贵州洞穴淡水、陆生贝类区系及新种记述

首次报道了贵州省安龙县、贵阳市、独山县、荔波县、安顺市、开阳县、息烽县、盘县、兴义市、大方县、普定县等39个洞穴内不同生境的淡水、陆生贝类,经鉴定得淡水、陆生螺类共计71种,分隶于15科,36属,其中淡水螺类3科4属5种;陆生螺类66种,12科32属;1新种,即荔波双边凹螺Chamalycaeus libonensis sp.nov.附有种类名录,栖息环境及地理分布,并对洞穴中的淡水、陆生贝类区系组成进行了讨论,对新种进行了详细的描述,与近似种进行了比较。     

三江平原典型沼泽湿地螺类组成生态指示

螺类作为湿地的重要生物类群,对环境变化响应敏感,这使得螺类成为潜在的环境指示物种。为了研究中国东北沼泽湿地不同类型湿地螺类群落结构的差异以及螺类作为不同类型湿地指示物种的可能,在2014年9月和2015年5月对小叶章沼泽化草甸湿地、臌囊苔草湿地、毛苔草湿地、漂筏苔草湿地共17个采样点进行螺类样品采集。共采集到了螺类8科13属17种4452个。研究表明,螺类以扁卷螺科Planorbidae、椎实螺科Lymnaeidae、膀胱螺科Physidae为主;4种不同类型湿地螺的种类组成不同,这些螺类的种类组成与不同类型湿地的水深、植物类型组成等湿地特征是相对应。螺类的生物多样性指数(ShannonWiener指数和Marglef指数)在不同类型湿地之间也存在一定差异,筛选了指示螺类6种,无褶螺是小叶章沼泽化草甸的指示物种,小土蜗、半球多脉扁螺和虹蛹螺是臌囊苔草湿地的指示物种,琥珀螺是毛苔草湿地的指示物种,平盘螺是漂筏苔草湿地的指示物种,这表明了螺类是沼泽湿地类型的重要指示生物。也为螺类生物多样性资源的保护、恢复和生态评价提供科学依据和资料积累。     

鄱阳湖沿岸带螺类的物种组成及其生境

2011年5月和6月在鄱阳湖沿岸带的62个样点采集了淡水螺类样本并调查了生境类型,分析了淡水螺类的物种组成及其生境分布特征。结果表明:共采集到淡水螺类19种,分属田螺科（8种）、觿螺科（8种）、椎实螺科（2种）和黑螺科（1种）。与前人的研究相比,本次调查的螺类物种数有较大的下降,但田螺科和觿螺科的物种仍是整个螺类群落的主要组成部分。淤泥生境的螺类物种组成与其他生境的差异较大,淤泥生境的螺类物种丰富度显著高于沙土、砂石和水草3种生境（P0.05）,表明螺类对生境具有一定的栖息偏好性。最后详细讨论了淡水螺类种数变化、物种组成及其生境分布的影响因素。       

中国海笔螺科的分布与区系特点

阐述了笔螺科的地理分布和中国海笔螺科的区系特点 ,指出笔螺科大多属热带和亚热带种类。中国海已记录笔螺 73种 ,主要分布于福建、广东、台湾、海南和西沙、南沙群岛。中国海的笔螺科种类在区系组成上属印度 马来区系     

中国小豆螺属一新种描述

小豆螺是一种微小的淡水螺类,属于觿螺科(Hydrobiidae),小豆螺属(Bythinella)。该属首次报道于欧洲(Ehrmann,1933)5,后曾在日本发现6,7,10,12,近年又在我国湖南(刘月英等,1979)、湖北(康在彬,1983)等省发现。其中有些种类是并殖吸虫(Paragonimus)的第一中间宿主2-4,8,9,因此,引起了寄生虫学家和医学贝类学家的极大关注。本文报告小豆螺属一新种,定名为李氏小豆螺(Bythinella lii,sp.nov.)。       

