Taimoor Sohail
@taimoorsohail.bsky.social
Physical Oceanographer and Climate Scientist at UNSW Australia
I mean the Gulf Stream, not the AMOC as a whole!
March 5, 2025 at 4:15 AM
I mean the Gulf Stream, not the AMOC as a whole!
This work suggests that the relative role of aerosols in cooling our climate is weakening since the 1980s, and may enable accelerated, unchecked heating due to GHGs. Check out the full text if interested!
December 4, 2023 at 3:25 AM
This work suggests that the relative role of aerosols in cooling our climate is weakening since the 1980s, and may enable accelerated, unchecked heating due to GHGs. Check out the full text if interested!
3) We trace the drop in aerosols-driven ocean heat uptake efficiency to air-sea heat fluxes, which show reduced cooling in the tropics and sub-tropics since the 1980s.
December 4, 2023 at 3:23 AM
3) We trace the drop in aerosols-driven ocean heat uptake efficiency to air-sea heat fluxes, which show reduced cooling in the tropics and sub-tropics since the 1980s.
2) The drop in aerosol- driven heat uptake efficiency has been centred around the tropical and sub-tropical ocean, while the high latitudes (i.e., Southern Ocean and North Atlantic) have continued to cool with the same efficiency as pre-1980s
December 4, 2023 at 3:22 AM
2) The drop in aerosol- driven heat uptake efficiency has been centred around the tropical and sub-tropical ocean, while the high latitudes (i.e., Southern Ocean and North Atlantic) have continued to cool with the same efficiency as pre-1980s
1) The ocean heat uptake efficiency (how much cooling occurs in the ocean, per degree of surface cooling) due to human-released aerosols has dropped by 43% since 1980. Meanwhile, the ocean heat uptake efficiency of human-released greenhouse gasses has continued to climb.
December 4, 2023 at 3:21 AM
1) The ocean heat uptake efficiency (how much cooling occurs in the ocean, per degree of surface cooling) due to human-released aerosols has dropped by 43% since 1980. Meanwhile, the ocean heat uptake efficiency of human-released greenhouse gasses has continued to climb.
In this work, we diagnosed the change in aerosol-driven ocean heat uptake efficiency in decadal time windows and depth and temperature layers. The main findings are:
December 4, 2023 at 3:19 AM
In this work, we diagnosed the change in aerosol-driven ocean heat uptake efficiency in decadal time windows and depth and temperature layers. The main findings are: