Posts Tagged «2021»

Belter, J., Krumpen, T., von Albedyll, L., Alekseeva, T., Frolov, S., Hendricks, S., Herber, A., Polyakov, I., Raphael, I., Ricker, R., Serovetnikov, S., Webster, M., & C. Haas (2021), Interannual variability in Transpolar Drift summer sea ice thickness and potential impact of Atlantification, The Cryosphere. doi:10.5194/tc-15-2575-2021.

Chiodi, A. M., C. Zhang, E. D. Cokelet, Q. Yang, C. W. Mordy, C. Gentemann, J. Cross, N. Lawrence-Slavas, C. Meinig, M. Steele, D. E. Harrison, P. Stabeno, H. Tabisola, D. Zhang, E. Burger, and K. O’Brien, Exploring the Alaskan Arctic Seasonal Ice Zone with Saildrones, Frontiers in Marine Science, doi:10.3389/fmars.2021.640697, 2021.

Holland, M.M., Clemens-Sewall, D., Landrum, D., Light, B., Perovich, D., Polashenski, C., Smith, M., & M. Webster (2021), The influence of snow on sea ice as assessed from simulations of CESM2, The Cryosphere, doi:10.5194/tc-2021-174.

Holland, M.M., Clemens-Sewall, D., Landrum, D., Light, B., Perovich, D., Polashenski, C., Smith, M., & M. Webster (2021), The influence of snow on sea ice as assessed from simulations of CESM2, The Cryosphere, doi:10.5194/tc-2021-174.

Jensen, L. T., N. T. Lanning, C. M. Marsay, C. S. Buck, A. M. Aguilar‐Islas, R. Rember, W. M. Landing, R. M. Sherrell, and J. N. Fitzsimmons (2021), Biogeochemical cycling of colloidal trace metals in the Arctic cryosphere, Journal of Geophysical Research: Oceans, 126(8), e2021JC017394. https://doi.org/10.1029/2021JC017394. 

Mudge, M.C., Nunn, B.L., Firth, E., Ewert, M., Hales, K., Fondrie, W.E., Noble, W.S., Toner, J., Light, B., and Junge, K.A. (2021), Subzero, saline incubations of Colwellia psychrerythraea reveal strategies and biomarkers for sustained life in extreme icy environments. Environ Microbiol, 23: 3840-3866, doi:10.1111/1462-2920.15485.

Mudge, M.C., Nunn, B.L., Firth, E., Ewert, M., Hales, K., Fondrie, W.E., Noble, W.S., Toner, J., Light, B., and Junge, K.A. (2021), Subzero, saline incubations of Colwellia psychrerythraea reveal strategies and biomarkers for sustained life in extreme icy environments. Environ Microbiol, 23: 3840-3866, doi:10.1111/1462-2920.15485.

Pacini, A., Pickart, R.S., Le Bras, I.A., Straneo, F., Holliday, N.P., and Spall, M.A., 2021. Cyclonic eddies in the West Greenland Boundary Current System. Journal of Physical Oceanography, 51, 2087-2102. https://doi.org/10.1175/JPO-D-20-0255.1 [doi.org]

Perovich, D., Smith, M., Light B., & M. Webster (2021), Meltwater sources and sinks for multiyear Arctic sea ice in summer, The Cryosphere. doi:10.5194/tc-2021-114.

Perovich, D., Smith, M., Light B., & M. Webster (2021), Meltwater sources and sinks for multiyear Arctic sea ice in summer, The Cryosphere. doi:10.5194/tc-2021-114.

Regehr, E. V., M. C. R., Andrew Von Duyke, Ryan R Wilson, Lori Polasek, Karyn D Rode, Nathan J Hostetter, Sarah JConverse. 2021. Demographic risk assessment for a harvested species threatened by climate change: polar bears in theChukchi Sea. Ecological Applications 0000:0000.