中国小豆螺属一新种描述

小豆螺是一种微小的淡水螺类,属于 螺科(Hydrobiidae),小豆螺属(Bythinella)。该属首次报道于欧洲(Ehrmann,1933),后曾在日本发现,近年又在我国湖南(刘月英等,1979)、湖北(康在彬,1983)等省发现。其中有些种类是并殖吸虫(Paragonimus)的第一中间宿主,因此,引起了寄生虫学家和医学贝类学家的极大关注。     

中国弯螺属一新种(肺螺亚纲,柄眼目,扭轴蜗牛科)

系统整理和研究了中国弯螺属的种类,共10种,其中1新种即茂兰弯螺Sinoennea maolanensis sp.nov.,弯螺属的种类主要分布于东亚和南亚地区;作者对其已发表的种类进行了整理、甄制,对新种的形态特征进行了详觋细描述,亦与近似种进行了比较、讨论.     

中国沿海蛾螺科5属10种28S rRNA基因的系统学分析

目前已报道在我国分布的蛾螺科种类有13个属,约31个种,系统学和分类地位仍存在较大的争议.本研究利用核糖体大亚基28S rRNA的部分序列对我国辽宁、山东、福建沿海蛾螺科5属10个种的系统发生进行了分析.通过PCR获得了大约1400 bp的片段,测序之后,通过遗传分析软件对序列进行了比对分析,以骨螺科的脉红螺作为外群,利用Neighbor-Joining (NJ)法和Minimum Evolution (ME)法建立了系统树.结果显示,所研究的蛾螺科5属10个种可以被分为5个亚群:第一大分支为香螺亚群,包括Neptunea属的香螺、新英格兰蛾螺、Neptunea eulimata Dall、和一个未知种以及Siphonalia属的略胀管蛾螺;第二个分支为侧平肩螺亚群;第三个分支为荻曷莺突坪6曷菅侨海坏谒母龇种止芏曷菅群;第五个分支为方斑东风螺亚群.由系统学分析可知,香螺是较为进化的种;未知种为香螺属内的种;略胀管蛾螺与Neptunea属的种类亲缘关系较近,序列相似系数为0.9%-1.4%,已经达到了属内水平,建议将略胀管蛾螺归为Neptunea属.     

莽山自然保护区陆生贝类多样性及其分布

于2001年5～9月对莽山自然保护区的陆生贝类进行了广泛调查,共采得陆生贝类39种,隶属于2亚纲10科19属,主要有环1：3螺科、烟管螺科、钻头螺科、拟阿勇蛞蝓科、坚齿螺科、巴蜗牛科、野蛞蝓科和嗜粘液蛞蝓科。对它们的种类分布、种群数量、区系与生态分布特点进行了分析。     

中国倍唇螺属一新种记述(前鳃亚纲,中腹足目,环口螺科)

笔者对我国已记载的倍唇螺属Diplommatina Benson,1849种类进行了厘订,并对馆藏的该属标本进行整理和鉴定,发现1新种,即兴义倍唇螺Diplommatina xingyinensis sp.nov.,新种隶属前鳃亚纲、中腹足目、环口螺科、倍唇螺属.对新种形态特征、栖息环境进行了记述,并对其近似种进行了讨论.     

Effects of body size and resource availability on dispersal in a native and a non-native estuarine snail

I manipulated snail densities of two coexisting species of salt marsh snail, Cerithidea californica Haldeman (native) and Batillaria attramentaria Sowerby (non-indigenous) to investigate how resource levels set by intraspecific competition may influence dispersal rates. I used two distinct size classes of the snails (mature and immature) to determine if the effects of competition on dispersal differed between developmental stages of a consumer. Dispersal attempts were measured within enclosure pens by counting snails climbing the sides of the enclosure. The influence of snail density per se and resource levels (which were set by snail densities) on dispersal rates were separated by comparing responses of snails to density before and after resources became depleted. For large snails of both species, dispersal increased as resource levels decreased, supporting the hypothesis that competition influences dispersal rates. Small snails of both species, in contrast, always dispersed at relatively higher rates than larger individuals, but were not influenced by variation in resource levels. This result corroborates other studies that have shown reduced competition in these species at smaller size, and suggests that another mechanism, such as genetically coded behavior to disperse when young, influences their behavior. Previous experiments demonstrated Batillaria's superior resource conversion efficiency; therefore, I had hypothesized that for any given resource level, Cerithidea would disperse more, because it was more affected by resource availability. Adult Batillaria, however, responded more sensitively to resource levels (i.e., dispersed more at any given resource level) than Cerithidea. This counter-intuitive result illustrates the potential importance of genetic limitations on behavioral responses available to a species. Constraints on behavioral responses may have been accentuated since Batillaria is a non-indigenous species whose evolved behavioral responses are not necessarily adapted to its present, non-native environment.     

