Axenic Cultivation of the Cellulolytic Flagellate Trichomitopsis termopsidis (Cleveland) from the Termite Zootermopsis*

SYNOPSIS. Trichomitopsis termopsidis (Cleveland), a cellulolytic hindgut symbiote of the termite Zootermopsis, has been cultivated axenically under anaerobic conditions. The medium consists of cellulose, reduced glutathione, fetal calf serum, yeast extract, and autoclaved rumen fluid or autoclaved rumen bacteria, in a buffered salt solution the composition of which is based on an analysis of Zootermopsis hindgut fluid. The hindgut contents of surface-sterilized termites were inoculated into anaerobic buffer-containing cellulose and serum. Repeated passages yielded mixed cultures of T. termopsidis and termite hindgut bacteria. Flagellates were then inoculated into complete medium containing antibiotics, and after 2 passages, axenic cultures of T. termopsidis were obtained. Various nutritional supplements, including clarified rumen fluid or heat-killed bacteria of several known species failed to support the growth of T. termopsidis when substituted for autoclaved rumen fluid. The flagellates did not grow when any of several carbohydrates were substituted for cellulose. Electron microscopy of flagellates from axenic cultures revealed that cellulose particles and partially digested bacteria were present in food vacuoles. No endosymbiotic bacteria were present in the cytoplasm indicating that T. termopsidis does not depend on living prokaryotes for cellulose digestion. The results suggest that T. termopsidis possesses the enzyme cellulase.     

松墨天牛成虫室内外种群肠道细菌的多样性及功能分析

【目的】为明确松墨天牛Monochamus alternatus成虫中、后肠细菌群落结构,探索肠道细菌的潜在功能。【方法】分别提取室外和室内饲养的松墨天牛成虫各15头(室内和室外各15个中肠、15个后肠)的肠道DNA,利用二代测序技术对松墨天牛成虫肠道细菌的16S rDNA V3–V4区序列进行测序,统计操作分类单元(OTUs)数量,分析物种组成、Alpha多样性和Beta多样性;采用PICRUSt软件预测肠道细菌的功能。【结果】共获得544180条高质量序列,在97%相似度下将其聚类为615个OTUs,总共注释到22个门、48个纲、112个目、172个科、285个属和408个种。室内种群的OTUs数量多于室外种群,室内外种群的OTUs种类存在差异性。同一种群的中、后肠之间差异不明显。变形菌门Proteobacteria为室内外松墨天牛肠道细菌的最优势门;肠杆菌属Enterobacter为室外种群肠道细菌和室内种群后肠细菌的最优势属,沙雷氏菌属Serratia为室内种群中肠的最优势属。Alpha多样性结果表明松墨天牛成虫室内种群肠道菌群的丰度显著高于室外种群;Beta多样性结果显示室外种群肠道菌群均一性和稳定性比室内种群好。室外和室内种群的中肠与后肠之间在菌群丰度和多样性上均无显著差异。功能预测结果表明,室内外松墨天牛成虫肠道菌群中代谢通路的丰度最高,其中以糖类代谢和氨基酸代谢为主,还有降解外源化学物质、萜类和聚酮类化合物及其他次生代谢物质的能力。不同种群、不同肠段之间的功能丰度均无显著差异。【结论】明确了取食不同食料的松墨天牛成虫中、后肠的细菌群落结构及差异,了解了肠道细菌的潜在作用,为进一步探究松墨天牛肠道共生菌的功能提供了理论基础。     

Gut microflora of two saltmarsh detritivore thalassinid prawns,Upogebia africana andCallianassa kraussi

