Model simulations of arctic biogeochemistry and permafrost extent are highly sensitive to the implemented snow scheme
![PDF) Model simulations of arctic biogeochemistry and permafrost extent are highly sensitive to the implemented snow scheme in LPJ-GUESS PDF) Model simulations of arctic biogeochemistry and permafrost extent are highly sensitive to the implemented snow scheme in LPJ-GUESS](https://www.researchgate.net/publication/355650971/figure/fig1/AS:1083406406426632@1635315624877/Steps-in-the-daily-computational-cycle-for-the-Dynamic-snow-scheme-Blue-arrows-indicate_Q320.jpg)
PDF) Model simulations of arctic biogeochemistry and permafrost extent are highly sensitive to the implemented snow scheme in LPJ-GUESS
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GMD - Relations - Tree migration in the dynamic, global vegetation model LPJ-GM 1.1: efficient uncertainty assessment and improved dispersal kernels of European trees
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PDF) Model simulations of arctic biogeochemistry and permafrost extent are highly sensitive to the implemented snow scheme in LPJ-GUESS
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Model simulations of arctic biogeochemistry and permafrost extent are highly sensitive to the implemented snow scheme in LPJ-GUESS - BG
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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 BG - Model simulations of arctic biogeochemistry and permafrost extent are highly sensitive to the implemented snow scheme in LPJ-GUESS](https://bg.copernicus.org/articles/18/5767/2021/bg-18-5767-2021-f03-web.png)
BG - Model simulations of arctic biogeochemistry and permafrost extent are highly sensitive to the implemented snow scheme in LPJ-GUESS
Chapter 6 Appendices LPJ GUESS Simulations Technical Description 6.1 LPJ- GUESS Model Adaptations 6.1.1 Snow Depth Influence on
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BG - Model simulations of arctic biogeochemistry and permafrost extent are highly sensitive to the implemented snow scheme in LPJ-GUESS
![PDF) Model simulations of arctic biogeochemistry and permafrost extent are highly sensitive to the implemented snow scheme in LPJ-GUESS PDF) Model simulations of arctic biogeochemistry and permafrost extent are highly sensitive to the implemented snow scheme in LPJ-GUESS](https://www.researchgate.net/publication/355650971/figure/fig3/AS:1083406414819328@1635315626865/Comparison-of-the-observed-and-modelled-snow-insulation-effect-at-the-Russian-sites_Q320.jpg)
PDF) Model simulations of arctic biogeochemistry and permafrost extent are highly sensitive to the implemented snow scheme in LPJ-GUESS
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Modelling the impacts of future enhanced winter warming events on subarctic ecosystems using LPJ-GUESS
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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](https://ars.els-cdn.com/content/image/1-s2.0-S0304380020304762-gr8.jpg)
Adapting a dynamic vegetation model for regional biomass, plant biogeography, and fire modeling in the Greater Yellowstone Ecosystem: Evaluating LPJ-GUESS-LMfireCF - ScienceDirect
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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 BG - Model simulations of arctic biogeochemistry and permafrost extent are highly sensitive to the implemented snow scheme in LPJ-GUESS](https://bg.copernicus.org/articles/18/5767/2021/bg-18-5767-2021-f04-web.png)
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](https://www.mdpi.com/agriculture/agriculture-13-02081/article_deploy/html/images/agriculture-13-02081-g002.png)
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 Agriculture | Free Full-Text | Response of Soil Respiration to Altered Snow Cover in a Typical Temperate Grassland in China](https://www.mdpi.com/agriculture/agriculture-13-02081/article_deploy/html/images/agriculture-13-02081-g001.png)
Agriculture | Free Full-Text | Response of Soil Respiration to Altered Snow Cover in a Typical Temperate Grassland in China
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LPJ-GUESS water balance components. Pr, Precipitation; Pt, throughfall;... | Download Scientific Diagram
![The Tundra Carbon Balance - some recent results with LPJ-GUESS contributions Paul Miller Ben Smith, Martin Sykes, Torben Christensen, Arnaud Heroult, Almut. - ppt download The Tundra Carbon Balance - some recent results with LPJ-GUESS contributions Paul Miller Ben Smith, Martin Sykes, Torben Christensen, Arnaud Heroult, Almut. - ppt download](https://slideplayer.com/3833439/13/images/slide_1.jpg)
The Tundra Carbon Balance - some recent results with LPJ-GUESS contributions Paul Miller Ben Smith, Martin Sykes, Torben Christensen, Arnaud Heroult, Almut. - ppt download
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PDF) Model simulations of arctic biogeochemistry and permafrost extent are highly sensitive to the implemented snow scheme in LPJ-GUESS
![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](https://ars.els-cdn.com/content/image/1-s2.0-S0304380020304762-gr2.jpg)