Ice Sheet Model Intercomparison Project (ISMIP6) contribution to CMIP6
作者: Sophie M. J. Nowicki , Anthony Payne , Eric Larour , Helene Seroussi , Heiko Goelzer
关键词:
摘要: Abstract. Reducing the uncertainty in past, present, and future contribution of ice sheets to sea-level change requires a coordinated effort between climate glaciology communities. The Ice Sheet Model Intercomparison Project for CMIP6 (ISMIP6) is primary activity within Coupled – phase 6 (CMIP6) focusing on Greenland Antarctic sheets. In this paper, we describe framework ISMIP6 its relationship with other activities CMIP6. experimental design relies models includes, first time CMIP, coupled ice-sheet–climate as well standalone ice-sheet models. To facilitate analysis multi-model ensemble generate set standard inputs models, defines protocol all variables related will provide basis investigating feedbacks, impacts, changes associated dynamic quantifying ice-sheet-sourced global change.
ulb.ac.be
harvard.edu
core.ac.uk
geosci-model-dev.net
bristol.ac.uk参考文章(133)
Thomas L. Mote, Mark R. Anderson, Karl C. Kuivinen, Clinton M. Rowe, Passive microwave-derived spatial and temporal variations of summer melt on the Greenland ice sheet Annals of Glaciology. ,vol. 17, pp. 233- 238 ,(1993) , 10.1017/S0260305500012891
T. J. Bracegirdle, N. A. N. Bertler, A. M. Carleton, Q. Ding, C. J. Fogwill, J. C. Fyfe, H. H. Hellmer, A. Y. Karpechko, K. Kusahara, E. Larour, P. A. Mayewski, W. N. Meier, L. M. Polvani, J. L. Russell, S. L. Stevenson, J. Turner, J. M. van Wessem, W. J. van de Berg, I. Wainer, A Multidisciplinary Perspective on Climate Model Evaluation For Antarctica Bulletin of the American Meteorological Society. ,vol. 97, ,(2016) , 10.1175/BAMS-D-15-00108.1
A. Kitoh, P. Friedlingstein, S. C. B. Raper, J. M. Gregory, R. Knutti, J. M. Murphy, T. F. Stocker, A. J. Weaver, G.A. Meehl, Z. C. Zhao, W. D. Collins, A. Noda, I. G. Watterson, T. Gaye, Global climate projections Cambridge University Press. ,(2007)
Robert E. Kopp, Radley M. Horton, Christopher M. Little, Jerry X. Mitrovica, Michael Oppenheimer, D. J. Rasmussen, Benjamin H. Strauss, Claudia Tebaldi, Probabilistic 21st and 22nd Century Sea-Level Projections at a Global Network of Tide-Gauge Sites Earth’s Future. ,vol. 2, pp. 383- 406 ,(2014) , 10.1002/2014EF000239
M. Morlighem, E. Rignot, H. Seroussi, E. Larour, H. Ben Dhia, D. Aubry, A mass conservation approach for mapping glacier ice thickness Geophysical Research Letters. ,vol. 38, ,(2011) , 10.1029/2011GL048659
N. Reeh, Parameterization of melt rate and surface temperature on the Greenland ice sheet EPIC3Polarforschung, Bremerhaven, Alfred Wegener Institute for Polar and Marine Research & German Society of Polar Research, 59(3), pp. 113-128, ISSN: 0032-2490. ,(1989)
M. Morlighem, H. Ben Dhia, E. Rignot, E. Larour, H. Seroussi, West Antarctica, D. Aubry, Spatial patterns of basal drag inferred using control methods from a full-Stokes and simpler models for Pine Island Glacier, ,(2010)
H. Pitcher, J. Alcamo, H.-H. Rogner, A. Grübler, N. Nakicenovic, K. Riahi, Tae Yong Jung, Jørgen Villy Fenhann, W. Pepper, M. Schlesinger, S. Smith, T. Kram, T. Morita, L. Price, A. Sankovski, R. Swart, L. Michaelis, G. Davis, S. Mori, N. Victor, P. Shukla, Z. Dadi, A. Roehrl, S. Gaffin, E. L. La Rovere, B. de Vries, S. van Rooijen, K. Gregory, Special report on emissions scenarios : a special report of Working group III of the Intergovernmental Panel on Climate Change Cambridge University Press. ,(2000)
Robert J. Arthern, Richard C. A. Hindmarsh, C. Rosie Williams, Flow speed within the Antarctic ice sheet and its controls inferred from satellite observations Journal of Geophysical Research. ,vol. 120, pp. 1171- 1188 ,(2015) , 10.1002/2014JF003239
Ian Joughin, Benjamin E. Smith, David M. Holland, Sensitivity of 21st century sea level to ocean‐induced thinning of Pine Island Glacier, Antarctica Geophysical Research Letters. ,vol. 37, ,(2010) , 10.1029/2010GL044819