Leveraging observed soil heterotrophic respiration fluxes as a novel constraint on global‐scale models
Microbially explicit models may improve understanding and projections of carbon dynamics
in response to future climate change, but their fidelity in simulating global‐scale soil …
in response to future climate change, but their fidelity in simulating global‐scale soil …
Leveraging observed soil heterotrophic respiration fluxes as a novel constraint on global-scale models
J Jian, B Bond-Lamberty, D Hao… - Global change …, 2021 - pubmed.ncbi.nlm.nih.gov
Microbially explicit models may improve understanding and projections of carbon dynamics
in response to future climate change, but their fidelity in simulating global-scale soil …
in response to future climate change, but their fidelity in simulating global-scale soil …
[PDF][PDF] Leveraging observed soil heterotrophic respiration fluxes as a novel constraint on global-scale models
J Jian, B Bond-Lamberty, D Hao, BN Sulman, KF Patel… - researchgate.net
Microbially-explicit models may improve understanding and projections of carbon dynamics
in response to future climate change, but their fidelity in simulating global-scale soil …
in response to future climate change, but their fidelity in simulating global-scale soil …
Leveraging observed soil heterotrophic respiration fluxes as a novel constraint on global-scale models
J Jian, B Bond‐Lamberty, D Hao, BN Sulman… - Global Change …, 2021 - osti.gov
Microbially explicit models may improve understanding and projections of carbon dynamics
in response to future climate change, but their fidelity in simulating global‐scale soil …
in response to future climate change, but their fidelity in simulating global‐scale soil …
Leveraging observed soil heterotrophic respiration fluxes as a novel constraint on global‐scale models.
J Jian, B Bond‐Lamberty, D Hao… - Global Change …, 2021 - search.ebscohost.com
Microbially explicit models may improve understanding and projections of carbon dynamics
in response to future climate change, but their fidelity in simulating global‐scale soil …
in response to future climate change, but their fidelity in simulating global‐scale soil …
Leveraging observed soil heterotrophic respiration fluxes as a novel constraint on global-scale models.
J Jian, B Bond-Lamberty, D Hao, BN Sulman, KF Patel… - 2021 - cabidigitallibrary.org
Microbially explicit models may improve understanding and projections of carbon dynamics
in response to future climate change, but their fidelity in simulating global-scale soil …
in response to future climate change, but their fidelity in simulating global-scale soil …
Leveraging observed soil heterotrophic respiration fluxes as a novel constraint on global-scale models...
ornl.gov
Microbially explicit models may improve understanding and projections of carbon dynamics
in response to future climate change, but their fidelity in simulating global-scale soil …
in response to future climate change, but their fidelity in simulating global-scale soil …
Leveraging observed soil heterotrophic respiration fluxes as a novel constraint on global‐scale models
J Jian, B Bond‐Lamberty, D Hao, BN Sulman, KF Patel… - 2021 - repository.library.noaa.gov
Microbially explicit models may improve understanding and projections of carbon dynamics
in response to future climate change, but their fidelity in simulating global‐scale soil …
in response to future climate change, but their fidelity in simulating global‐scale soil …
Leveraging observed soil heterotrophic respiration fluxes as a novel constraint on global-scale models
J Jian, B Bond‐Lamberty, D Hao, BN Sulman… - Global Change …, 2021 - osti.gov
Microbially explicit models may improve understanding and projections of carbon dynamics
in response to future climate change, but their fidelity in simulating global-scale soil …
in response to future climate change, but their fidelity in simulating global-scale soil …