A general biogeochemical model describing the responses of the C and N cycles in terrestrial ecosystems to changes in CO(2), climate, and N deposition.
about
The global terrestrial carbon cycleChanges in Fungal Community Composition in Response to Elevated Atmospheric CO2 and Nitrogen Fertilization Varies with Soil HorizonThe unseen iceberg: plant roots in arctic tundra.Root structural and functional dynamics in terrestrial biosphere models--evaluation and recommendations.Carbon cycle feedbacks and future climate change.Recovery of arctic tundra from thermal erosion disturbance is constrained by nutrient accumulation: a modeling analysis.Nitrogen balance in forest soils: nutritional limitation of plants under climate change stresses.Interacting effects of insects and flooding on wood decomposition.New understanding on phloem physiology and possible consequences for modelling long-distance carbon transport.A gradient of nutrient enrichment reveals nonlinear impacts of fertilization on Arctic plant diversity and ecosystem function.The plant's capacity in regulating resource demand.Experimental warming studies on tree species and forest ecosystems: a literature review.The role of stoichiometric flexibility in modelling forest ecosystem responses to nitrogen fertilization.Ecosystem Services from Small Forest Patches in Agricultural LandscapesForest productivity under climate change: a checklist for evaluating model studiesA watershed-scale assessment of a process soil CO2 production and efflux modelResponses of a tundra system to warming using SCAMPS: a stoichiometrically coupled, acclimating microbe–plant–soil modelModeling biogeochemical responses of tundra ecosystems to temporal and spatial variations in climate in the Kuparuk River Basin (Alaska)Modelling carbon responses of tundra ecosystems to historical and projected climate: a comparison of a plot- and a global-scale ecosystem model to identify process-based uncertaintiesModelling the soil-plant-atmosphere continuum in a Quercus-Acer stand at Harvard Forest: the regulation of stomatal conductance by light, nitrogen and soil/plant hydraulic propertiesValidating Models of Ecosystem Response to Global ChangeAspects of spatial and temporal aggregation in estimating regional carbon dioxide fluxes from temperate forest soilsGlobal Change and the Carbon Balance of Arctic EcosystemsCatchment-Scale Modeling of Nitrogen Dynamics in a Temperate Forested Watershed, Oregon. An Interdisciplinary Communication StrategyModeling human-induced climatic change: A summary for environmental managersModeling the belowground response of plants and soil biota to edaphic and climatic change—What can we expect to gain?Soil Respiration in the Cold Desert Environment of the Colorado Plateau (USA): Abiotic Regulators and ThresholdsClimate change impacts and adaptation in forest management: a reviewSpecies diversity and ecosystem response to carbon dioxide fertilization: conclusions from a temperate forest modelEvaluating ecosystem responses to rising atmospheric CO2 and global warming in a multi-factor world
P2860
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P2860
A general biogeochemical model describing the responses of the C and N cycles in terrestrial ecosystems to changes in CO(2), climate, and N deposition.
description
1991 nî lūn-bûn
@nan
1991年の論文
@ja
1991年論文
@yue
1991年論文
@zh-hant
1991年論文
@zh-hk
1991年論文
@zh-mo
1991年論文
@zh-tw
1991年论文
@wuu
1991年论文
@zh
1991年论文
@zh-cn
name
A general biogeochemical model ...... 2), climate, and N deposition.
@en
type
label
A general biogeochemical model ...... 2), climate, and N deposition.
@en
prefLabel
A general biogeochemical model ...... 2), climate, and N deposition.
@en
P2093
P921
P356
P1433
P1476
A general biogeochemical model ...... 2), climate, and N deposition.
@en
P2093
Edward B. Rastetter
Jerry M. Melillo
John D. Aber
John E. Hobbie
Knute J. Nadelhoffer
Michael G. Ryan
P304
P356
10.1093/TREEPHYS/9.1-2.101
P577
1991-07-01T00:00:00Z