Ice-shelf height variability in Amundsen Sea linked to ENSO

1. Ice-shelf height variability in Amundsen Sea linked to ENSO Fernando S. Paolo We thank Susan Howard (ESR) This work is funded by NASA European Geosciences Union 2016 Scripps Oceanography ? Helen A. Fricker Scripps Oceanography Laurie Padman Earth & Space Research NOAA

2. 18 years of continuous observations over the Antarctic ice shelves Time: ~3 months Space: ~30 km Span: 1994–2012 Paolo et al. (2015) Paolo et al. (2016), RSE

3. There is substantial variability in AS ice-shelf height at interannual time scales Total of 140 time series in AS

4. Multivariate Singular Spectrum Analysis identiﬁes common oscillatory modes Vautard et al. 1992, Golyandina et al. 2001, Ghil et al. 2002, Time Multivariatedataset Time Reconstructedcomponent Window Rank EigenvectorEigenvalue Signal Noise

5. There is statistically signiﬁcant energy in AS ice-shelf height at the interannual band Ice-shelf height time series T = 4.2 yr Oceanic Niño Index (SST) NOAA T = 4.2 yr

6. Ice-shelf height variability Low-freq. mode of ENSO El Niño events Interannual change in AS ice-shelf height is strongly correlated with ENSO Reconstructing AS and ONI using EOFs 1+2:

7. Sea-ice and precipitation variability in AS are also correlated with ice-shelf change Observed sea-ice concentration interannual anomaly (NSIDC-SSMI) Modeled precipitation rate interannual anomaly (ERA-Interim)

8. There is a clear relationship between sea ice cover, precipitation rate, ice-shelf change, and ENSO (at interannual scale) EN EN EN

9. There is signiﬁcant contrast in local conditions between El Niño and La Niña (of 1997-2000) El Niño 1997-98 La Niña 1999-00 Wind and vertical transport (ERA-Interim) Surface temperature (ERA-Interim)

10. Precipitation rate (ERA-Interim) Sea ice concentration (NSIDC-SSMIS) El Niño 1997-98 La Niña 1999-00 There is signiﬁcant contrast in local conditions between El Niño and La Niña (of 1997-2000)

11. Interannual sea-ice and ice-shelf variability in Amundsen are linked in opposite phase Increase in coastal polynyas allowing enhance ocean-to-atmosphere exchange of heat Increase in snowfall along the coast Overall reduction of sea-ice cover in AS During El Niño (1997–98): Increase surface moisture and poleward moisture transport The opposite conditions are observed during La Niña (1999–01) Ice shelves thicken!

12. The ENSO signal is stronger in the Amundsen Sea ice shelves Strength of ENSO along the West Antarctic margin (on each individual ice shelf)

13. Summary 1 ENSO is an important source of interannual variability in the WAIS margin Ice shelves thicken during El Niño and thin during La Niña (on average) Not only magnitude, but also duration of El Niño and La Niña matters

14. Summary 2 Though oceanic melting may increase during El Niño, precipitation wins (in dh!) Getz is epicenter of ENSO ice-shelf response in West Antarctica Pine Island Bay variability is anomalous w.r.t. the broader AS

15. Thank you.

16. Longer-term implication These results suggest that changing precipitation and air temperature patterns could be more important to long-term ice- shelf stability than changes in basal melting caused by ocean circulation variability

17. Mass budget between El Niño and La Niña: How much due to atmosphere and ocean? dh_obs = h(La Niña) - h(El Niño) dh_obs = dh_ibe + dh_smb + dh_bmb dh_smb > dh_bmb rho_i = 350—500

18. time 1 time 2 H1 H2 = ( / ) ⇥