH pretreated bagasse as substrates, the recombinant strain produced 5.5% and 4% (V/V) ethanol respectively, which was threefold higher than the amount obtained with the original E.cloacae isolate. The recombinant Z. mobilis strain could be improved further by simultaneous expression of cellulase cocktails before utilizing it for industrial level ethanol production.