The presence and digestive capabilities of bacteria associated with the digestive systems and habitats of two saltmarsh-burrowing detritivore thalassinid prawns (Upogebia africana andCallianassa kraussi) was examined.U. africana is a filter-feeding prawn inhabiting muddy deposits, whereasC. kraussi, a deposit feeder, inhabits coarser more sandy deposits. Scanning electron microscopy was used to examine the gut lining and associated microflora and the nature of the ingested food of both prawns. The gut contents of both prawns included plant fragments, fragmented diatoms, partially degraded protozoa, and bacteria attached to organic matter. In bothU. africana andC. kraussi the midgut walls and gut contents were extensively coated by filamentous bacteria which were absent in the hindgut. The hindgut epithelium ofU. africana was coated by mats of rodshaped bacteria, not reported in marine invertebrates previously. The digestive glands of both species contained bacteria in the lumen. Isolation of gut and habitat bacteria suggests that bothU. africana andC. kraussi maintain a gut microflora distinct from the habitat microflora. Bacteria isolated from the guts of both species of prawn differed from those isolated from their respective habitats with regards to both the genera isolated and their digestive capabilities. The dominant genera isolated from the guts of bothU. africana andC. kraussi wereVibrio andPseudomonas, with an unidentified fermenter andPseudomonas, respectively dominating in the digestive glands. Bacteria of the genusAcinetobacter dominated the isolates from the habitats of both species of prawn. Resident gut bacteria isolated from the guts of both species of prawn exhibited lipase, protease, chitinase, and lysozyme, but not cellulase activity, and may contribute to nitrogen aquisition by the prawns. Isolates from the prawns' habitat exhibited alginase, gelatinase, and lipase activity, a few (3%) fromU. africana habitat having cellulases. In this study a distinction between resident gut bacteria and transient gut bacteria was made. Results suggest that some habitat bacteria remain viable in the guts ofU. africana, but not inC. kraussi.     

Immunofluorescence assay for effects on field abundance of a naturally occurring pseudomonad during passage through the gut of a marine deposit feeder,Abarenicola pacifica

In a seasonal study we used immunofluorescence to follow a specific bacterial population, as well as total numbers, through the fore-, mid-, and hindgut of a deposit feeder, Abarenicola pacifica. We chose a pseudomonad because of its high ambient abundance. On five dates, we collected A. pacifica gut contents, with concurrent measurements of sedimentary food quality (chlorophyll a, protein, bacterial abundance), animal egestion rates (inversely proportional to gut residence time), and temperature. Increasing bacterial numbers from ingested sediment to foregut contents, and decreases from foregut to midgut indicate significant selection and digestion, respectively, of both the pseudomonad and the total bacterial community. Inverse correlations between egestion rate and digestive removal of bacteria offer some support for the prediction that digestion of bacteria is proportional to time spent exposed to digestive enzymes, although the significance of the associated statistical tests is marginal. No hindgut growth of the pseudomonad was observed, likely due to the short gut residence time of A. pacifica. The pseudomonad showed variation of less than a factor of 3 in its ambient sedimentary abundance over the year. Off print requests to: C. Plante.     

Differential enumeration and in situ localization of microorganisms in the hindgut of the lower termite Mastotermes darwiniensis by hybridization with rRNA-targeted probes

We examined the abundance and spatial distribution of major phylogenetic groups of the domain Bacteria in hindguts of the Australian lower termite Mastotermes darwiniensis by using in situ hybridization with group-specific, fluorescently labeled, rRNA-targeted oligonucleotide probes. Between 32.0 ± 7.2% and 52.3 ± 8.2% of the DAPI-stained cells in different hindgut fractions were detected with probe EUB338, specific for members of the domain Bacteria. About 85% of the prokaryotic cells were associated with the flagellates of the thin-walled anterior region (P3a) and the thick wall of the posterior region (P3b/P4) of the hindgut, as shown by DAPI staining. At most, half of the EUB338-detected cells hybridized with one of the other probes that targeted a smaller assemblage within the bacterial domain. In most fractions, cells were found in varying numbers with probe ALF1b, which targeted members of the α-Proteobacteria, whereas substantial amounts of sulfate-reducing bacteria, gram-positive bacteria with a high DNA G+C content and members of the Cytophaga-Flavobacterium cluster of the Cytophaga-Flavobacterium-Bacteroides (CFB) phylum could be detected only in the wall fraction of P3b/P4. This clearly indicates that the hindgut microhabitats differ in the composition of their microbial community. In situ hybridization of cryosections through the hindgut showed only low numbers of bacteria attached to the P3a wall. In contrast, the wall of P3b was densely colonized by rod- and coccus-shaped bacteria, which could be assigned to the Cytophaga-Flavobacterium cluster of the CFB phylum and to the group of gram-positive bacteria with a high DNA G+C content, respectively. Oxygen concentration profiles determined with microelectrodes revealed steep oxygen gradients both in P3a and P3b. Oxygen was consumed within 100 μm below the gut surface, and anoxic conditions prevailed in the central portions of both gut regions, indicating that oxygen consumption in the hindgut does not depend on the presence of a biofilm on the hindgut wall. Received: 17 May 1999 / Accepted: 16 September 1999     

