Habitat mediates the outcome of a cleaning symbiosis for a facultatively burrowing crayfish

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Influence of <Emphasis Type="Italic">Lumbricus terrestris</Emphasis> earthworms on the structure of the yeast community of forest litter

The taxonomic structure of yeast communities was studied in forest litter and soil, as well as in substrates transformed by the activity of Lumbricus terrestris earthworms (leaves in heaps, the gut contents, and coproliths). The activity of L. terrestris has a weak effect on the total yeast abundance but results in substantial changes in the community taxonomic composition. The share of ascomycetous yeasts is significantly higher in the substrates associated with the activity of earthworms. The teleomorphic ascomycetes Williopsis saturnus were isolated from the gut contents. The effect of earthworms on the composition of the yeast community in the process of forest litter destruction is more pronounced than seasonal changes.     

黄鳝的繁殖生态学研究

以洞庭湖稻区黄鳝为调查研究对象 ,通过野外调查和室内实验系统研究了黄鳝的繁殖生态。对黄鳝的性腺发育周年变化、繁殖行为、自然产卵过程、产卵条件及繁殖洞穴的构造进行了观察和记录 ,产卵室是黄鳝繁殖洞穴特有的构造 ,繁殖洞穴泥土p H平均值为 6 .73± 1.0 12。亲鳝有护卵习性 ,通过对 30尾守洞亲鳝的性腺观察和切片验证 ,守洞鳝多为雄鳝 (占 6 1.3% ) ,少数为兼性偏雄性 (占 38.7% ) ,守洞鳝 1:0 0～ 2 :0 0全在外面活动 ,守洞鳝体长 L (cm)与体重 W (g)回归方程为 :W=1.2 5×10 - 2 L1 .4 2 (r=0 .76 )。人工模拟条件下 ,泡沫组受精卵的平均孵化率 (85 .2 % )极显著地高于对照组 (2 5 .4 % ) (t=8.18,t0 .0 5=2 .4 5 ) ,仔鱼平均成活率 (6 4 .0 % )显著高于对照组 (14 .0 % ) (t=3.73) ,同时对繁殖季节黄鳝为孵卵而所吐的泡沫的作用进行了分析。另外 ,证实了黄鳝产卵的最适放养密度为 2～ 3尾 / m2。为黄鳝的全人工繁殖和半人工繁殖提供了合理化的建议     

A new trace fossil from the Middle Cambrian of the Grand Canyon, Arizona, USA

An unusual trace fossil from the Middle Cambrian Bright Angel Shale Formation of the Grand Canyon, Arizona, consisting of two rows of biserially opposed circular or oval depressions, with alternating symmetry, is described as Bicavichnites martini ichnogen. et ichnosp. nov. While specimens of this trace may represent the surface expression of a complex treptichnid-like burrow system, it is more likely that they are the walking traces of a bilaterally symmetrical benthic animal. The large variation in external width within the trackways is inconsistent with an arthropod producer. The trackway morphology and presence of limb spur marks suggest that the trace maker may have been a lobopodian, a Cambrian relative of modern onychophorans.     

The underground life of the oriental mole cricket: an analysis of burrow morphology

The underground life of the oriental mole cricket Gryllotalpa orientalis has been investigated by studying the structure of its burrows under different environmental situations and in different seasons. The different uses of different burrow types and their advantages and disadvantages have been examined. The total length, number of tunnels and combination of burrow types varied from a simple tunnel to a more complex one with branches at various angles to the surface, burrow types being divided roughly into shallow horizontal or deep vertical ones. In horizontal burrows, the branching structure was well developed in various directions. It is notable that the vertical burrows of G. orientalis were occupied by only one individual. Both vertical and horizontal burrows were used for foraging: vertical burrows for plants with subterranean stems and horizontal burrows for creeping plants. Vertical burrows were also used for hiding from predators, resting, moulting and overwintering, whereas horizontal burrows were used for escaping from predators and as mating routes. Egg chambers were constructed beside horizontal burrows, and calling burrows were constructed as part of horizontal burrows. Based on their current requirements, mole crickets continuously modify their burrow structures or change burrowing sites.     

