Insights into spatial sensitivities of ice mass response to environmental change from the SeaRISE ice sheet modeling project II: Greenland

Sophie Nowicki; Robert A. Bindschadler; Ayako Abe-Ouchi; Andy Aschwanden; Ed Bueler; Hyeungu Choi; Jim Fastook; Glen Granzow; Ralf Greve; Gail Gutowski; Ute Herzfeld; Charles Jackson; Jesse Johnson; Constantine Khroulev; Eric Larour; Anders Levermann; William H. Lipscomb; Maria A. Martin; Mathieu Morlighem; Byron R. Parizek; David Pollard; Stephen F. Price; Diandong Ren; Eric Rignot; Fuyuki Saito; Tatsuru Sato; Hakime Seddik; Helene Seroussi; Kunio Takahashi; Ryan Walker; Wei Li Wang

doi:10.1002/jgrf.20076

Insights into spatial sensitivities of ice mass response to environmental change from the SeaRISE ice sheet modeling project II: Greenland

Sophie Nowicki, Robert A. Bindschadler, Ayako Abe-Ouchi, Andy Aschwanden, Ed Bueler, Hyeungu Choi, Jim Fastook, Glen Granzow, Ralf Greve, Gail Gutowski, Ute Herzfeld, Charles Jackson, Jesse Johnson, Constantine Khroulev, Eric Larour, Anders Levermann, William H. Lipscomb, Maria A. Martin, Mathieu Morlighem, Byron R. ParizekDavid Pollard, Stephen F. Price, Diandong Ren, Eric Rignot, Fuyuki Saito, Tatsuru Sato, Hakime Seddik, Helene Seroussi, Kunio Takahashi, Ryan Walker, Wei Li Wang

Research output: Contribution to journal › Article › peer-review

68 Scopus citations

Abstract

The Sea-level Response to Ice Sheet Evolution (SeaRISE) effort explores the sensitivity of the current generation of ice sheet models to external forcing to gain insight into the potential future contribution to sea level from the Greenland and Antarctic ice sheets. All participating models simulated the ice sheet response to three types of external forcings: a change in oceanic condition, a warmer atmospheric environment, and enhanced basal lubrication. Here an analysis of the spatial response of the Greenland ice sheet is presented, and the impact of model physics and spin-up on the projections is explored. Although the modeled responses are not always homogeneous, consistent spatial trends emerge from the ensemble analysis, indicating distinct vulnerabilities of the Greenland ice sheet. There are clear response patterns associated with each forcing, and a similar mass loss at the full ice sheet scale will result in different mass losses at the regional scale, as well as distinct thickness changes over the ice sheet. All forcings lead to an increased mass loss for the coming centuries, with increased basal lubrication and warmer ocean conditions affecting mainly outlet glaciers, while the impacts of atmospheric forcings affect the whole ice sheet. Key Points Sensitivity study of Greenland to atmospheric, oceanic and subglacial forcings Each forcing result in a different regional thickness response All forcings lead to an increased mass loss for the coming centuries

Original language	English (US)
Pages (from-to)	1025-1044
Number of pages	20
Journal	Journal of Geophysical Research: Earth Surface
Volume	118
Issue number	2
DOIs	https://doi.org/10.1002/jgrf.20076
State	Published - Jun 1 2013

All Science Journal Classification (ASJC) codes

Geophysics
Earth-Surface Processes

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10.1002/jgrf.20076

Cite this

Nowicki, S., Bindschadler, R. A., Abe-Ouchi, A., Aschwanden, A., Bueler, E., Choi, H., Fastook, J., Granzow, G., Greve, R., Gutowski, G., Herzfeld, U., Jackson, C., Johnson, J., Khroulev, C., Larour, E., Levermann, A., Lipscomb, W. H., Martin, M. A., Morlighem, M., ... Wang, W. L. (2013). Insights into spatial sensitivities of ice mass response to environmental change from the SeaRISE ice sheet modeling project II: Greenland. Journal of Geophysical Research: Earth Surface, 118(2), 1025-1044. https://doi.org/10.1002/jgrf.20076

