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101.
Global diversity of rotifers (Rotifera) in freshwater 总被引:5,自引:0,他引:5
Hendrik Segers 《Hydrobiologia》2008,595(1):49-59
Rotifera is a Phylum of primary freshwater Metazoa containing two major groups: the heterogonic Monogononta and the exclusively
parthenogenetic Bdelloidea. Monogononta contains 1,570 species-level taxa, of which a majority (1,488) are free-living fresh
or inland water taxa. Bdelloidea contains 461 “species,” only one of which is marine, but with many limnoterrestrial representatives
or animals of unknown ecology. Actual numbers may be much higher, considering the occurrence of cryptic speciation in Monogononta
and the unsatisfactory nature of taxonomic knowledge. Rotifers, mostly monogononts, occur in all types of water bodies, worldwide.
They are particularly diverse in the littoral zone of stagnant waterbodies with soft, slightly acidic water and under oligo-
to mesotrophic conditions. The rotifer record is highest in the Northern hemisphere, which may be due to the concentration
of studies in those regions. Diversity is highest in the (sub)tropics; hotspots are northeast North America, tropical South
America, Southeast Asia, Australia, and Lake Baikal, endemicity is low in Africa (including Madagascar), Europe, the Indian
subcontinent, and Antarctica. Although the lack of fossil evidence and of molecular phylogenetic studies are major hindrances,
contrasting hypotheses on the origin and evolutionary history of Brachionus, Macrochaetus, and Trichocerca are presented.
Guest editors: E. V. Balian, C. Lévêque, H. Segers & K. Martens
Freshwater Animal Diversity Assessment 相似文献
102.
Darren C. J. Yeo Peter K. L. Ng Neil Cumberlidge Célio Magalhães Savel R. Daniels Martha R. Campos 《Hydrobiologia》2008,595(1):275-286
An assessment of the global freshwater crab diversity is presented. A total of 1,476 species in 14 families are currently
known from all zoogeographical regions (except Antarctica), including 1,306 species in eight exclusively freshwater families
(Pseudothelphusidae, Trichodactylidae, Potamonautidae, Deckeniidae, Platythelphusidae, Potamidae, Gecarcinucidae and Parathelphusidae).
Estimates of true freshwater crab diversity including likely numbers of undescribed taxa suggest that the field remains largely
in a “discovery” phase. Main ideas on the origins, diversification, and phylogeny of true freshwater crabs are briefly discussed.
The economic importance of freshwater crabs is also highlighted.
Guest editors: E. V. Balian, C. Lévêque, H. Segers & K. Martens
Freshwater Animal Diversity Assessment 相似文献
103.
Georgina Bond-Buckup Carlos G. Jara Marcos Pérez-Losada Ludwig Buckup Keith A. Crandall 《Hydrobiologia》2008,595(1):267-273
The freshwater anomuran crabs of the family Aeglidae are all restricted to southern South America occurring in Chile, Brazil,
Bolivia, Uruguay, Paraguay, and Argentina. The family consists of a single genus, Aegla, containing 63 currently described species. There are another 5–10 known yet undescribed species to complement this diversity.
The aeglids occur in freshwater lakes, streams, rivers, and in caves with freshwater. The origin of the family appears to
be from marine ancestors from the Pacific invading streams in Chile about 75 mya radiating both in Chile and again on the
eastern side of the Andes, particularly in Brazil. Of the 63 species, 23 or 36.5% are considered under threat and are in need
of conservation action.
Guest editors: E. V. Balian, C. Lévêque, H. Segers & K. Martens
Freshwater Animal Diversity Assessment 相似文献
104.
105.
