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我国中生代的Margaritiferidae和它的演化 总被引:1,自引:0,他引:1
对我国中生代珍珠蚌科内的属、种进行了较系统的修订,归并了1科、1亚属、10种,并据这些属、种纵向、横向的分布情况及其壳形、壳饰、内部构造等特征,进一步探讨了它们的起源和演化规律。 相似文献
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Conservation status of freshwater mussels in Europe: state of the art and future challenges
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Manuel Lopes‐Lima David C. Aldridge Rafael Araujo Jakob Bergengren Yulia Bespalaya Erika Bódis Lyubov Burlakova Dirk Van Damme Karel Douda Elsa Froufe Dilian Georgiev Clemens Gumpinger Alexander Karatayev Ümit Kebapçi Ian Killeen Jasna Lajtner Bjørn M. Larsen Rosaria Lauceri Anastasios Legakis Sabela Lois Stefan Lundberg Evelyn Moorkens Gregory Motte Karl‐Otto Nagel Paz Ondina Adolfo Outeiro Momir Paunovic Vincent Prié Ted von Proschwitz Nicoletta Riccardi Mudīte Rudzīte Māris Rudzītis Christian Scheder Mary Seddon Hülya Şereflişan Vladica Simić Svetlana Sokolova Katharina Stoeckl Jouni Taskinen Amílcar Teixeira Frankie Thielen Teodora Trichkova Simone Varandas Heinrich Vicentini Katarzyna Zajac Tadeusz Zajac Stamatis Zogaris 《Biological reviews of the Cambridge Philosophical Society》2017,92(1):572-607
Freshwater mussels of the Order Unionida provide important ecosystem functions and services, yet many of their populations are in decline. We comprehensively review the status of the 16 currently recognized species in Europe, collating for the first time their life‐history traits, distribution, conservation status, habitat preferences, and main threats in order to suggest future management actions. In northern, central, and eastern Europe, a relatively homogeneous species composition is found in most basins. In southern Europe, despite the lower species richness, spatially restricted species make these basins a high conservation priority. Information on freshwater mussels in Europe is unevenly distributed with considerable differences in data quality and quantity among countries and species. To make conservation more effective in the future, we suggest greater international cooperation using standardized protocols and methods to monitor and manage European freshwater mussel diversity. Such an approach will not only help conserve this vulnerable group but also, through the protection of these important organisms, will offer wider benefits to freshwater ecosystems. 相似文献
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Arthur E. Bogan 《Hydrobiologia》2008,595(1):139-147
The term freshwater bivalve is very inclusive and not very informative. There are representatives of at least 19 families
that have at least one representative living in freshwater. This suggests at least 14 different invasions of freshwater. At
least nine families have small to large radiations in the freshwater environment: Corbiculidae, Sphaeriidae, Dreissenidae,
and the unioniforme families: Hyriidae, Margaritiferidae, Unionidae, Etheriidae, Iridinidae, and Mycetopodidae. The unioniforme
families contain at least 180 genera and about 800 species. This order is characterized by the unique parasitic larval stage
on the gills, fins or the body of a particular host fish. This order of freshwater bivalves is suffering a very high rate
of extinction, with about 37 species considered presumed extinct in North America alone. The level of endangerment and extinction
facing these animals is primarily the result of habitat destruction or modification.
