Henderson, G. R., B. S. Barrett, L. J. Wachowics,\u00a0K. S. Mattingly<\/strong>, J. R. Preece, and T. L. Mote, 2021: Local and remote atmospheric circulation drivers of Arctic change: A review.\u00a0Frontiers in Earth Science<\/em>,\u00a09, 549, doi:10.3389\/feart.2021.709896. [Link<\/a><\/strong>]<\/p>\n Mateling, M.,\u00a0C. Pettersen,\u00a0K. S. Mattingly<\/strong>, S. A. Henderson, and T. L’Ecuyer, 2021: The influence of atmospheric rivers on cold-season precipitation in the Upper Great Lakes region.\u00a0Journal of Geophysical Research: Atmospheres<\/em>, 126(13), e2021JD034754, doi:10.1029\/2021JD034754. [Link<\/a><\/strong>]<\/p>\n Francis, D., K. S. Mattingly<\/strong>, S. Lhermitte, M. Temimi, and P. Heil, 2021: Atmospheric extremes caused high oceanward sea-surface slope triggering the biggest calving event in more than 50 years at the Amery Ice shelf. The Cryosphere<\/em>, 15(5), 2147\u20132165, doi:10.5194\/tc-15-2147-2021. [Link<\/a><\/strong>]<\/p>\n Akers, P. D., B. G. Kopec, K. S. Mattingly<\/strong>, E. S. Klein, D. Causey, and J. M. Welker, 2020: Baffin Bay sea ice extent and synoptic moisture transport drive water vapor isotope (\u03b418O, \u03b4D, d-excess) variability in coastal northwest Greenland. Atmospheric Chemistry and Physics<\/em>, 20(22), 13,929\u201313,955, doi:10.5194\/acp-20-13929-2020. [Link<\/a><\/strong>]<\/p>\n Francis, D., K. S. Mattingly<\/strong>, M. Temimi, R. Masson, and P. Heil, 2020: On the crucial role of atmospheric rivers in the two major Weddell Polynya events in 1973 and 2017 in Antarctica. Science Advances<\/em>, 6(46), eabc2695, doi:10.1126\/sciadv.abc2695. [Link<\/a><\/strong>]<\/p>\n Mattingly, K. S.<\/strong>, T. L. Mote, X. Fettweis, D. van As, K. Van Tricht, S. Lhermitte, C. Pettersen, and R. S. Fausto, 2020: Strong summer atmospheric rivers trigger Greenland Ice Sheet melt through spatially varying surface energy balance and cloud regimes. Journal of Climate<\/em>, 33(16), 6,809\u20136,832, doi:10.1175\/JCLI-D-19-0835.1. [Link<\/a><\/strong>]<\/p>\n Moraes, F. D. S., F. E. Aquino, T. L. Mote, J. D. Durkee, and K. S. Mattingly<\/strong>, 2020: Atmospheric characteristics favorable to the development of Mesoscale Convective Complexes in southern Brazil. Climate Research<\/em>, 80(1), 43\u201358, doi:10.3354\/cr01595. [Link<\/a><\/strong>]<\/p>\n Ballinger, T. J., T. L. Mote, K. S. Mattingly<\/strong>, A. C. Bliss, E. Hanna, D. van As, M. Prieto, S. Gharechahi, X. Fettweis, B. Noel, P. C. J. P. Smeets, C. H. Reijmer, M. H. Ribergaard, and J. Cappelen, 2019: Greenland Ice Sheet late-season melt: Investigating multi-scale drivers of K-transect events. The Cryosphere<\/em>, 13(8), 2,241\u20132,257, doi:10.5194\/tc-13-2241-2019. [Link<\/a><\/strong>]<\/p>\n Mattingly, K. S.<\/strong>, T. L. Mote, and X. Fettweis, 2018: Atmospheric river impacts on Greenland Ice Sheet surface mass balance. Journal of Geophysical Research: Atmospheres<\/em>, 123(16), 8,538\u20138,560, doi:10.1029\/2018JD028714. [Link<\/a><\/strong>]<\/p>\n Oliver, H., H. Luo, R. M. Castelao, G. L. van Dijken, K. S. Mattingly<\/strong>, J. J. Rosen, T. L. Mote, K. R. Arrigo, A. K. Rennermalm, M. Tedesco, and P. L. Yager, 2018: Exploring the potential impact of Greenland meltwater on stratification, photosynthetically active radiation, and primary production in the Labrador Sea. Journal of Geophysical Research: Oceans<\/em>, 123(4), 2,570\u20132,591, doi:10.1002\/2018JC013802. [Link<\/a><\/strong>]<\/p>\n Mattingly, K. S.<\/strong>, L. Seymour, and P. W. Miller, 2017: Estimates of extreme precipitation frequency in urban areas derived from spatially dense rain gauge observations: A case study of two urban areas in the Colorado Front Range region. Annals of the American Association of Geographers<\/em>, 107(6), 1,499\u20131,518, doi:10.1080\/24694452.2017.1309961. [Link<\/a><\/strong>]<\/p>\n Mattingly, K. S.<\/strong> and T. L. Mote, 2017: Variability in warm-season atmospheric circulation and precipitation patterns over subtropical South America: relationships between the South Atlantic Convergence Zone and large-scale organized convection over the La Plata basin. Climate Dynamics<\/em>, 48(1), 241\u2013263, doi:10.1007\/s00382-016-3072-0. [Link<\/a><\/strong>]<\/p>\n Mattingly, K. S.<\/strong>, C. A. Ramseyer, J. J. Rosen, T. L. Mote, and R. Muthyala, 2016: Increasing water vapor transport to the Greenland Ice Sheet revealed using self-organizing maps. Geophysical Research Letters<\/em>, 43(17), 9,250\u20139,258, doi:10.1002\/2016GL070424. [Link<\/a><\/strong>]<\/p>\n Mattingly, K. S.<\/strong>, B. D. Johnson, and A. Fischer, 2015: Characterization of atmospheric Saharan dust plumes using remote hyperspectral imagery for public health. Papers in Applied Geography<\/em>, 1(3), 286\u2013293, doi:10.1080\/23754931.2015.1014705. [Link<\/strong><\/a>]<\/p>\n Mattingly, K. S.<\/strong>, J. T. McLeod, J. A. Knox, J. M. Shepherd, and T. L. Mote, 2015: A climatological assessment of Greenland blocking conditions associated with the track of Hurricane Sandy and historical North Atlantic hurricanes. International Journal of Climatology<\/em>, 35(5), 746\u2013760, doi:10.1002\/joc.4018. [Link<\/a><\/strong>]<\/p>\n","protected":false},"excerpt":{"rendered":"2020<\/h4>\n
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