青虾“软壳综合症”病原及其特性 总被引:8,自引:1,他引:7
从患软壳综合症的濒死青虾体内分离到一株细菌QXL0711B, 经人工感染试验, 其对青虾的半数致死浓度(LC50)为1.47×106 CFU/mL, 具有较强毒力。API 32E系统鉴定及16S rRNA序列分析, 该病原菌为维罗纳气单胞菌温和生物变种(Aeromonas veronii biovar sobria, 登录号: FJ808727)。其系统发育分析表明, 菌株QXL0711B与维罗纳气单胞菌(登录号: X71120)和维罗纳气单胞菌温和生物变种(登录号: AY987729)的亲缘关系最近, 相似文献
106.
Wetlands and global climate change: the role of wetland restoration in a changing world 总被引:11,自引:0,他引:11
Kevin L. Erwin 《Wetlands Ecology and Management》2009,17(1):71-84
Global climate change is recognized as a threat to species survival and the health of natural systems. Scientists worldwide are looking at the ecological and hydrological impacts resulting from climate change. Climate change will make future efforts to restore and manage wetlands more complex. Wetland systems are vulnerable to changes in quantity and quality of their water supply, and it is expected that climate change will have a pronounced effect on wetlands through alterations in hydrological regimes with great global variability. Wetland habitat responses to climate change and the implications for restoration will be realized differently on a regional and mega-watershed level, making it important to recognize that specific restoration and management plans will require examination by habitat. Floodplains, mangroves, seagrasses, saltmarshes, arctic wetlands, peatlands, freshwater marshes and forests are very diverse habitats, with different stressors and hence different management and restoration techniques are needed. The Sundarban (Bangladesh and India), Mekong river delta (Vietnam), and southern Ontario (Canada) are examples of major wetland complexes where the effects of climate change are evolving in different ways. Thus, successful long term restoration and management of these systems will hinge on how we choose to respond to the effects of climate change. How will we choose priorities for restoration and research? Will enough water be available to rehabilitate currently damaged, water-starved wetland ecosystems? This is a policy paper originally produced at the request of the Ramsar Convention on Wetlands and incorporates opinion, interpretation and scientific-based arguments. 相似文献
107.
Pesticide ecotoxicological effect factors and their uncertainties for freshwater ecosystems 总被引:1,自引:1,他引:0
Rosalie van Zelm Mark A. J. Huijbregts Leo Posthuma Arjen Wintersen Dik van de Meent 《The International Journal of Life Cycle Assessment》2009,14(1):43-51
Background, aim, and scope Characterization factors for ecotoxicity in the Life Cycle Impact Assessment (LCIA) are used to convert emissions into ecotoxicological
impacts. Deriving them involves a fate and an effect analysis step. The fate factor quantifies the change in environmental
concentration per unit of emission, while the effect factor quantifies the change in impact on the ecosystem per unit of environmental
concentration. This paper calculates freshwater ecotoxicological effect factors for 397 pesticides belonging to 11 pesticide-specific
toxic modes of action (TMoA), such as acetylcholinesterase inhibition and photosynthesis inhibition. Moreover, uncertainties
in the effect factors due to uncertain background concentrations and due to limited toxicity data are quantified.
Methods To calculate median ecotoxicological effect factors (EEFs), toxic pressure assessments were made, based on the species sensitivity
distribution—and the multisubstance potentially affected fraction—concept. The EEF quantifies an estimate of the fraction
of species that is probably affected due to a marginal change in concentration of a pesticide. EEFs were divided into a TMoA-specific
and a chemical-specific part, which were calculated on the basis of physicochemical properties, emissions, and toxicity data.
Propagation of parameter uncertainty in the EEFs and the TMoA- and chemical-specific parts was quantified by Monte Carlo simulation
and results were reported as 90% confidence intervals.
