Temporal and spatial variabilities of Antarctic ice mass changes inferred by GRACE in a Bayesian framework

February 28, 2018

12:00PM - 1:00PM

177 ScottHall, 1090 Carmack Road, Columbus, OH 43210

Add to Calendar 2018-02-28 13:00:00 2018-02-28 14:00:00 Temporal and spatial variabilities of Antarctic ice mass changes inferred by GRACE in a Bayesian framework Lei WangAssistant ProfessorCivil, Environmental & Geodetic EngineeringThe Ohio State UniversityAbstract:The Antarctic ice sheet (AIS) holds about 60% of all fresh water on Earth, an amount equivalent to about 58 m of sea-level rise. Observation of AIS mass change is thus essential in determining and predicting its contribution to sea level. While the ice mass loss estimates for West Antarctica (WA) and the Antarctic Peninsula (AP) are in agreement, the mass balance over East Antarctica (EA) and whether or not it compensates for the mass loss is under debate. Besides the different error sources and sensitivities of different measurement types, complex spatial and temporal variabilities would be another factor complicating the accurate estimation of the AIS mass balance. Therefore, a model that allows for variabilities in both melting rate and seasonal signals would seem appropriate in the estimation of present-day AIS melting. We present a stochastic filter technique, which enables the Bayesian separation of the systematic stripe noise and mass signal in decade-length GRACE monthly gravity series, and allows the estimation of time-variable seasonal and inter-annual components in the signals. One of the primary advantages of this Bayesian method is that it yields statistically rigorous uncertainty estimates reflecting the inherent spatial resolution of the data. By applying the stochastic filter to the decade-long GRACE observations, we present the temporal variabilities of the AIS mass balance at basin scale, particularly over East Antarctica, and decipher the EA mass variations in the past decade, and its role in affecting overall AIS mass balance and sea level. 177 ScottHall, 1090 Carmack Road, Columbus, OH 43210 OSU ASC Drupal 8 ascwebservices@osu.edu America/New_York public

Add to Calendar 2018-02-28 12:00:00 2018-02-28 13:00:00 Temporal and spatial variabilities of Antarctic ice mass changes inferred by GRACE in a Bayesian framework Lei WangAssistant ProfessorCivil, Environmental & Geodetic EngineeringThe Ohio State UniversityAbstract:The Antarctic ice sheet (AIS) holds about 60% of all fresh water on Earth, an amount equivalent to about 58 m of sea-level rise. Observation of AIS mass change is thus essential in determining and predicting its contribution to sea level. While the ice mass loss estimates for West Antarctica (WA) and the Antarctic Peninsula (AP) are in agreement, the mass balance over East Antarctica (EA) and whether or not it compensates for the mass loss is under debate. Besides the different error sources and sensitivities of different measurement types, complex spatial and temporal variabilities would be another factor complicating the accurate estimation of the AIS mass balance. Therefore, a model that allows for variabilities in both melting rate and seasonal signals would seem appropriate in the estimation of present-day AIS melting. We present a stochastic filter technique, which enables the Bayesian separation of the systematic stripe noise and mass signal in decade-length GRACE monthly gravity series, and allows the estimation of time-variable seasonal and inter-annual components in the signals. One of the primary advantages of this Bayesian method is that it yields statistically rigorous uncertainty estimates reflecting the inherent spatial resolution of the data. By applying the stochastic filter to the decade-long GRACE observations, we present the temporal variabilities of the AIS mass balance at basin scale, particularly over East Antarctica, and decipher the EA mass variations in the past decade, and its role in affecting overall AIS mass balance and sea level. 177 ScottHall, 1090 Carmack Road, Columbus, OH 43210 Byrd Polar and Climate Research Center byrd-contact@osu.edu America/New_York public

Lei Wang

Assistant Professor
Civil, Environmental & Geodetic Engineering
The Ohio State University

Abstract:

The Antarctic ice sheet (AIS) holds about 60% of all fresh water on Earth, an amount equivalent to about 58 m of sea-level rise. Observation of AIS mass change is thus essential in determining and predicting its contribution to sea level. While the ice mass loss estimates for West Antarctica (WA) and the Antarctic Peninsula (AP) are in agreement, the mass balance over East Antarctica (EA) and whether or not it compensates for the mass loss is under debate. Besides the different error sources and sensitivities of different measurement types, complex spatial and temporal variabilities would be another factor complicating the accurate estimation of the AIS mass balance. Therefore, a model that allows for variabilities in both melting rate and seasonal signals would seem appropriate in the estimation of present-day AIS melting. We present a stochastic filter technique, which enables the Bayesian separation of the systematic stripe noise and mass signal in decade-length GRACE monthly gravity series, and allows the estimation of time-variable seasonal and inter-annual components in the signals. One of the primary advantages of this Bayesian method is that it yields statistically rigorous uncertainty estimates reflecting the inherent spatial resolution of the data. By applying the stochastic filter to the decade-long GRACE observations, we present the temporal variabilities of the AIS mass balance at basin scale, particularly over East Antarctica, and decipher the EA mass variations in the past decade, and its role in affecting overall AIS mass balance and sea level.

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