Resource limitation,competition and the influence of life history in a freshwater snail community

Summary Previous work on a snail community occurring throughout lakes in southwestern Michigan showed that predation by molluscivorous sunfish had large impacts on only the rarest snail species. Thus, competition might play a major role in population limitation because dominant members of the snail community are relatively immune to predation. The present experiments were conducted to determine the extent to which the snail community depleted the abundance of food resources (epiphytes) and the extent to which epiphyte abundances limited snail production. An experimental gradient in snail densities showed that removal of snails increased epiphyte biomass by approximately 3-fold relative to that observed at natural snail densities. Enrichment of the environment with phosphorus fertilizer increased epiphyte biomass by approximately 20-fold and provided a test of food limitation in the snail community. All snail taxa exhibited positive numerical or growth responses to enrichment. The observations that snails depleted resources and that resources limited snail production demonstrated that snails competed exploitatively for epiphytes. The response of each snail species to increased food abundance differed depending on the timing of fertilization relative to the snails' life histories. Snails hatched before the experiment began were larger in fertilized treatments, due to increased growth, but their densities were similar among treatments. On the other hand, densities of snails born during the experiment were up to 15-fold greater in fertilized treatments, due in part to increased survival of newborn snails. Comparison of the responses of snails to food addition and to predator removals (based on prior experiments) suggested that food availability limits snail production more than predators do. Additionally, the large responses by algae and snails to fertilization demonstrated that both the producers and herbivores in this simplified food chain were strongly resource limited.     

Host life history and the effect of parasitic castration on growth: A field study of Cerithidea californica Haldeman (Gastropoda : Prosobranchia) and its trematode parasites

The prevalence of parasitic infection by larval digenetic trematodes in natural populations of the mud snail, Cerithidea californica Haldeman, was found to increase with snail length; all snails ≥ 33 mm were infected. Distributions of infections by the seven most common larval trematodes were heterogeneous due to two species being more common than expected in the smaller size classes of snails, two being more common than expected in the larger size-classes of snails and three species being most prevalent in snails of intermediate length. The relative abundances of trematodes in different size-classes reflected these distributional patterns.A mark-recapture field study of snail growth rates failed to demonstrate that parasitic infection causes gigantism in Cerithidea. Parasitism tended to stunt the growth of juvenile snails and to a lesser degree, that of adult snails. The effects of trematodes on snail growth was shown to be species specific. This finding contrasts with those of earlier studies in which gigantic growth was observed in infected snails. This discrepancy is attributed to differences in the life histories of the host snails. It is predicted that gigantism will occur commonly in short-lived or semelparous species of snails but rarely, if ever, in long-lived iteroparous species which are predominately marine.     

Resistance to desiccation and distribution patterns in bush-dwelling land snails

Bush-dwelling land snails are exposed to desiccating conditions that are more severe than those of snails that seek the shelter of rock crevices, litter or the upper layers of the soil. We studied the resistance to desiccation in four bush-dwelling species of Israeli snails to evaluate a possible relation between their water economy and their distribution pattern. The resistance to desiccation decreased in the following order: Xeropicta vestalis (a widely distributed Mediterranean species), Trochoidea simulata (a desert species), Theba pisana (a Mediterranean species from the sand dunes of the coastal plain), and Monacha haifaensis (a Mediterranean species). Xeropicta vestalis also had the quickest response to the desiccating conditions. It is probably prevented from establishing itself in the desert, in spite of its superior water economy, because it is an annual, semelparous species, and the desert is a highly unpredictable environment. An immediate response to desiccating conditions may be a key factor in the success of desert-inhabiting land snails. Snails from more humid regions take several days to recruit their water preserving mechanisms, a delay which may be crucial to their water balance. The conchiometrics of X. vestalis and T. simulata suggest that the main water preserving mechanisms of these species are located in the mantle, rather than in the shell and epiphragm.     