Results Median EEFs range from 2·10−3 to 7·106 l/g. Uncertainty in the TMoA-specific part is dominated by uncertainty in the TMoA-specific spread in species sensitivity
and by uncertainty in the effective toxicity of a TMoA. Uncertainty in the chemical-specific part of the EEFs depends on the
number of species for which toxicity data are available to calculate average toxicity (n
s) and ranges from a median uncertainty of 2.6 orders of magnitude for n
s = 2 to one order of magnitude for n
s ≥ 4. The TMoA-specific effect factor for systemic fungicides shows the largest uncertainty range. For seven TMoAs, uncertainty
ranges of the TMoA-specific effect factor are less than two orders of magnitude. For the other four TMoAs, the EEF uncertainty
range is between two and eight orders of magnitude. For the chemical-specific part of the EEFs, we found that variation in
uncertainty readily decreases for pesticides for which toxicity data are available for at least three species.
Discussion The same parameters that contributed most to uncertainty were found for pesticides as were found before for high-production-volume
chemicals. However, uncertainty in concentrations of pesticides was lower. TMoA-specific factors obtained with the applied
nonlinear method differ up to nine orders of magnitude from the factor of 0.5, which is used in the linear method. With the
applied method, a distinction in EEFs can be made among different TMoAs.
Conclusions Ecotoxicological effect factors are presented, including overviews of their uncertainty ranges and the main contributors to
uncertainty. The applied nonlinear method provides the possibility to quantify parameter uncertainty in the TMoA-specific
part of the ecotoxicological effect factor, which is helpful to get more insight in how uncertainty in ecotoxicological characterization
factors can be reduced.
Recommendations and perspectives The calculated uncertainty ranges can be included in life cycle assessment (LCA) case studies, which allows for better interpretation
of LCA results obtained with the EEFs. To put the uncertainty in effect factors into perspective within LCIA, more information
on the uncertainty in fate factors should be derived.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. 相似文献
108.
J.C.A. Joordens F.P. Wesselingh J. de Vos H.B. Vonhof D. Kroon 《Journal of human evolution》2009,(6):656-671
Knowledge about dietary niche is key to understanding hominin evolution, since diet influences body proportions, brain size, cognition, and habitat preference. In this study we provide ecological context for the current debate on modernity (or not) of aquatic resource exploitation by hominins. We use the Homo erectus site of Trinil as a case study to investigate how research questions on possible dietary relevance of aquatic environments can be addressed. Faunal and geochemical analysis of aquatic fossils from Trinil Hauptknochenschicht (HK) fauna demonstrate that Trinil at ∼1.5 Ma contained near-coastal rivers, lakes, swamp forests, lagoons, and marshes with minor marine influence, laterally grading into grasslands. Trinil HK environments yielded at least eleven edible mollusc species and four edible fish species that could be procured with no or minimal technology. We demonstrate that, from an ecological point of view, the default assumption should be that omnivorous hominins in coastal habitats with catchable aquatic fauna could have consumed aquatic resources. The hypothesis of aquatic exploitation can be tested with taphonomic analysis of aquatic fossils associated with hominin fossils. We show that midden-like characteristics of large bivalve shell assemblages containing Pseudodon and Elongaria from Trinil HK indicate deliberate collection by a selective agent, possibly hominin. 相似文献
109.
110.
Anna KUPARINEN Juha MERILA 《动物学报(英文版)》2009,(5):342-349
The timing of river entry in the Atlantic salmon is known to depend on genetic, demographic and environmental factors, but little is known about the relative magnitude of among population and among year variation and covariation in this respect in natural state Atlantic salmon rives. To investigate this, variability in the timing of river entry in three historical Finnish Atlantic salmon populations were analyzed using salmon trap data collected during 1870- 1902. The analyses reveled that 1 ) the timing of river entry differed substantially and consistently among the rivers, and that 2) variation among the rivers was much larger than variation among years. Annual variations were not explained by regional environmental conditions, whereas in one river the timing of the local flood peak was a significant predictor of the timing of river entry. Differences in the timing of salmon entry to geographically closely situated rivers suggests that a regionally fixed opening date for coastal fisheries might not be the best management strategy as it may lead to uneven exploitation of salmon populations from different rivers [ Current Zoology 55 (5) : 342 - 349, 2009] . 相似文献