Environmental Research Letters (Jan 2020)

Detecting a forced signal in satellite-era sea-level change

  • Kristin Richter,
  • Benoit Meyssignac,
  • Aimée B A Slangen,
  • Angélique Melet,
  • John A Church,
  • Xavier Fettweis,
  • Ben Marzeion,
  • Cécile Agosta,
  • Stefan R M Ligtenberg,
  • Giorgio Spada,
  • Matthew D Palmer,
  • Christopher D Roberts,
  • Nicolas Champollion

DOI
https://doi.org/10.1088/1748-9326/ab986e
Journal volume & issue
Vol. 15, no. 9
p. 094079

Abstract

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In this study, we compare the spatial patterns of simulated geocentric sea-level change to observations from satellite altimetry over the period 1993–2015 to assess whether a forced signal is detectable. This is challenging, as on these time scales internal variability plays an important role and may dominate the observed spatial patterns of regional sea-level change. Model simulations of regional sea-level change associated with sterodynamic sea level, atmospheric loading, glacier mass change, and ice-sheet surface mass balance changes are combined with observations of groundwater depletion, reservoir storage, and dynamic ice-sheet mass changes. The resulting total geocentric regional sea-level change is then compared to independent measurements from satellite altimeter observations. The detectability of the climate-forced signal is assessed by comparing the model ensemble mean of the ‘historical’ simulations with the characteristics of sea-level variability in pre-industrial control simulations. To further minimize the impact of internal variability, zonal averages were produced. We find that, in all ocean basins, zonally averaged simulated sea-level changes are consistent with observations within sampling uncertainties associated with simulated internal variability of the sterodynamic component. Furthermore, the simulated zonally averaged sea-level change cannot be explained by internal variability alone—thus we conclude that the observations include a forced contribution that is detectable at basin scales.

Keywords