@article{d2a225f6e6524ec896fff41b54b23211,

title = "Insights into spatial sensitivities of ice mass response to environmental change from the SeaRISE ice sheet modeling project II: Greenland",

abstract = "The Sea-level Response to Ice Sheet Evolution (SeaRISE) effort explores the sensitivity of the current generation of ice sheet models to external forcing to gain insight into the potential future contribution to sea level from the Greenland and Antarctic ice sheets. All participating models simulated the ice sheet response to three types of external forcings: a change in oceanic condition, a warmer atmospheric environment, and enhanced basal lubrication. Here an analysis of the spatial response of the Greenland ice sheet is presented, and the impact of model physics and spin-up on the projections is explored. Although the modeled responses are not always homogeneous, consistent spatial trends emerge from the ensemble analysis, indicating distinct vulnerabilities of the Greenland ice sheet. There are clear response patterns associated with each forcing, and a similar mass loss at the full ice sheet scale will result in different mass losses at the regional scale, as well as distinct thickness changes over the ice sheet. All forcings lead to an increased mass loss for the coming centuries, with increased basal lubrication and warmer ocean conditions affecting mainly outlet glaciers, while the impacts of atmospheric forcings affect the whole ice sheet. Key Points Sensitivity study of Greenland to atmospheric, oceanic and subglacial forcings Each forcing result in a different regional thickness response All forcings lead to an increased mass loss for the coming centuries",

author = "Sophie Nowicki and Bindschadler, {Robert A.} and Ayako Abe-Ouchi and Andy Aschwanden and Ed Bueler and Hyeungu Choi and Jim Fastook and Glen Granzow and Ralf Greve and Gail Gutowski and Ute Herzfeld and Charles Jackson and Jesse Johnson and Constantine Khroulev and Eric Larour and Anders Levermann and Lipscomb, {William H.} and Martin, {Maria A.} and Mathieu Morlighem and Parizek, {Byron R.} and David Pollard and Price, {Stephen F.} and Diandong Ren and Eric Rignot and Fuyuki Saito and Tatsuru Sato and Hakime Seddik and Helene Seroussi and Kunio Takahashi and Ryan Walker and Wang, {Wei Li}",

year = "2013",

month = jun,

day = "1",

doi = "10.1002/jgrf.20076",

language = "English (US)",

volume = "118",

pages = "1025--1044",

journal = "Journal of Geophysical Research: Earth Surface",

issn = "2169-9003",

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Nowicki, S, Bindschadler, RA, Abe-Ouchi, A, Aschwanden, A, Bueler, E, Choi, H, Fastook, J, Granzow, G, Greve, R, Gutowski, G, Herzfeld, U, Jackson, C, Johnson, J, Khroulev, C, Larour, E, Levermann, A, Lipscomb, WH, Martin, MA, Morlighem, M, Parizek, BR, Pollard, D, Price, SF, Ren, D, Rignot, E, Saito, F, Sato, T, Seddik, H, Seroussi, H, Takahashi, K, Walker, R & Wang, WL 2013, 'Insights into spatial sensitivities of ice mass response to environmental change from the SeaRISE ice sheet modeling project II: Greenland', Journal of Geophysical Research: Earth Surface, vol. 118, no. 2, pp. 1025-1044. https://doi.org/10.1002/jgrf.20076

Insights into spatial sensitivities of ice mass response to environmental change from the SeaRISE ice sheet modeling project II: Greenland. / Nowicki, Sophie; Bindschadler, Robert A.; Abe-Ouchi, Ayako et al.
In: Journal of Geophysical Research: Earth Surface, Vol. 118, No. 2, 01.06.2013, p. 1025-1044.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - Insights into spatial sensitivities of ice mass response to environmental change from the SeaRISE ice sheet modeling project II

T2 - Greenland

AU - Nowicki, Sophie

AU - Bindschadler, Robert A.