Autochthonous bacterial flora indicated by PCR-DGGE of 16S rRNA gene fragments from the alimentary tract of Costelytra zealandica (Coleoptera: Scarabaeidae)

Aims: To locate and identify putative autochthonous bacteria within the grass grub gut that may have a role in symbiosis. Methods and Results: Polymerase chain reaction-denaturing gradient gel electrophoresis (DGGE) fingerprinting was used to investigate bacterial diversity in the grass grub larval gut. The microbial community profiles from five geographically distinct populations were compared and the influence of feeding was analysed. Bacterial community in the midgut was highly variable between locations and was affected by feeding. The hindgut contained a more diverse but stable bacterial community that was less affected by external conditions. Forty-seven distinct DGGE bands, representing different bacterial genotypes, could be distinguished from all samples, with 34 different bands occurring in the hindgut. The 22 most common bands were isolated and DNA was sequenced. Sequence analysis revealed that most bacteria (16/22) were affiliated to the Clostridiales with the predominant bacteria affiliated to the genus Clostridium. The remaining bacteria were aligned to the Betaproteobacteria, Deltaproteobacteria and Bacteroidetes. Conclusions: The grass grub larva has an autochthonous microflora with predominance of Clostridium spp. in the hindgut. Significance and Impact of the Study: Occurrence of an autocthonous microflora in the grass grub hindgut suggests a symbiotic relationship which could help explain the ability of larval scarabs to feed on recalcitrant organic matter.     

Association of methanogenic bacteria with flagellated protozoa from a termite hindgut

Epifluorescence microscopy was used to examine hindgut contents ofZootermopsis angusticollis (Hagen) termites for the presence of methanogenic bacteria, which can be identified on the basis of the fluorescence of the novel cofactors F₄₂₀ and F₃₅₀. Small, autofluorescent, rod-shaped bacteria of theMethanobrevibacter sp. morphotype were observed associated with three flagellates tentatively identified asTrichomitopsis termopsidis (Cleveland),Tricercomitus termopsidis Kirby andHexamastix termopsidis Kirby. Methanogens were not observed associated with any other protozoal morphotypes and were not numerous in the free-living state inZ. angusticollis hindgut fluid. Electron micrographs of thin sections of hindgut protozoa suggest methanogens are endosymbionts in the small trichomonad protozoa. Our observations are consistent with the finding of Odelson and Breznak that methane is a minor endproduct of the metabolism of termite gut microbiota.Deceased.     

黄翅大白蚁后肠优势菌大白蚁营发酵菌的全基因组序列分析

【目的】营发酵单胞菌属Dysgonomonas是黄翅大白蚁后肠的第二优势微生物。前期研究中,我们从黄翅大白蚁后肠分离出一种命名为大白蚁营发酵菌的新菌。为深入了解大白蚁营发酵菌在宿主白蚁体内发挥的作用和功能,有必要解析大白蚁营发酵菌的基因组序列信息。【方法】使用Illumina Miseq测序平台获取该菌的全基因组序列,将其全基因组序列经过注释的基因蛋白质序列提交COG和KEGG数据库进行BLASTp比对分析,确定该菌潜在的重要酶类和代谢途径,并对个别纤维素酶活进行检测。【结果】大白蚁营发酵菌整个基因组大小为4655756 bp,GC含量为38.54%,DDBJ数据库登录号为BBXL01000001–BBXL01000078。生物信息学分析结果表明菌株大白蚁营发酵菌具有多个木质纤维素降解酶基因,且具备完整的木质纤维素降解和乙酸、乳酸生成通路。此外发现该菌株中存在与氮源代谢和抵御病原体相关的基因。【结论】本研究首次解析大白蚁营发酵菌的全基因组序列,了解其基因组基本特征,初步探讨了该菌降解木质纤维素的过程,为细菌协助宿主白蚁降解木质纤维素提供了理论基础,同时为该菌可能参与宿主白蚁氮源代谢和抵御病原体入侵提供了依据。     

