Cladocerans versus copepods: the cause of contrasting top-down controls on freshwater and marine phytoplankton.
about
A new approach to homeostatic regulation: towards a unified view of physiological and ecological conceptsPhytoplankton cell size: intra- and interspecific effects of warming and grazing.Strategies of zooplanktivory shape the dynamics and diversity of littoral plankton communities: a mesocosm approachTemperature increase and fluctuation induce phytoplankton biodiversity loss - Evidence from a multi-seasonal mesocosm experiment.Coupling Between Heterotrophic Nanoflagellates and Bacteria in Fresh Waters: Does Latitude Make a Difference?From mice to elephants: overturning the 'one size fits all' paradigm in marine plankton food chains.Ocean acidification alters zooplankton communities and increases top-down pressure of a cubozoan predator.Do marine phytoplankton follow Bergmann's rule sensu lato?Microbial Food-Web Drivers in Tropical Reservoirs.Restoration impact of an uncontrolled phosphogypsum dump site on the seasonal distribution of abiotic variables, phytoplankton and zooplankton along the near shore of the south-western Mediterranean coast.Nitrogen effects on the pelagic food web are modified by dissolved organic carbon.Body size variation in aquatic consumers causes pervasive community effects, independent of mean body size.Alkyl polyglucoside compound influences freshwater plankton community structure in floating field mesocosms.Sixty years of environmental change in the world's largest freshwater lake – Lake Baikal, Siberia.Effects of sea surface warming on marine plankton.Evidence for a three-way trade-off between nitrogen and phosphorus competitive abilities and cell size in phytoplankton.Terrestrial subsidies to lake food webs: an experimental approach.Effect of an invasive filter-feeder on the zooplankton assemblage in a coastal lagoonExperimental effects of large-bodied Daphnia, fish and zebra mussels on cladoceran community and size structureSubtropical zooplankton assemblage promotes the harmful cyanobacterium Cylindrospermopsis raciborskii in a mesocosm experimentEffects of increasing nutrient supply and omnivorous feeding on the size spectrum slope: a size-based nutrient-phytoplankton-zooplankton modelApproach for Supporting Food Web Assessments with Multi-Decadal Phytoplankton Community Analyses—Case Baltic SeaClimate Change and the World's “Sacred Sea”—Lake Baikal, Siberia
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P2860
Cladocerans versus copepods: the cause of contrasting top-down controls on freshwater and marine phytoplankton.
description
2005 nî lūn-bûn
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2005年の論文
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2005年学术文章
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2005年学术文章
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2005年学术文章
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@zh-my
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@yue
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name
Cladocerans versus copepods: t ...... ater and marine phytoplankton.
@ast
Cladocerans versus copepods: t ...... ater and marine phytoplankton.
@en
type
label
Cladocerans versus copepods: t ...... ater and marine phytoplankton.
@ast
Cladocerans versus copepods: t ...... ater and marine phytoplankton.
@en
prefLabel
Cladocerans versus copepods: t ...... ater and marine phytoplankton.
@ast
Cladocerans versus copepods: t ...... ater and marine phytoplankton.
@en
P1433
P1476
Cladocerans versus copepods: t ...... ater and marine phytoplankton.
@en
P2093
Frank Sommer
Ulrich Sommer
P2860
P2888
P304
P356
10.1007/S00442-005-0320-0
P407
P577
2005-12-10T00:00:00Z