A density estimation model of plateau pika (Ochotona curzoniae) supporting camera‐monitoring programs

As an important species in the Qinghai‐Tibet Plateau, the roles played by plateau pikas in grassland degradation and protection are controversial. The behavior characteristics and population density of this species are important in answering this question, but these traits have not been fully elucidated to date. Camera‐capture methods have been used widely in recent years to characterize or calculate population density with the advantage of simple operation and nonintrusive investigation. However, establishing the relationship between actual population density and monitoring data with the condition that individual identification is not possible is a major challenge for this method. In this study, a model composed of a behavioral module and a burrow system module is proposed and applied to simulate the moving path of each individual pika. Based on Monte Carlo method, the model is used to develop the relationship between population density and recorded capture number, which is compared with the results derived from the random encounter model (REM) based on field observations. The simulated results mixed with the calculated density based on observation data could reach R ² = 0.98 using linear fitting, with proper parameter settings. A novel index named activity intensity of pikas per population density is also proposed, providing information on both the ecological physical characteristics and monitoring space. The influence of different parameters on this index, mainly the pika number per burrow system, pika activity time outside the burrow, and activity intensity, is discussed. The proposed methodology can be applied to different scenarios in further studies when behavioral characteristics of pikas change for such reasons as climate change and vegetation degradation.     

Estimates of population size of white-chinned petrels and grey petrels at Kerguelen Islands and sensitivity to fisheries

White-chinned petrels Procellaria aequinoctialis and grey petrels Procellaria cinerea are among the most frequently killed seabird species by accidental bycatch, and both species have received strong conservation concern. Data on population size are required to evaluate the impact of bycatch and to establish management plans. We estimated the population size of both species at Kerguelen, Southern Indian Ocean, from 2004 to 2006 by explicitly taking into account detection probability of burrows using distance sampling and burrow occupancy. A total of 31 line-transects were distributed across the eastern part of Kerguelen, representing a total length of 566 km. Detectability was low (from 0.19 to 0.54 for white-chinned petrels, 0.58 for grey petrels). Burrow densities varied from 1.37±0.67 to 25.77±5.23 burrows ha⁻¹ for white-chinned petrels and was 2.78±0.79 burrows ha⁻¹ for grey petrels. For white-chinned petrels, these densities were extrapolated to the entire surface area of vegetation and there were 234 000 (186 000–297 000) active burrows on Kerguelen. For grey petrels, the number of active burrows for the eastern part of Kerguelen was 3400 (1900–5600). Based on these estimates, the potential biological removal method suggests that the additional mortality on birds caused by the fisheries operating around Kerguelen can be considered a serious threat for the species at least at the regional scale of the Southern Indian Ocean, especially for grey petrels.     

Bacterial endosymbioses in Solemya (Mollusca: Bivalvia)—Model systems for studies of symbiont–host adaptation

Endosymbioses between chemosynthetic bacteria and marine invertebrates are remarkable biological adaptations to life in sulfide-rich environments. In these mutualistic associations, sulfur-oxidizing chemoautotrophic bacteria living directly within host cells both aid in the detoxification of toxic sulfide and fix carbon to support the metabolic needs of the host. Though best described for deep-sea vents and cold seeps, these symbioses are ubiquitous in shallow-water reducing environments. Indeed, considerable insight into sulfur-oxidizing endosymbioses in general comes from detailed studies of shallow-water protobranch clams in the genus Solemya. This review highlights the impressive body of work characterizing bacterial symbiosis in Solemya species, all of which are presumed to harbor endosymbionts. In particular, studies of the coastal Atlantic species Solemya velum and its larger Pacific congener Solemya reidi are the foundation for our understanding of the metabolism and physiology of marine bivalve symbioses, which are now known to occur in five families. Solemya velum, in particular, is an excellent model organism for symbiosis research. This clam can be collected easily from coastal eelgrass beds and maintained in laboratory aquaria for extended periods. In addition, the genome of the S. velum symbiont is currently being sequenced. The integration of genomic data with additional experimental analyses will help reveal the molecular basis of the symbiont–host interaction in Solemya, thereby complementing the wide array of research programs aimed at better understanding the diverse relationships between bacterial and eukaryotic cells.