AU - Abe-Ouchi, Ayako

AU - Aschwanden, Andy

AU - Bueler, Ed

AU - Choi, Hyeungu

AU - Fastook, Jim

AU - Granzow, Glen

AU - Greve, Ralf

AU - Gutowski, Gail

AU - Herzfeld, Ute

AU - Jackson, Charles

AU - Johnson, Jesse

AU - Khroulev, Constantine

AU - Larour, Eric

AU - Levermann, Anders

AU - Lipscomb, William H.

AU - Martin, Maria A.

AU - Morlighem, Mathieu

AU - Parizek, Byron R.

AU - Pollard, David

AU - Price, Stephen F.

AU - Ren, Diandong

AU - Rignot, Eric

AU - Saito, Fuyuki

AU - Sato, Tatsuru

AU - Seddik, Hakime

AU - Seroussi, Helene

AU - Takahashi, Kunio

AU - Walker, Ryan

AU - Wang, Wei Li

PY - 2013/6/1

Y1 - 2013/6/1

N2 - The Sea-level Response to Ice Sheet Evolution (SeaRISE) effort explores the sensitivity of the current generation of ice sheet models to external forcing to gain insight into the potential future contribution to sea level from the Greenland and Antarctic ice sheets. All participating models simulated the ice sheet response to three types of external forcings: a change in oceanic condition, a warmer atmospheric environment, and enhanced basal lubrication. Here an analysis of the spatial response of the Greenland ice sheet is presented, and the impact of model physics and spin-up on the projections is explored. Although the modeled responses are not always homogeneous, consistent spatial trends emerge from the ensemble analysis, indicating distinct vulnerabilities of the Greenland ice sheet. There are clear response patterns associated with each forcing, and a similar mass loss at the full ice sheet scale will result in different mass losses at the regional scale, as well as distinct thickness changes over the ice sheet. All forcings lead to an increased mass loss for the coming centuries, with increased basal lubrication and warmer ocean conditions affecting mainly outlet glaciers, while the impacts of atmospheric forcings affect the whole ice sheet. Key Points Sensitivity study of Greenland to atmospheric, oceanic and subglacial forcings Each forcing result in a different regional thickness response All forcings lead to an increased mass loss for the coming centuries

AB - The Sea-level Response to Ice Sheet Evolution (SeaRISE) effort explores the sensitivity of the current generation of ice sheet models to external forcing to gain insight into the potential future contribution to sea level from the Greenland and Antarctic ice sheets. All participating models simulated the ice sheet response to three types of external forcings: a change in oceanic condition, a warmer atmospheric environment, and enhanced basal lubrication. Here an analysis of the spatial response of the Greenland ice sheet is presented, and the impact of model physics and spin-up on the projections is explored. Although the modeled responses are not always homogeneous, consistent spatial trends emerge from the ensemble analysis, indicating distinct vulnerabilities of the Greenland ice sheet. There are clear response patterns associated with each forcing, and a similar mass loss at the full ice sheet scale will result in different mass losses at the regional scale, as well as distinct thickness changes over the ice sheet. All forcings lead to an increased mass loss for the coming centuries, with increased basal lubrication and warmer ocean conditions affecting mainly outlet glaciers, while the impacts of atmospheric forcings affect the whole ice sheet. Key Points Sensitivity study of Greenland to atmospheric, oceanic and subglacial forcings Each forcing result in a different regional thickness response All forcings lead to an increased mass loss for the coming centuries

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DO - 10.1002/jgrf.20076

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JO - Journal of Geophysical Research: Earth Surface

JF - Journal of Geophysical Research: Earth Surface

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ER -

Insights into spatial sensitivities of ice mass response to environmental change from the SeaRISE ice sheet modeling project II: Greenland

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