Ice and groundwater effects on long term polar motion (1979–2010)

• Published in: Journal of geodynamics Vol. 106; pp. 66 - 73
• Main Authors: Youm, Kookhyoun, Seo, Ki-Weon, Jeon, Taehwan, Na, Sung-Ho, Chen, Jianli, Wilson, Clark R.
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.05.2017
• Subjects: Earth rotation; Groundwater; Ice mass balance; Polar motion; Earth rotation; Groundwater; Ice mass balance; Polar motion
• ISSN: 0264-3707
• DOI: 10.1016/j.jog.2017.01.008

We examine Earth’s polar motion (PM) for the years 1979–2010 to understand climate related sources of PM excitation at periods longer than a year, and to investigate Antarctic and Greenland ice mass balance contributions to long period PM. There is particular interest in years prior to the GRACE mission (prior to 2002). Although long period PM is dominantly a measure of changes in two spherical harmonic Stokes coefficients (ΔC21 and ΔS21), we remove excitations due to winds and currents by estimating them from ERA-Interim winds and GECCO2 currents. PM estimates of ΔC21 and ΔS21 are compared with model estimates of contributions from the atmosphere, oceans, water stored on the continents, and polar ice sheets. We also include contributions from groundwater depletion and mountain glaciers. PM Stokes coefficient variations agree very well with model estimates over inter-annual time scales. For ΔC21 we find good agreement at long periods, with a common long-period (quadratic) variation, but not for ΔS21. This suggests deficiencies in understanding long period ice mass variations in Antarctica and/or groundwater mass changes in Eurasia and North America.