Knowledge gaps in quantifying the climate change response of biological storage of carbon in the ocean
The ocean is responsible for taking up approximately 25% of anthropogenic CO2 emissions
and stores> 50 times more carbon than the atmosphere. Biological processes in the ocean …
and stores> 50 times more carbon than the atmosphere. Biological processes in the ocean …
[HTML][HTML] On the influence of marine biogeochemical processes over CO2 exchange between the atmosphere and ocean
The ocean holds a large reservoir of carbon dioxide (CO 2), and mitigates climate change
through uptake of anthropogenic CO 2. Fluxes of CO 2 between the atmosphere and surface …
through uptake of anthropogenic CO 2. Fluxes of CO 2 between the atmosphere and surface …
The biological pump in a high CO2 world
U Passow, CA Carlson - Marine Ecology Progress Series, 2012 - int-res.com
The vertical separation of organic matter formation from respiration can lead to net carbon
sequestration within the ocean's interior, making the biological pump an important …
sequestration within the ocean's interior, making the biological pump an important …
The cost of reducing the North Atlantic Ocean biological carbon pump
To predict the impacts of climate change it is essential to understand how anthropogenic
change alters the balance between atmosphere, ocean, and terrestrial reservoirs of carbon …
change alters the balance between atmosphere, ocean, and terrestrial reservoirs of carbon …
The Influence of Air‐Sea CO2 Disequilibrium on Carbon Sequestration by the Ocean's Biological Pump
The ocean's biological carbon pump (BCP) affects the Earth's climate by sequestering CO2
away from the atmosphere for decades to millennia. One primary control on the amount of …
away from the atmosphere for decades to millennia. One primary control on the amount of …
[PDF][PDF] Environmental impacts and carbon capture potential of ocean alkalinity enhancement
Minimizing anthropogenic climate disruption in the coming century will likely require 15 both
deep and rapid cuts to greenhouse gas emissions and carbon dioxide removal (CDR) from …
deep and rapid cuts to greenhouse gas emissions and carbon dioxide removal (CDR) from …
Long‐Term Slowdown of Ocean Carbon Uptake by Alkalinity Dynamics
MO Chikamoto, P DiNezio… - Geophysical Research …, 2023 - Wiley Online Library
Oceanic absorption of atmospheric carbon dioxide (CO2) is expected to slow down under
increasing anthropogenic emissions; however, the driving mechanisms and rates of change …
increasing anthropogenic emissions; however, the driving mechanisms and rates of change …
Marine carbon sink dominated by biological pump after temperature overshoot
In the event of insufficient mitigation efforts, net-negative CO2 emissions may be required to
return climate warming to acceptable limits as defined by the Paris Agreement. The ocean …
return climate warming to acceptable limits as defined by the Paris Agreement. The ocean …
Impact of oceanic circulation on biological carbon storage in the ocean and atmospheric pCO2
I Marinov, A Gnanadesikan… - Global …, 2008 - Wiley Online Library
We use both theory and ocean biogeochemistry models to examine the role of the soft‐
tissue biological pump in controlling atmospheric CO2. We demonstrate that atmospheric …
tissue biological pump in controlling atmospheric CO2. We demonstrate that atmospheric …
A biogeochemical model of mineral-based ocean alkalinity enhancement: impacts on the biological pump and ocean carbon uptake
Minimizing anthropogenic climate disruption in the coming century will likely require carbon
dioxide removal (CDR) from Earth's atmosphere in addition to deep and rapid cuts to …
dioxide removal (CDR) from Earth's atmosphere in addition to deep and rapid cuts to …