How accurate is accurate enough for measuring sea-level rise and variability
Meyssignac, B.; Ablain, M.; Guérou, A.; Prandi, P.; Barnoud, A.; Blazquez, A.; Fourest, S.; Rousseau, V.; Bonnefond, P.; Cazenave, A.; Chenal, J.; Dibarboure, G.; Donlon, C.; Benveniste, J.; Sylvestre-Baron, A.; Vinogradova, N. (2023). How accurate is accurate enough for measuring sea-level rise and variability. Nat. Clim. Chang. 13(8): 796-803. https://dx.doi.org/10.1038/s41558-023-01735-z
In: Nature Climate Change. Nature Publishing Group: London. ISSN 1758-678X; e-ISSN 1758-6798, more
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| Authors | | Top |
- Meyssignac, B.
- Ablain, M.
- Guérou, A.
- Prandi, P.
- Barnoud, A.
- Blazquez, A.
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- Fourest, S.
- Rousseau, V.
- Bonnefond, P.
- Cazenave, A.
- Chenal, J.
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- Dibarboure, G.
- Donlon, C.
- Benveniste, J.
- Sylvestre-Baron, A.
- Vinogradova, N.
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| Abstract |
Sea-level measurements from radar satellite altimetry have reached a high level of accuracy and precision, which enables detection of global mean sea-level rise and attribution of most of the rate of rise to greenhouse gas emissions. This achievement is far beyond the original objectives of satellite altimetry missions. However, recent research shows that there is still room for improving the performance of satellite altimetry. Reduced uncertainties would enable regionalization of the detection and attribution of the anthropogenic signal in sea-level rise and provide new observational constraints on the water–energy cycle response to greenhouse gas emissions by improving the estimate of the ocean heat uptake and the Earth energy imbalance. |
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