TOP-DOWN IS BOTTOM-UP: DOES PREDATION IN THE RHIZOSPHERE REGULATE ABOVEGROUND DYNAMICS?
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All wet or dried up? Real differences between aquatic and terrestrial food websHigher Trophic Levels Overwhelm Climate Change Impacts on Terrestrial Ecosystem FunctioningATTENUATION OF TOP-DOWN AND BOTTOM-UP FORCES IN A COMPLEX TERRESTRIAL COMMUNITYLabile compounds in plant litter reduce the sensitivity of decomposition to warming and altered precipitation.Contrasting effects of elevated temperature and invertebrate grazing regulate multispecies interactions between decomposer fungi.Biotic interactions mediate soil microbial feedbacks to climate change.Biogeochemical consequences of rapid microbial turnover and seasonal succession in soil.Multitrophic effects of nutrient addition in upland grassland.Soil bacterial community composition altered by increased nutrient availability in Arctic tundra soils.A metagenomics-based approach to the top-down effect on the detritivore food web: a salamanders influence on fungal communities within a deciduous forest.Impact of nitrogen deposition on forest and lake food webs in nitrogen-limited environments.Quantifying the Contribution of Entire Free-Living Nematode Communities to Carbon Mineralization under Contrasting C and N Availability.Cascading effects of belowground predators on plant communities are density-dependent.Fertilizer regime impacts on abundance and diversity of soil fauna across a poplar plantation chronosequence in coastal Eastern China.Applying population and community ecology theory to advance understanding of belowground biogeochemistry.Patterns in soil fertility and root herbivory interact to influence fine-root dynamics.Nematode consumption by mite communities varies in different forest microhabitats as indicated by molecular gut content analysis.Dynamics of Soil Bacterial Communities Over a Vegetation Season Relate to Both Soil Nutrient Status and Plant Growth Phenology.Priority effects are interactively regulated by top-down and bottom-up forces: evidence from wood decomposer communities.Soil microbial communities alter leaf chemistry and influence allelopathic potential among coexisting plant species.Ectomycorrhizal fungi slow soil carbon cycling.Top-down control of soil fungal community composition by a globally distributed keystone consumer.Cascading effects of predator-detritivore interactions depend on environmental context in a Tibetan alpine meadow.Aboveground–belowground interactions as a source of complementarity effects in biodiversity experimentsTrophic controls delaying foraging by termites: reasons for the ground being brown?Plants control the seasonal dynamics of microbial N cycling in a beech forest soil by belowground C allocation.Above- and belowground responses of Arctic tundra ecosystems to altered soil nutrients and mammalian herbivory.Toward a complete soil C and N cycle: incorporating the soil fauna.Germination of Prosopis juliflora (Sw) DC seeds after scarification treatmentsA brown-world cascade in the dung decomposer food web of an alpine meadow: effects of predator interactions and warmingSoil and Freshwater and Marine Sediment Food Webs: Their Structure and FunctionPlant–microbe interactions at multiple scales across a high-elevation landscapeMost soil trophic guilds increase plant growth: a meta-analytical reviewPlants control the seasonal dynamics of microbial N cycling in a beech forest soil by belowground C allocationContrasting Responses of Soil Microbial and Nematode Communities to Warming and Plant Functional Group Removal Across a Post-fire Boreal Forest Successional GradientRegional-scale patterns of soil microbes and nematodes across grasslands on the Mongolian plateau: relationships with climate, soil, and plantsContrasting influence of soil nutrients and microbial community on differently sized basal consumersLong-term experiments for sustainable nutrient management in China. A reviewEnzymatic and detrital influences on the structure, function, and dynamics of spatially-explicit model ecosystems
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TOP-DOWN IS BOTTOM-UP: DOES PREDATION IN THE RHIZOSPHERE REGULATE ABOVEGROUND DYNAMICS?
description
article
@en
im April 2003 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована у квітні 2003
@uk
name
TOP-DOWN IS BOTTOM-UP: DOES PREDATION IN THE RHIZOSPHERE REGULATE ABOVEGROUND DYNAMICS?
@en
TOP-DOWN IS BOTTOM-UP: DOES PREDATION IN THE RHIZOSPHERE REGULATE ABOVEGROUND DYNAMICS?
@nl
type
label
TOP-DOWN IS BOTTOM-UP: DOES PREDATION IN THE RHIZOSPHERE REGULATE ABOVEGROUND DYNAMICS?
@en
TOP-DOWN IS BOTTOM-UP: DOES PREDATION IN THE RHIZOSPHERE REGULATE ABOVEGROUND DYNAMICS?
@nl
prefLabel
TOP-DOWN IS BOTTOM-UP: DOES PREDATION IN THE RHIZOSPHERE REGULATE ABOVEGROUND DYNAMICS?
@en
TOP-DOWN IS BOTTOM-UP: DOES PREDATION IN THE RHIZOSPHERE REGULATE ABOVEGROUND DYNAMICS?
@nl
P2093
P2860
P1433
P1476
TOP-DOWN IS BOTTOM-UP: DOES PREDATION IN THE RHIZOSPHERE REGULATE ABOVEGROUND DYNAMICS?
@en
P2093
Heikki Setälä
John C. Moore
Kevin McCann
Peter C. De Ruiter
P2860
P304
P356
10.1890/0012-9658(2003)084[0846:TIBDPI]2.0.CO;2
P407
P577
2003-04-01T00:00:00Z