Burial-nutrient feedbacks amplify the sensitivity of atmospheric carbon dioxide to changes in organic matter remineralisation
SP Ritz - Earth System Dynamics, 2014 - esd.copernicus.org
Changes in the marine remineralisation of particulate organic matter (POM) and calcium
carbonate potentially provide a positive feedback with atmospheric CO 2 and climate …
carbonate potentially provide a positive feedback with atmospheric CO 2 and climate …
[PDF][PDF] Burial-nutrient feedbacks amplify the sensitivity of atmospheric carbon dioxide to changes in organic matter remineralisation
R Roth, SP Ritz, F Joos - 2014 - pdfs.semanticscholar.org
Changes in the marine remineralisation of particulate organic matter (POM) and calcium
carbonate potentially provide a positive feedback with atmospheric CO2 and climate …
carbonate potentially provide a positive feedback with atmospheric CO2 and climate …
Burial-nutrient feedbacks amplify the sensitivity of atmospheric carbon dioxide to changes in organic matter remineralisation
R Roth, SP Ritz, F Joos - 2014 - hero.epa.gov
Abstract Changes in the marine remineralisation of particulate organic matter (POM) and
calcium carbonate potentially provide a positive feedback with atmospheric CO2 and climate …
calcium carbonate potentially provide a positive feedback with atmospheric CO2 and climate …
[PDF][PDF] Burial-nutrient feedbacks amplify the sensitivity of atmospheric carbon dioxide to changes in organic matter remineralisation
R Roth, SP Ritz, F Joos - 2014 - core.ac.uk
Changes in the marine remineralisation of particulate organic matter (POM) and calcium
carbonate potentially provide a positive feedback with atmospheric CO2 and climate …
carbonate potentially provide a positive feedback with atmospheric CO2 and climate …
[PDF][PDF] Burial-nutrient feedbacks amplify the sensitivity of atmospheric carbon dioxide to changes in organic matter remineralisation
R Roth, S Ritz, F Joos - Earth system dynamics, 2014 - boris.unibe.ch
Changes in the marine remineralisation of particulate organic matter (POM) and calcium
carbonate potentially provide a positive feedback with atmospheric CO2 and climate …
carbonate potentially provide a positive feedback with atmospheric CO2 and climate …
Burial-nutrient feedbacks amplify the sensitivity of atmospheric carbon dioxide to changes in organic matter remineralisation
R Roth, SP Ritz, F Joos - Earth System Dynamics, 2014 - esd.copernicus.org
Changes in the marine remineralisation of particulate organic matter (POM) and calcium
carbonate potentially provide a positive feedback with atmospheric CO 2 and climate …
carbonate potentially provide a positive feedback with atmospheric CO 2 and climate …
Burial-nutrient feedbacks amplify the sensitivity of atmospheric carbon dioxide to changes in organic matter remineralisation
R Roth, SP Ritz, F Joos - Earth System Dynamics, 2014 - ui.adsabs.harvard.edu
Abstract Changes in the marine remineralisation of particulate organic matter (POM) and
calcium carbonate potentially provide a positive feedback with atmospheric CO 2 and …
calcium carbonate potentially provide a positive feedback with atmospheric CO 2 and …
[引用][C] Burial-nutrient feedbacks amplify the sensitivity of atmospheric carbon dioxide to changes in organic matter remineralisation
R Roth, SP Ritz, F Joos - Earth System Dynamics, 2014 - go.gale.com
Burial-nutrient feedbacks amplify the sensitivity of atmospheric carbon dioxide to changes in
organic matter remineralisation - Document - Gale Academic OneFile Use this link to get …
organic matter remineralisation - Document - Gale Academic OneFile Use this link to get …
Burial-nutrient feedbacks amplify the sensitivity of atmospheric carbon dioxide to changes in organic matter remineralisation
R Roth, SP Ritz, F Joos - Earth System Dynamics, 2014 - search.proquest.com
Abstract Changes in the marine remineralisation of particulate organic matter (POM) and
calcium carbonate potentially provide a positive feedback with atmospheric CO 2 and …
calcium carbonate potentially provide a positive feedback with atmospheric CO 2 and …
[PDF][PDF] Burial-nutrient feedbacks amplify the sensitivity of atmospheric carbon dioxide to changes in organic matter remineralisation
R Roth, SP Ritz, F Joos - 2014 - scholar.archive.org
Changes in the marine remineralisation of particulate organic matter (POM) and calcium
carbonate potentially provide a positive feedback with atmospheric CO2 and climate …
carbonate potentially provide a positive feedback with atmospheric CO2 and climate …