Model simulations of arctic biogeochemistry and permafrost extent are highly sensitive to the implemented snow scheme
Modelling Tundra Vegetation Response to Recent Arctic Warming | Ambio
PDF) Model simulations of arctic biogeochemistry and permafrost extent are highly sensitive to the implemented snow scheme in LPJ-GUESS
GMD - Relations - Tree migration in the dynamic, global vegetation model LPJ-GM 1.1: efficient uncertainty assessment and improved dispersal kernels of European trees
PDF) Model simulations of arctic biogeochemistry and permafrost extent are highly sensitive to the implemented snow scheme in LPJ-GUESS
Model simulations of arctic biogeochemistry and permafrost extent are highly sensitive to the implemented snow scheme in LPJ-GUESS - BG
Comparison of the LPJ-GUESS climate forcing data (i.e.... | Download Scientific Diagram
Adapting a dynamic vegetation model for regional biomass, plant biogeography, and fire modeling in the Greater Yellowstone Ecosystem: Evaluating LPJ-GUESS-LMfireCF - ScienceDirect
BG - Model simulations of arctic biogeochemistry and permafrost extent are highly sensitive to the implemented snow scheme in LPJ-GUESS
ABoVE » Implementation Plan
Chapter 6 Appendices LPJ GUESS Simulations Technical Description 6.1 LPJ- GUESS Model Adaptations 6.1.1 Snow Depth Influence on
BG - Model simulations of arctic biogeochemistry and permafrost extent are highly sensitive to the implemented snow scheme in LPJ-GUESS
Comparison of the LPJ-GUESS climate forcing data (i.e.... | Download Scientific Diagram
Model-simulated and pollen-based REVEALS mean tree-cover fraction... | Download Scientific Diagram
PDF) Model simulations of arctic biogeochemistry and permafrost extent are highly sensitive to the implemented snow scheme in LPJ-GUESS
Modelling the impacts of future enhanced winter warming events on subarctic ecosystems using LPJ-GUESS
Agriculture | Free Full-Text | Response of Soil Respiration to Altered Snow Cover in a Typical Temperate Grassland in China
Adapting a dynamic vegetation model for regional biomass, plant biogeography, and fire modeling in the Greater Yellowstone Ecosystem: Evaluating LPJ-GUESS-LMfireCF - ScienceDirect
Adapting a dynamic vegetation model for regional biomass, plant biogeography, and fire modeling in the Greater Yellowstone Ecosystem: Evaluating LPJ-GUESS-LMfireCF - ScienceDirect
BG - Model simulations of arctic biogeochemistry and permafrost extent are highly sensitive to the implemented snow scheme in LPJ-GUESS
Agriculture | Free Full-Text | Response of Soil Respiration to Altered Snow Cover in a Typical Temperate Grassland in China
Agriculture | Free Full-Text | Response of Soil Respiration to Altered Snow Cover in a Typical Temperate Grassland in China
LPJ-GUESS water balance components. Pr, Precipitation; Pt, throughfall;... | Download Scientific Diagram
Impact of measured and simulated tundra snowpack properties on heat transfer
The Tundra Carbon Balance - some recent results with LPJ-GUESS contributions Paul Miller Ben Smith, Martin Sykes, Torben Christensen, Arnaud Heroult, Almut. - ppt download
PDF) Model simulations of arctic biogeochemistry and permafrost extent are highly sensitive to the implemented snow scheme in LPJ-GUESS
