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From:Geoscientific Model Development (Vol. 15, Issue 16) Peer-ReviewedThe potential for multiyear prediction of impactful Earth system change remains relatively underexplored compared to shorter (subseasonal to seasonal) and longer (decadal) timescales. In this study, we introduce a new...
From:Geoscientific Model Development (Vol. 15, Issue 16) Peer-ReviewedThe Earth's land surface features spatial and temporal heterogeneity over a wide range of scales below those resolved by current Earth system models (ESMs). State-of-the-art land and atmosphere models employ...
From:Geoscientific Model Development (Vol. 15, Issue 16) Peer-ReviewedWe developed a new version of the Alfred Wegener Institute Climate Model (AWI-CM3), which has higher skills in representing the observed climatology and better computational efficiency than its predecessors. Its ocean...
From:Geoscientific Model Development (Vol. 15, Issue 16) Peer-ReviewedNumerous plant hydrodynamic models have started to be implemented in vegetation dynamics models, reflecting the central role of plant hydraulic traits in driving water, energy, and carbon cycles, as well as plant...
From:Geoscientific Model Development (Vol. 15, Issue 16) Peer-ReviewedThe remoteness and extreme conditions of the Arctic make it a very difficult environment to investigate. In these polar regions covered by sea ice, the wind is relatively strong due to the absence of obstructions and...
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