Morphological specializations of the digestive tract of Zacryptocerus rohweri (Hymenoptera: Formicidae)

Light, scanning, and transmission electron microscopy are used to examine the morphology and ultrastructure of the peculiar digestive tract of the turtle ant, Zacryptocerus rohweri. The proventriculus is heavily sclerotized and covered with clusters of small spines. Narrow spine-lined channels converging at the opening to the midgut act as a fine filter of food; particles >12.5 μm are unable to pass through the proventriculus. In the midgut, ultrastructural study reveals bacteria among the microvilli of midgut epithelial cells. The hindgut of Z. rohweri consists of an enlarged, dark-colored pouch filled with masses of bacteria of three major morphotypes. A thick layer of circular muscle and deep infoldings of the epithelium greatly increase surface area for absorption. Newly emerged individuals appear to acquire these microorganisms by soliciting material from the abdomen tip of other older workers in the colony. Whether or not the hindgut bacteria are true symbionts is unknown; their acquisition and presence suggest that they may supplement the ants' limited, liquid diet by supplying essential amino acids and other nutrients. J. Morphol. 234:253–262, 1997. © 1997 Wiley-Liss, Inc.     

Promicromonospora pachnodae sp. nov., a member of the (hemi)cellulolytic hindgut flora of larvae of the scarab beetle Pachnoda marginata

Intestinal microorganisms play an important role in plant fiber degradation by larvae of the rose chafer Pachnoda marginata. In the hindgut of the larvae 2.5 to 7.4 × 10⁸ bacteria per ml of gut content with xylanase or endoglucanase activity were found. Bacteria in the midgut were not (hemi)cellulolytic, but the alkaline environment in this part of the intestinal tract functions as a precellulolytic phase, solubilizing part of the lignocellulosic material. Accordingly, the degradation of lignocellulose-rich material in Pachnoda marginata larvae appeared to be a combination of a physico-chemical and microbiological process. A number of different facultative anaerobic and strictly anaerobic bacteria with (hemi)cellulolytic activity were isolated from the hindgut. A dominant (hemi)cellulolytic species was a Gram positive, irregular shaped, facultative aerobic bacterium. Further physiological identification placed the isolate in the genus Promicromonospora. Comparative 16S rDNA analysis and phenotypic features revealed that the isolate represented a new species for which the name Promicromonospora pachnodae is proposed. P. pachnodae produced xylanases and endoglucanases on several plant derived polymers, both under aerobic and anaerobic conditions. This revised version was published online in June 2006 with corrections to the Cover Date.     

Microbial Community Structure in Midgut and Hindgut of the Humus-Feeding Larva of Pachnoda ephippiata (Coleoptera: Scarabaeidae)

The guts of soil-feeding macroinvertebrates contain a complex microbial community that is involved in the transformation of ingested soil organic matter. In a companion paper (T. Lemke, U. Stingl, M. Egert, M. W. Friedrich, and A. Brune, Appl. Environ. Microbiol. 69:6650-6658, 2003), we show that the gut of our model organism, the humivorous larva of the cetoniid beetle Pachnoda ephippiata, is characterized by strong midgut alkalinity, high concentrations of microbial fermentation products, and the presence of a diverse, yet unstudied microbial community. Here, we report on the community structure of bacteria and archaea in the midgut, hindgut, and food soil of P. ephippiata larvae, determined with cultivation-independent techniques. Clone libraries and terminal restriction fragment length polymorphism analysis of 16S rRNA genes revealed that the intestines of P. ephippiata larvae contain a complex gut microbiota that differs markedly between midgut and hindgut and that is clearly distinct from the microbiota in the food soil. The bacterial community is dominated by phylogenetic groups with a fermentative metabolism (Lactobacillales, Clostridiales, Bacillales, and Cytophaga-Flavobacterium-Bacteroides [CFB] phylum), which is corroborated by high lactate and acetate concentrations in the midgut and hindgut and by the large numbers of lactogenic and acetogenic bacteria in both gut compartments reported in the companion paper. Based on 16S rRNA gene frequencies, Actinobacteria dominate the alkaline midgut, while the hindgut is dominated by members of the CFB phylum. The archaeal community, however, is less diverse. 16S rRNA genes affiliated with mesophilic Crenarchaeota, probably stemming from the ingested soil, were most frequent in the midgut, whereas Methanobacteriaceae-related 16S rRNA genes were most frequent in the hindgut. These findings agree with the reported restriction of methanogenesis to the hindgut of Pachnoda larvae.     