Cooccurrence of prey species alters the impact of predators on prey performance through multiple mechanisms

When prey are differentially affected by intra and interspecific competition, the cooccurrence of multiple prey species alters the per capita availability of food for a particular prey species which could alter how prey respond to the threat of predation, and hence the overall‐effect of predators. We conducted an experiment to examine the extent to which the nonconsumptive and overall effect of predatory water bugs on snail and tadpole traits (performance and morphology) depended on whether tadpoles and snails cooccurred. Tadpoles and snails differed in their relative susceptibility to intraspecific and interspecific competition, and predators affected both prey species via consumptive and nonconsumptive mechanisms. Furthermore, the overall effect of predators often depended on whether another prey species was present. The reasoning for why the overall effect of predators depended on whether prey species cooccurred, however, differed for each of the response variables. Predators affected snail body growth via nonconsumptive mechanisms, but the change in the overall effect of predators on snail body growth was attributable to how snails responded to competition in the absence of predators, rather than a change in how snails responded to the threat of predation. Predators did not affect tadpole body growth via nonconsumptive mechanisms, but the greater vulnerability of competitively superior prey (snails) to predators increased the strength of consumptive mechanisms (and hence the overall effect) through which predators affected tadpole growth. Predators affected tadpole morphology via nonconsumptive mechanisms, but the greater propensity for predators to kill competitively superior prey (snails) enhanced the ability of tadpoles to alter their morphology in response to the threat of predation by creating an environment where tadpoles had a higher per capita supply of food available to invest in the development of morphological defenses. Our work indicates that the mechanisms through which predators affect prey depends on the other members of the community.     

Diversity of the Western Carpathian flysch grasslands: Do extremely species-rich plant communities coincide with a high diversity of snails?

Upland fringes of the White Carpathians (Czech Republic) are known to support grasslands with the world’s highest local plant species richness. We investigated whether this unusually high plant richness has a parallel in snail communities, whether patterns of species composition of snail and plant communities in grasslands co-vary and how they are affected by local environment and landscape history. We compared plant and snail communities of dry to mesic grasslands in three neigh bouring regions: (1) hilly lowland of the Central Moravian Carpathians, (2) upland fringes and (3) upland of the White Carpathians. Both snail and plant communities exhibited a strong gradient in species composition associated with altitude, annual temperature and precipitation, soil calcium and pH. However, there was no correlation between local species richness of plants and snails in individual plots. The upland fringes of the White Carpathians were richest in snail species, probably due to intermediate environmental conditions, supporting the occurrence of species with contrasting environmental requirements. The highest local numbers of plant species were also recorded there, although differences among regions were not significant. The regional species richness of plants was also highest in the upland fringes, whereas that of snails was highest in the hilly lowland. Similarities in the diversity patterns of plants and snails among regions suggest the importance of regional factors for local richness, although local abiotic factors, which are partly correlated with the three regions, also influence local species composition and richness.     

Field prevalence and laboratory susceptibility of southern Australian land snails to Brachylaima cribbi sporocyst infection

Brachylaima cribbi is a terrestrial trematode of birds and mammals with helicid and hygromiid land snails reported as first and second intermediate hosts. However, reports describing the first intermediate host range of B. cribbi have been limited to those snail species present in a small number of geographical locations in South Australia. The natural first intermediate host range, distribution and prevalence of B. cribbi in land snails in southern Australia were determined. A total of 6,432 introduced and native land snails were collected from eight geographical districts across 3,000 km of southern Australia and examined microscopically for B. cribbi sporocysts. Four introduced European snails, Theba pisana, Cernuella virgata, Cochlicella acuta and Cochlicella barbara were natural first intermediate hosts. Sporocyst-infected snails were detected in all districts from Victoria to the west coast of South Australia, a distance of over 1,300 km. Natural sporocyst infection was not observed in introduced European snails Microxeromagna armillata and Helix aspersa or in native Australian land snails Succinea australis and Strangesta gawleri. Egg feeding experiments in the laboratory with B. cribbi confirmed the susceptibility of those species of snails found to be natural first intermediate hosts. Of those species not found to be infected in nature, only M. armillata could be infected in the laboratory. Although this study has shown that five different species of European land snails are suitable first intermediate hosts for B. cribbi there are as yet no reports of B. cribbi from these snails in Europe or from other countries where they have been introduced. Further investigations are needed in Europe to clarify the origins of this parasite.     

