This paper documents the biogeochemistry configuration of the Energy Exascale Earth System Model (E3SM), E3SMv1.1-BGC. The model simulates historical carbon cycle dynamics, including carbon losses predicted in response to land use and land cover change, and the responses of the carbon cycle to changes in climate. In addition, we introduce several innovations in the treatment of soil nutrient limitation mechanisms, including explicit dependence on phosphorus availability. The suite of simulations described here includes E3SM contributions to the Coupled Climate-Carbon Cycle Model Intercomparison Project and other projects, as well as simulations to explore the impacts of structural uncertainty in representations of nitrogen and phosphorus li...
Terrestrial carbon (C) cycle models applied for climate projections simulate a strong increase in ne...
Society relies on Earth system models (ESMs) to project future climate and carbon (C) cycle feedback...
The feedbacks between climate, atmospheric CO2 concentration and the terrestrial carbon cycle are a ...
This paper documents the biogeochemistry configuration of the Energy Exascale Earth System Model (E3...
Abstract This paper documents the biogeochemistry configuration of the Energy Exascale Earth System ...
The importance of carbon (C)-nutrient interactions to the prediction of future C uptake has long bee...
Reliable projections of future climate require land–atmosphere carbon (C) fluxes to be represented r...
This article describes the new Earth system model (ESM), the Model for Interdisciplinary Research on...
Over the past several decades, the land modeling community has recognized the importance of nutrient...
The sensitivity of the potential feedbacks between climate and biogeochemical cycles (BGC) is adress...
Nitrogen (N) and phosphorus (P) biogeochemical dynamics are crucial for the regulation of the terres...
Version 1 of the Community Earth SystemModel, in the configurationwhere its full carbon cycle is ena...
Version 1 of the Community Earth SystemModel, in the configurationwhere its full carbon cycle is ena...
We examine the impact of land use and land cover change (LULCC) over the period from 1850 to 2005 us...
While coupling carbon and nitrogen processes is critical for Earth system models to accurately predi...
Terrestrial carbon (C) cycle models applied for climate projections simulate a strong increase in ne...
Society relies on Earth system models (ESMs) to project future climate and carbon (C) cycle feedback...
The feedbacks between climate, atmospheric CO2 concentration and the terrestrial carbon cycle are a ...
This paper documents the biogeochemistry configuration of the Energy Exascale Earth System Model (E3...
Abstract This paper documents the biogeochemistry configuration of the Energy Exascale Earth System ...
The importance of carbon (C)-nutrient interactions to the prediction of future C uptake has long bee...
Reliable projections of future climate require land–atmosphere carbon (C) fluxes to be represented r...
This article describes the new Earth system model (ESM), the Model for Interdisciplinary Research on...
Over the past several decades, the land modeling community has recognized the importance of nutrient...
The sensitivity of the potential feedbacks between climate and biogeochemical cycles (BGC) is adress...
Nitrogen (N) and phosphorus (P) biogeochemical dynamics are crucial for the regulation of the terres...
Version 1 of the Community Earth SystemModel, in the configurationwhere its full carbon cycle is ena...
Version 1 of the Community Earth SystemModel, in the configurationwhere its full carbon cycle is ena...
We examine the impact of land use and land cover change (LULCC) over the period from 1850 to 2005 us...
While coupling carbon and nitrogen processes is critical for Earth system models to accurately predi...
Terrestrial carbon (C) cycle models applied for climate projections simulate a strong increase in ne...
Society relies on Earth system models (ESMs) to project future climate and carbon (C) cycle feedback...
The feedbacks between climate, atmospheric CO2 concentration and the terrestrial carbon cycle are a ...