Summary
The ways in which clouds change with global warming remain elusive, as are the associated cloud-climate feedbacks that govern most of the spread in climate sensitivity simulated by current Earth System Models. This uncertainty in turn limits society's ability to take necessary action to avoid dangerous climate change. Despite considerable research progress in recent decades, additional complexities have been uncovered that further add to the uncertainty. For example, the understanding that many cloud-climate feedbacks change with time, due to their dependence on warming levels or patterns, is relatively recent. Cloud thermodynamic phase changes are the root cause of some of this state-dependence, and new research has revealed that these feedbacks could shift Earth's climate into a state that is more sensitive to greenhouse gas forcing than at present. Understanding and quantifying this state-dependence is therefore critically important, but such progress will require deep understanding of processes on a range of scales, from the microphysics that control cloud phase to large-scale impacts on climate. Furthermore, it has become evident that different cloud-climate feedback regimes are governed by different processes with their own unique state dependence that must be investigated separately. Therefore, the overall objective of STEP-CHANGE is to understand and quantify feedbacks associated with cloud phase changes, including their state-dependence, for three distinct cloud regimes in the following regions: the Arctic, the Tropical deep convective region, and the Southern Hemisphere storm tracks. This will be achieved through a bold and innovative research strategy which includes aircraft measurements, lab experiments, space-borne remote sensing, and a hierarchy of numerical model simulations. STEP-CHANGE builds on recent discoveries and innovations within the PIs research group, and is motivated by key knowledge gaps identified in recent IPCC assessment reports.
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More information & hyperlinks
Web resources: | https://cordis.europa.eu/project/id/101045273 |
Start date: | 01-03-2023 |
End date: | 29-02-2028 |
Total budget - Public funding: | 2 249 666,00 Euro - 2 249 666,00 Euro |
Cordis data
Original description
The ways in which clouds change with global warming remain elusive, as are the associated cloud-climate feedbacks that govern most of the spread in climate sensitivity simulated by current Earth System Models. This uncertainty in turn limits society's ability to take necessary action to avoid dangerous climate change. Despite considerable research progress in recent decades, additional complexities have been uncovered that further add to the uncertainty. For example, the understanding that many cloud-climate feedbacks change with time, due to their dependence on warming levels or patterns, is relatively recent. Cloud thermodynamic phase changes are the root cause of some of this state-dependence, and new research has revealed that these feedbacks could shift Earth's climate into a state that is more sensitive to greenhouse gas forcing than at present. Understanding and quantifying this state-dependence is therefore critically important, but such progress will require deep understanding of processes on a range of scales, from the microphysics that control cloud phase to large-scale impacts on climate. Furthermore, it has become evident that different cloud-climate feedback regimes are governed by different processes with their own unique state dependence that must be investigated separately. Therefore, the overall objective of STEP-CHANGE is to understand and quantify feedbacks associated with cloud phase changes, including their state-dependence, for three distinct cloud regimes in the following regions: the Arctic, the Tropical deep convective region, and the Southern Hemisphere storm tracks. This will be achieved through a bold and innovative research strategy which includes aircraft measurements, lab experiments, space-borne remote sensing, and a hierarchy of numerical model simulations. STEP-CHANGE builds on recent discoveries and innovations within the PIs research group, and is motivated by key knowledge gaps identified in recent IPCC assessment reports.Status
SIGNEDCall topic
ERC-2021-COGUpdate Date
09-02-2023
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