Isolation of Streptococcus thoraltensis from Rabbit Faeces

Bacteria were isolated from rabbit faeces using equine caecal fluid as a growth medium. Two new isolates of the genus Streptococcus are described in terms of their biochemical properties. One of these has a 16S rRNA gene with 97.7%, and the other 98.5%, identity to Streptococcus thoraltensis. While S. thoraltensis has been described in the intestinal tract of pigs, it is generally considered to inhabit the porcine genital tract. The biochemical properties of these bacteria indicate that both new isolates showed an ability to digest xylose, an adaptation beneficial for survival in a niche where much of the nutrient supply is of plant origin. Moreover, having bacteria able to digest xylose in the digestive tract should be beneficial to the rabbit, allowing more effective utilisation and digestion of food. This work provides one of the few examples of an analysis of the physiological properties of a bacterium found in the hindgut of the rabbit. By building up a number of such studies, the mechanisms of bacterial digestion in the rabbit will become better understood.     

“Endomicrobia” and Other Bacteria Associated with the Hindgut of Dermolepida albohirtum Larvae

Symbiotic bacteria residing in the hindgut chambers of scarab beetle larvae may be useful in paratransgenic approaches to reduce larval root-feeding activities on agricultural crops. We compared the bacterial community profiles associated with the hindgut walls of individual Dermolepida albohirtum third-instar larvae over 2 years and those associated with their plant root food source among different geographic regions. Denaturing gradient gel electrophoresis analysis was used with universal and Actinobacteria-specific 16S rRNA primers to reveal a number of taxa that were found consistently in all D. albohirtum larvae but not in samples from their food source, sugarcane roots. These taxa included representatives from the “Endomicrobia,” Firmicutes, Proteobacteria, and Actinobacteria and were related to previously described bacteria from the intestines of other scarab larvae and termites. These universally distributed taxa have the potential to form vertically transmitted symbiotic associations with these insects.     

Physiological properties of the gut lumen of terrestrial isopods (Isopoda: Oniscidea): adaptive to digesting lignocellulose?

Since any given trait of an organism is considered to represent either an adaptation to the environment or a phylogenetic constraint, most physiological gut characteristics should be adaptive in terms of optimizing digestion and utilization of the respective food source. Among the Crustacea, the taxon Oniscidea (Isopoda) is the only suborder that includes, and essentially consists of, species inhabiting terrestrial environments, feeding on food sources different from those of most other Crustacea (i.e., terrestrial leaf litter). Microelectrodes were used to assay physiological characteristics of the gut lumen from representatives of four families of terrestrial isopods: Trichoniscus pusillus (Trichoniscidae), Oniscus asellus (Oniscidae), Porcellio scaber (Porcellionidae), and Trachelipus rathkii (Trachelipodidae). Microsensor measurements of oxygen pressure (Clark-type oxygen microelectrodes) revealed that O₂-consuming processes inside the gut lumen created steep radial oxygen gradients. Although all guts were oxic in the periphery, the radial center of the posterior hindgut was micro-oxic or even anoxic in the adults of the larger species. The entire gut lumen of all examined species was strongly oxidizing (Pt microelectrodes; apparent redox potential, E_h: +600–700 mV). Such conditions would allow for the coexistence of aerobic and anaerobic microorganisms, with both oxidative and fermentative activities contributing to digestion. Although bacterial O₂ consumption was also observed in the midgut glands (hepatopancreas), they remained entirely oxic, probably owing to their large surface-to-volume ratio and high oxygen fluxes across the hepatopancreatic epithelium into the gland lumen. Measurements with pH microelectrodes (LIX-type) showed a slight pH gradient from acidic conditions in the anterior hindgut to neutral conditions in the posterior hindgut of O. asellus, P. scaber and T. rathkii. By contrast, the pH in the hindgut lumen of T. pusillus was almost constant. We discuss to what extent these physiological characteristics may be adaptive to the digestion of terrestrial food sources that are rich in lignocellulose.     