Marine invasion processes: interactions between native and introduced marsh snails

We test two hypotheses to explain the success of a biological invader in marshes on the Pacific coast of North America. The first hypothesis focuses on the competitive superiority of an invading species over native species; the second hypothesis focuses on the absence of ecological equivalents in the aboriginal biota, such that no competitive interactions are necessary to facilitate successful invasion. As a model system we experimentally manipulated the introduced pulmonate snail Ovatella myosotis and the native prosobranch snails Assiminea californica and Littorina subrotundata. Manipulations included pair-wise enclosures to determine of Ovatella depressed the growth of the native;species; pair-wise associations to determine whether or not snails demonstrated negative or positive clustering; removal experiments to see if native snails invaded regions occupied by Ovatella, and reciprocal transplants on a vertical gradient to determine the physiological breath of the target species. In addition to monitoring population abundances of all three species seasonally, dietary overlap of these gastropods was also examined. No evidence of competitive superiority by Ovatella was found. Ovatella possesses the physiological capacities to exist in a semiterrestrial environment and is therefore able to take advantage of resources unavailable to native gastropods. We conclude that the successful establishment of this Atlantic snail in the Pacific Northwest did not arise at the expense of native species.     

Salinity adaptation of the invasive New Zealand mud snail (Potamopyrgus antipodarum) in the Columbia River estuary (Pacific Northwest, USA): physiological and molecular studies

In this study, we examine salinity stress tolerances of two populations of the invasive species New Zealand mud snail Potamopyrgus antipodarum, one population from a high salinity environment in the Columbia River estuary and the other from a fresh water lake. In 1996, New Zealand mud snails were discovered in the tidal reaches of the Columbia River estuary that is routinely exposed to salinity at near full seawater concentrations. In contrast, in their native habitat and throughout its spread in the western US, New Zealand mud snails are found only in fresh water ecosystems. Our aim was to determine whether the Columbia River snails have become salt water adapted. Using a modification of the standard amphipod sediment toxicity test, salinity tolerance was tested using a range of concentrations up to undiluted seawater, and the snails were sampled for mortality at daily time points. Our results show that the Columbia River snails were more tolerant of acute salinity stress with the LC₅₀ values averaging 38 and 22 Practical Salinity Units for the Columbia River and freshwater snails, respectively. DNA sequence analysis and morphological comparisons of individuals representing each population indicate that they were all P. antipodarum. These results suggest that this species is salt water adaptable and in addition, this investigation helps elucidate the potential of this aquatic invasive organism to adapt to adverse environmental conditions.     

Experimental evidence for alternative stable equilibria in a benthic pond food web

Both local and initial conditions have been implicated in causing variation in the strengths of predator effects among natural communities. In this study, I performed a controlled mesocosm experiment using two common snails, Physella gyrina and Helisoma trivolvis, and their insect predator, Belostoma flumineum, to explicitly quantify and understand the causes of previously observed variation in food web interactions in natural ecosystems. The results from a controlled mesocosm experiment showed that: (1) at low productivity, snails were dominated by small‐vulnerable species (P. gyrina), predator effects were strong and predator effects caused a trophic cascade extending to producers; (2) at high productivity, snails were dominated by large‐invulnerable species (H. trivolvis), predator effects were weak and there was no trophic cascade to producers; (3) at intermediate productivity, alternative stable equilibria were implicated, such that depending on initial conditions, snails were dominated by either small‐vulnerable or large‐invulnerable species and predator effects were either strong or weak. Thus, this study represents one of the first to quantify how variation in food web structure can result from the local environment, initial conditions and their interaction.