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Spatial changes in structural and functional characteristics of fish and macroinvertebrate communities in eastern Kentucky
were investigated in a drainage system chronically exposed to high levels of chloride salts from nearby oilfield operations.
Salinity levels at biological monitoring stations ranged from 0.12–31.3‰. Lotic regions with salinities greater than 10‰ were
dominated by larvae of the dipterans Ephydra and Culicoides. In regions with salinities less than 10‰ species richness increased more or less linearly with decreasing levels of chloride
salts. Ephemeropterans appeared to be one of the major invertebrate groups least tolerant of elevated NaCl levels and were
absent in regions with salinities greater than 2‰ Availability of food resources, such as periphyton and particulate organic
matter, did not appear to be grossly altered in disturbed regions, and it is suggested that the observed distribution of macroinvertebrate
fauna was largely in response to taxonomic differences in salt tolerance. Fish seemed to be more tolerant of highly saline
conditions, and several species were observed in regions experiencing salinities as high as 15‰. Accordingly, assemblages
of fish taxa along the salinity gradient may have been influenced by trophic factors, such as spatial limitations in availability
of invertebrate prey. 相似文献
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Global seagrass distribution and diversity: A bioregional model 总被引:5,自引:0,他引:5
F. Short T. Carruthers W. Dennison M. Waycott 《Journal of experimental marine biology and ecology》2007,350(1-2):3-20
Seagrasses, marine flowering plants, are widely distributed along temperate and tropical coastlines of the world. Seagrasses have key ecological roles in coastal ecosystems and can form extensive meadows supporting high biodiversity. The global species diversity of seagrasses is low (< 60 species), but species can have ranges that extend for thousands of kilometers of coastline. Seagrass bioregions are defined here, based on species assemblages, species distributional ranges, and tropical and temperate influences. Six global bioregions are presented: four temperate and two tropical. The temperate bioregions include the Temperate North Atlantic, the Temperate North Pacific, the Mediterranean, and the Temperate Southern Oceans. The Temperate North Atlantic has low seagrass diversity, the major species being Zostera marina, typically occurring in estuaries and lagoons. The Temperate North Pacific has high seagrass diversity with Zostera spp. in estuaries and lagoons as well as Phyllospadix spp. in the surf zone. The Mediterranean region has clear water with vast meadows of moderate diversity of both temperate and tropical seagrasses, dominated by deep-growing Posidonia oceanica. The Temperate Southern Oceans bioregion includes the temperate southern coastlines of Australia, Africa and South America. Extensive meadows of low-to-high diversity temperate seagrasses are found in this bioregion, dominated by various species of Posidonia and Zostera. The tropical bioregions are the Tropical Atlantic and the Tropical Indo-Pacific, both supporting mega-herbivore grazers, including sea turtles and sirenia. The Tropical Atlantic bioregion has clear water with a high diversity of seagrasses on reefs and shallow banks, dominated by Thalassia testudinum. The vast Tropical Indo-Pacific has the highest seagrass diversity in the world, with as many as 14 species growing together on reef flats although seagrasses also occur in very deep waters. The global distribution of seagrass genera is remarkably consistent north and south of the equator; the northern and southern hemispheres share ten seagrass genera and only have one unique genus each. Some genera are much more speciose than others, with the genus Halophila having the most seagrass species. There are roughly the same number of temperate and tropical seagrass genera as well as species. The most widely distributed seagrass is Ruppia maritima, which occurs in tropical and temperate zones in a wide variety of habitats. Seagrass bioregions at the scale of ocean basins are identified based on species distributions which are supported by genetic patterns of diversity. Seagrass bioregions provide a useful framework for interpreting ecological, physiological and genetic results collected in specific locations or from particular species. 相似文献
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