Regehr, E. V., M. Dyck, S. Iverson, D. S. Lee, N. J. Lunn, J. M. Northrup, M.‐C. Richer, G. Szor, and M. C. Runge. 2021.Incorporating climate change in a harvest risk assessment for polar bears Ursus maritimus in Southern Hudson Bay.Biological Conservation https://doi.org/10.1016/j.biocon.2021.109128.

Rode, K. D., E. V. Regehr, J. F. Bromaghin, R. R. Wilson, M. S. Martin, J. A. Crawford, and L. T. Quakenbush. Seal bodycondition and atmospheric circulation patterns influence polar bear body condition, recruitment, and feeding ecology inthe Chukchi Sea. Global Change Biology:18. https://doi.org/10.1111/gcb.15572

Schweiger, A., M. Steele, J. Zhang, G.W.K. Moore, and K. Laidre, Accelerated sea ice loss in the Wandel Sea points to a change in the Arctic’s Last Ice Area, Nature Commun. Earth Environ., 2, 122, doi:10.1038/s43247-021-00197-5, 2021.

Schweiger, A., M. Steele, J. Zhang, G.W.K. Moore, and K. Laidre, Accelerated sea ice loss in the Wandel Sea points to a change in the Arctic’s Last Ice Area, Nature Commun. Earth Environ., 2, 122, doi:10.1038/s43247-021-00197-5, 2021.

Schweiger, A., M. Steele, J. Zhang, G.W.K. Moore, and K. Laidre, Accelerated sea ice loss in the Wandel Sea points to a change in the Arctic’s Last Ice Area, Nature Commun. Earth Environ., 2, 122, doi:10.1038/s43247-021-00197-5, 2021.

Schweiger, A., M. Steele, J. Zhang, G.W.K. Moore, and K. Laidre, Accelerated sea ice loss in the Wandel Sea points to a change in the Arctic’s Last Ice Area, Nature Commun. Earth Environ., 2, 122, doi:10.1038/s43247-021-00197-5, 2021.

Steele, M., H. Eicken, U. Bhatt, P. Bieniek, E. Blanchard-Wrigglesworth, H. Wiggins, B. Turner-Bogren, L. Hamilton, J. Little, F. Massonnet, W.N. Meier, J. Overland, M. Serreze, J. Stroeve, J. Walsh, and M. Wang, Moving sea ice prediction forward via community intercomparison, Bull. Amer. Meteorol. Soc., 102, E2226–E2228, doi:10.1175/BAMS-D-21-0159.1, 2021.

Tang, W., S. H. Yueh, A. G. Fore, A. Hayashi, and M. Steele, An Empirical Algorithm for Mitigating the Sea Ice Effect in SMAP Radiometer for Sea Surface Salinity Retrieval in the Arctic Seas, IEEE J. of Selected Topics in Appl. Earth Obs. Remote Sens., 14, 11986-11997, doi:10.1109/JSTARS.2021.3127470, 2021.

Vazquez-Cuervo, J., C. Gentemann, W. Tang, D. Carroll, H. Zhang, D. Menemenlis, J. Gomez-Valdes, M. Bouali, and M. Steele, Using Saildrones to Validate Arctic Sea-Surface Salinity from the SMAP Satellite and from Ocean Models. Remote Sens., 13(5), 831, doi:10.3390/rs13050831, 2021.

Webster, M., DuVivier, A.K., Holland, M.M. & D.A. Bailey (2021), Snow on Arctic sea ice in a warming climate as simulated in CESM, J. Geophys. Res. Oceans. 125, doi:10.1029/2020JC016308.

Zhang, J., W. Weijer, M. Steele, W. Cheng, T. Verma, & M. Veneziani, Labrador Sea freshening linked to Beaufort Gyre freshwater release., Nat. Commun., 12, 1229, doi:10.1038/s41467-021-21470-3, 2021.

Zhang, J., W. Weijer, M. Steele, W. Cheng, T. Verma, & M. Veneziani, Labrador Sea freshening linked to Beaufort Gyre freshwater release., Nat. Commun., 12, 1229, doi:10.1038/s41467-021-21470-3, 2021.

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