Guest editors: E. V. Balian, C. Lévêque, H. Segers & K. Martens
Freshwater Animal Diversity Assessment 相似文献
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Evolution of a Unique Mitotype-Specific Protein-Coding Extension of the Cytochrome c Oxidase II Gene in Freshwater Mussels (Bivalvia: Unionoida) 总被引:1,自引:0,他引:1
A unique mode of mitochondrial DNA inheritance, designated doubly-uniparental inheritance (DUI), occurs in three bivalve subclasses (Pteriomorpha: Mytiloida, Palaeoheterodonta: Unionoida, Heterodonta: Veneroida), indicating that DUI may be a widespread phenomenon among bivalves. In mytiloids, breakdown of this pattern of inheritance (gender-switching) is observed in natural populations and in a phylogenetic context. In contrast, gender-switching has not occurred during the evolutionary history of unionoids. Here we present sequences for the male (M) and female (F) mitotypes from an additional 8 species of Unionoida. Consistent with previous observations, the M and F mitotypes of all species form reciprocally monophyletic clades supporting the hypothesis of taxon-specific rates of gender-switching. Coinciding with the absence of gender-switching is an ≈185 codon extension of the cytochrome c oxidase II (MTCO2) locus in the male genome. The extension is present in all 12 unionoid species examined, including a representative of the family Margaritiferidae, indicating that this protein-coding polymorphism originated ≥ 200 MYBP. Although the extension is well conserved in length among 11 of the 12 species, one taxon has a significantly shortened extension. Lastly, examination of the rates and patterns of substitution indicate that the extension is evolving under relaxed purging selection, a pattern inconsistent with the conserved nature of MTCO2 or any cytochrome c oxidase locus.[Reviewing Editor: Dr. J. William Ballard] 相似文献
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Marianna Soroka 《Journal of Zoological Systematics and Evolutionary Research》2020,58(2):598-614
Doubly uniparental inheritance (DUI) is a mode of inheriting mitochondrial DNA that is distinct from strictly maternal inheritance. It has been described in nine and three families of marine and freshwater mussels, respectively, including the European margaritiferids and unionids. Among the 16 freshwater species of Unionida inhabiting Europe, DUI has been described in 9 species of dioecious mussels and was absent from a single hermaphroditic species and from secondary hermaphroditic specimens. The DUI freshwater mussels include two vastly genetically different mitochondrial genomes: maternal (F genome) and paternal (M genome), which coexist within the same specimen but in different tissues. The F genome is present in all female tissues and somatic male tissues. It is inherited in the typical, maternal, manner. Conversely, the M genome is located primarily in the male gonads and generative cells, and is inherited paternally. Dioecious Unionidae display unique characteristics that have been interrelated for over 200 million years: a high fidelity of the transmission of the F and M genomes in DUI and two paths of spermatogenesis–the typical path that produces sperm cells containing mitochondria with the F genome and the atypical path that produces sperm cells with the M genome. The mitogenomes of freshwater mussels display unique features that are not present in any other animal, that is, an additional, gender-specific gene and an elongated cox2 gene occurring exclusively in the M genome. These features mean that the mitochondria, in addition to their basic function of producing energy, also may take part in determining sex in these dioecious organisms. 相似文献
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Wendell R. Haag Andrew L. Rypel 《Biological reviews of the Cambridge Philosophical Society》2011,86(1):225-247
The amount of energy allocated to growth versus other functions is a fundamental feature of an organism's life history. Constraints on energy availability result in characteristic trade‐offs among life‐history traits and reflect strategies by which organisms adapt to their environments. Freshwater mussels are a diverse and imperiled component of aquatic ecosystems but little is known about their growth and longevity. Generalized depictions of freshwater mussels as ‘long‐lived and slow‐growing’ may give an unrealistically narrow view of life‐history diversity which is incongruent with the taxonomic diversity of the group and can result in development of inappropriate conservation strategies. We investigated relationships among growth, longevity, and size in 57 species and 146 populations of freshwater mussels using original data and literature sources. In contrast to generalized depictions, longevity spanned nearly two orders of magnitude, ranging from 4 to 190 years, and the von Bertalanffy growth constant, K, spanned a similar range (0.02–1.01). Median longevity and K differed among phylogenetic groups but groups overlapped widely in these traits. Longevity, K, and size also varied among populations; in some cases, longevity and K differed between populations by a factor of two or more. Growth differed between sexes in some species and males typically reached larger sizes than females. In addition, a population of Quadrula asperata exhibited two distinctly different growth trajectories. Most individuals in this population had a low‐to‐moderate value of K (0.15) and intermediate longevity (27 years) but other individuals showed extremely slow growth (K = 0.05) and reached advanced ages (72 years). Overall, longevity was related negatively to the growth rate, K, and K explained a high percentage of variation in longevity. By contrast, size and relative shell mass (g mm?1 shell length) explained little variation in longevity. These patterns remained when data were corrected for phylogenetic relationships among species. Path analysis supported the conclusion that K was the most important factor influencing longevity both directly and indirectly through its effect on shell mass. The great variability in age and growth among and within species shows that allocation to growth is highly plastic in freshwater mussels. The strong negative relationship between growth and longevity suggests this is an important trade‐off describing widely divergent life‐history strategies. Although life‐history strategies may be constrained somewhat by phylogeny, plasticity in growth among populations indicates that growth characteristics cannot be generalized within a species and management and conservation efforts should be based on data specific to a population of interest. 相似文献
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D. G.SMITH 《Zoological Journal of the Linnean Society》1980,69(3):257-270
The family Margaritiferidae has received little serious anatomical study since the early twentieth centurv. The present paper attempts to provide information, derived from relaxed preserved and living material, on aspects of the mantle anatomy and neuroanatomy of two species, Margaritifera margaritifera and Cumberlandia monodonta . An historical overview of the systematics of the family is provided along with a proposed division of major groups within the genus Margaritifera .