Aquatic animals promote antibiotic resistance gene dissemination in water via conjugation: Role of different regions within the zebra fish intestinal tract,and impact on fish intestinal microbiota

The aqueous environment is one of many reservoirs of antibiotic resistance genes (ARGs). Fish, as important aquatic animals which possess ideal intestinal niches for bacteria to grow and multiply, may ingest antibiotic resistance bacteria from aqueous environment. The fish gut would be a suitable environment for conjugal gene transfer including those encoding antibiotic resistance. However, little is known in relation to the impact of ingested ARGs or antibiotic resistance bacteria (ARB) on gut microbiota. Here, we applied the cultivation method, qPCR, nuclear molecular genetic marker and 16S rDNA amplicon sequencing technologies to develop a plasmid‐mediated ARG transfer model of zebrafish. Furthermore, we aimed to investigate the dissemination of ARGs in microbial communities of zebrafish guts after donors carrying self‐transferring plasmids that encode ARGs were introduced in aquaria. On average, 15% of faecal bacteria obtained ARGs through RP4‐mediated conjugal transfer. The hindgut was the most important intestinal region supporting ARG dissemination, with concentrations of donor and transconjugant cells almost 25 times higher than those of other intestinal segments. Furthermore, in the hindgut where conjugal transfer occurred most actively, there was remarkable upregulation of the mRNA expression of the RP4 plasmid regulatory genes, trbBp and trfAp. Exogenous bacteria seem to alter bacterial communities by increasing Escherichia and Bacteroides species, while decreasing Aeromonas compared with control groups. We identified the composition of transconjugants and abundance of both cultivable and uncultivable bacteria (the latter accounted for 90.4%–97.2% of total transconjugants). Our study suggests that aquatic animal guts contribute to the spread of ARGs in water environments.     

Scanning electron microscopy of the gut microflora of two earthworms: Lumbricus terrestris and Octolasion cyaneum

Scanning electron microscopy was used to investigate the presence of microorganisms, probably bacteria, on the gut surface of earthworms. The washed surfaces of the intestines of two earthworms, Lumbricus terrestris and Octolasion cyaneum, were examined. Numerous organisms resembling bacteria were observed throughout the gut, some in situations suggesting attachment. Compared with similar investigations in other invertebrates, there were fewer bacteria, showing less morphological diversity, on the earthworm gut surface. The majority of organisms viewed were coccoid, some were filamentous, and a few rod-shaped cells were observed. Cocci, often in chains, were seen in the foregut of both species. Although cocci were also numerous in the midgut region, particularly in the typhlosole, in O. cyaneum tufts of segmented, filamentous organisms were also seen with some segments resembling spores. Fewer organisms were found in the hindgut, but in L. terrestris there were segmented, filamentous organisms, attached to the epithelium by way of a socket-like structure, similar to that by which segmented, filamentous bacteria (SFBs) are attached to the ileum of rats and mice. Transmission electron microscopy of the hindgut of L. terrestris was undertaken to explore the structure and attachment of SFBs to the gut epithelium. However, although a few rod-shaped bacteria were observed, no SFBs were located. The observations reported here provide evidence that earthworms have an attached gut microflora of filamentous microorganisms which are probably indigenous, and as far as we are aware this is the first published report of such findings in these invertebrates. Offprint requests to: J.M. Jolly.     

Molecular phylogenetic identification of the intestinal anaerobic microbial community in the hindgut of the termite, Reticulitermes speratus, without cultivation