The diaphragm of margaritiferids is complete, rather than incomplete as previously interpreted, and is formed bv both the gills and the diaphragmatic septa, the latter of which, in life, cover a portion of the posterior outer gill demibranchs and separate the branchial and suprabranchial chambers. Union of the diaphragmatic septa posteriorly draws the mantle margins together, separating the inhalent and exhalent apertures and thus completing the diaphragm.
The general visceral nervous system of each species is consistent with that of other bivalves. Differences from other unionaceans include the possession of a small, as opposed to a large, dorsal supra-anal bifurcation. Also, each of the two species studied lacks the anterior loop of the branchial nerve reported in some other unionaceans. 相似文献
The diaphragm of margaritiferids is complete, rather than incomplete as previously interpreted, and is formed bv both the gills and the diaphragmatic septa, the latter of which, in life, cover a portion of the posterior outer gill demibranchs and separate the branchial and suprabranchial chambers. Union of the diaphragmatic septa posteriorly draws the mantle margins together, separating the inhalent and exhalent apertures and thus completing the diaphragm.
The general visceral nervous system of each species is consistent with that of other bivalves. Differences from other unionaceans include the possession of a small, as opposed to a large, dorsal supra-anal bifurcation. Also, each of the two species studied lacks the anterior loop of the branchial nerve reported in some other unionaceans. 相似文献
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Wendell R. Haag 《Journal of Biogeography》2010,37(1):12-26
Aim North America harbours the most diverse freshwater mussel fauna on Earth. This fauna has high endemism at the continental scale and within individual river systems. Previous faunal classifications for North America were based on intuitive, subjective assessments of species distributions, primarily the occurrence of endemic species, and do not portray continent‐wide patterns of faunal similarity. The aim of this study is to provide an analytical portrayal of patterns of mussel diversity in a hierarchical framework that informs the biogeographical history of the fauna. Location The study considered the mussel fauna of North America from the Rio Grande system northwards. Methods Patterns of mussel faunal similarity in 126 river systems or lake watersheds across North America were examined. The dataset was developed from the literature and consisted of recent species presence/absence (282 species) in each drainage unit; subspecies were not included. Patterns of mussel diversity were examined with hierarchical cluster analysis, based on a pairwise distance matrix between all drainage units. Results Cluster analysis revealed 17 faunal provinces within four major faunal regions: Mississippian, Atlantic, Eastern Gulf and Pacific. The Mississippian Region dominates the North American fauna with 11 provinces, including five not recognized by previous classifications: Mississippi Embayment, Upper Mississippi, Great Plains, Ohioan and Pontchartrain–Pearl–Pascagoula. Within the Eastern Gulf Region (containing three provinces), the Escambia–Choctawhatchee Province is distinctive from the Apalachicolan Province, under which it was previously subsumed. Patterns of diversity in the Atlantic Region (two provinces) and Pacific Region (one province) were similar to previous classifications. Main conclusions The classification proposed in this study largely corroborates earlier schemes based on the occurrence of endemic species but identifies additional heterogeneity that reflects unique assemblages of widely distributed species. The study proposes a hierarchical structure that illustrates relationships among these provinces. Although some provinces in the Mississippian Region have high endemism, all Mississippian provinces share a group of widely distributed species. The Atlantic and Eastern Gulf regions have distinctive, endemic faunas suggesting limited past connectivity with the Mississippian Region. The Pacific Region is the most distinct fauna in North America and bears close affinity to the Eurasian mussel fauna. 相似文献
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