A termite maintains an anaerobic microbial community in its hindgut, which seems to be the minimum size of an anaerobic habitat. This microbial community consists of bacteria and various anaerobic flagellates, and it is established that termites are totally dependent on the microbes for the utilization of their food. The molecular phylogene-tic diversity of the intestinal microflora of a lower termite, Reticulitermes speratus, was examined by a strategy that does not rely on cultivation of the resident microorganisms. Small subunit ribosomal RNA (ssrRNA) genes were directly amplified from the mixed-population DNA of the termite gut by polymerase chain reaction (PCR) and clonally isolated. Most sequenced clones were phylogenetically affiliated with the four major groups of the domain Bacteria: the Proteobacteria group, the Spirochete group, the Bacteroides group, and the Low G + C gram-positive bacteria. The 16S rRNA sequence data show that the majority of the intestinal microflora of the termite consists of new species that are yet to be cultured. The phylogeny of a symbiotic methanogen inhabiting the gut of a lower termite (R. speratus) was analyzed without cultivation. The nucleotide sequence of the ssrDNA and the predicted amino acid sequence of the mcrA product were compared with those of the known methanogens. Both comparisons indicated that the termite symbiotic methanogen belonged to the order Methanobacteriales but was distinct from the known members of this order. The diversity of nitrogen-fixing organ-isms was also investigated without culturing the resident microorganisms. Fragments of the nifH gene, which encodes the dinitrogenase reductase, were directly amplified from the mixed-population DNA of the termite gut and were clonally isolated. The phylogenetic analysis of the nifH amino acid sequences showed that there was a remarkable diversity of nitrogenase genes in the termite gut. The molecular phylogeny of a symbiotic hypermastigote Trichonympha agilis (class Parabasalia; order Hypermastigida) in the hindgut of R. speratus was also examined by the same strategy. The whole-cell hybridization experiments indicated that the sequence originated from a large hypermastigote in the termite hindgut, Trichonympha agilis. According to the phylogenetic trees constructed, the hypermastigote represented one of the deepest branches of eukaryotes. The hypermastigote along with members of the order Trichomonadida formed a monophyletic lineage, indicating that the hypermastigote and trichomonads shared a recent common ancestry. Received: January 22, 1998 / Accepted: February 16, 1998     

Modelling the nutritional ecology of ungulate herbivores: evolution of body size and competitive interactions

Summary A simulation model is used to quantify relationships between diet quality, digestive processes and body weight in ungulate herbivores. Retention time of food in the digestive tract is shown by regression to scale with W^0.27, and to be longer in ruminants than in hindgut fermenters. Allometric relationships between whole gut mean retention time (MRT, h) and weight (W) were: MRT=9.4 W^0.255 (r ²=0.80) for hindgut fermenters and MRT=15.3 W^0.251 (r ²=0.76) in ruminants. Longer retention of ingesta by large-bodied ruminants and hindgut fermenters increases digestive efficiency relative to small animals and permits them to survive on lower-quality foods. Compared with ruminants, hindgut fermenters' faster throughput is an advantage which outweighs their lower digestive efficiency, particularly on poor quality foods, provided that food resources are not limiting. This suggests that the predominance of ruminants in the middle range of body weights results from their more efficient use of scarce resources under conditions of resource depletion. Considering only physical limitations on intake, the model shows that the allometric coefficient which scales energy intake to body mass is 0.88 in ruminants and 0.82 in hindgut fermenters. The advantages of large body size are countered by disadvantages where food quantity is limited, and we suggest that the upper limit to ungulate body size is determined by the ability to extract nutrients from feeding niches during the nadir of the seasonal cycle of resource quality and abundance.     

Addition of citrus pulp and apple pomace in diets for dogs: influence on fermentation kinetics,digestion, faecal characteristics and bacterial populations

Fermentation kinetics, digestibility, faecal characteristics and bacterial populations (aerobes, anaerobes, lactobacilli, lactic acid bacteria, enterococci, coliforms and clostridia) of dog food mixed with citrus pulp and apple pomace were evaluated. The in vitro gas production of a pre-digested dog food mixed with 0, 30, 50 and 70 g/kg dry matter (DM) of citrus pulp or apple pomace was measured, and also an experiment with dogs fed the same dog food with or without the addition of 70 g/kg of either fresh citrus pulp or apple pomace was conducted. Gas production increased linearly (p < 0.001) and quadratically (p < 0.001) as fibre levels augmented. The inclusion of fibre sources in the diets resulted in higher faecal output (p = 0.005) and defecation frequency (p < 0.001), and lower faecal pH (p < 0.001) and digestibility values (p < 0.01). Faecal consistencies and microbial populations did not differ among treatments. The addition of fresh citrus and apple was effective to stimulate the hindgut fermentation, but slightly depressed the digestion.