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Intense atmospheric rivers can weaken ice shelf stability at the Antarctic Peninsula. <i>Commun. Earth Environ. 3</i>: 90. <a href=\"https://dx.doi.org/10.1038/s43247-022-00422-9\" target=\"_blank\">https://dx.doi.org/10.1038/s43247-022-00422-9</a>","AutID":378213,"MonDate":null,"AnaDate":2022,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":353647,"RR":"<b>Wille, J.D.; Favier, V.; Gorodetskaya, I.V.; Agosta, C.; Kittel, C.; Beeman, J.C.; Jourdain, N.C.; Lenaerts, J.T.M.; Codron, F.</b> (2021). Antarctic atmospheric river climatology and precipitation impacts. <i>JGR: Atmospheres 126(8)</i>: e2020JD033788. <a href=\"https://dx.doi.org/10.1029/2020JD033788\" target=\"_blank\">https://dx.doi.org/10.1029/2020JD033788</a>","AutID":378213,"MonDate":null,"AnaDate":2021,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":337627,"RR":"<b>Bromwich, D.H.; Werner, K.; Casati, B.; Powers, J.G.; Gorodetskaya, I.V.; Massonnet, F.; Vitale, V.; Heinrich, V.J.; Liggett, D.; Arndt, S.; Barja, B.; Bazile, E.; Carpentier, S.; Carrasco, J.F.; Choi, T.; Choi, Y.; Colwell, S.R.; Cordero, R.R.; Gervasi, M.; Haiden, T.; Hirasawa, N.; Inoue, J.; Jung, T.; Kalesse, H.; Kim, S.-J.; Lazzara, M.A.; Manning, K.W.; Norris, K.; Park, S.-J.; Reid, P.; Rigor, I.; Rowe, P.M.; Schmithusen, H.; Seifert, P.; Sun, Q.; Uttal, T.; Zannoni, M.; Zou, X.</b> (2020). The Year of Polar Prediction in the Southern Hemisphere (YOPP-SH). <i>Bull. Am. Meteorol. Soc. 101(10)</i>: E1653-E1676. <a href=\"https://hdl.handle.net/10.1175/BAMS-D-19-0255.1\" target=\"_blank\">https://hdl.handle.net/10.1175/BAMS-D-19-0255.1</a>","AutID":378213,"MonDate":null,"AnaDate":2020,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":338102,"RR":"<b>Durán-Alarcón, C.; Boudevillain, B.; Genthon, C.; Grazioli, J.; Souverijns, N.; van Lipzig, N.P.M.; Gorodetskaya, I.V.; Berne, A.</b> (2019). The vertical structure of precipitation at two stations in East Antarctica derived from micro rain radars. <i>Cryosphere 13(1)</i>: 247-264. <a href=\"https://hdl.handle.net/10.5194/tc-13-247-2019\" target=\"_blank\">https://hdl.handle.net/10.5194/tc-13-247-2019</a>","AutID":378213,"MonDate":null,"AnaDate":2019,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":311431,"RR":"<b>Herenz, P.; Wex, H.; Mangold, A.; Laffineur, Q.; Gorodetskaya, I.V.; Fleming, Z.L.; Panagi, M.; Stratmann, F.</b> (2019). CCN measurements at the Princess Elisabeth Antarctica research station during three austral summers. <i>Atmos. Chem. Phys. 19(1)</i>: 275-294. <a href=\"https://dx.doi.org/10.5194/acp-19-275-2019\" target=\"_blank\">https://dx.doi.org/10.5194/acp-19-275-2019</a>","AutID":378213,"MonDate":null,"AnaDate":2019,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":338095,"RR":"<b>Souverijns, N.; Gossart, A.; Demuzere, M.; Lenaerts, J.T.M.; Medley, B.; Gorodetskaya, I.V.; Vanden Broucke, S.; van Lipzig, N.P.M.</b> (2019). A new regional climate model for POLAR-CORDEX: evaluation of a 30-year hindcast with COSMO-CLM<sup>2</sup> over Antarctica. <i>JGR: Atmospheres 124(3)</i>: 1405-1427. <a href=\"https://hdl.handle.net/10.1029/2018JD028862\" target=\"_blank\">https://hdl.handle.net/10.1029/2018JD028862</a>","AutID":455193,"MonDate":null,"AnaDate":2019,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":318161,"RR":"<b>Wille, J.D.; Favier, V.; Dufour, A.; Gorodetskaya, I.V.; Turner, J.; Agosta, C.; Codron, F.</b> (2019). West Antarctic surface melt triggered by atmospheric rivers. <i>Nature Geoscience 12(11)</i>: 911-916. <a href=\"https://dx.doi.org/10.1038/s41561-019-0460-1\" target=\"_blank\">https://dx.doi.org/10.1038/s41561-019-0460-1</a>","AutID":378214,"MonDate":null,"AnaDate":2019,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":338148,"RR":"<b>Souverijns, N.; Gossart, A.; Gorodetskaya, I.V.; Lhermitte, S.; Mangold, A.; Laffineur, Q.; Delcloo, A.; van Lipzig, N.P.M.</b> (2018). How does the ice sheet surface mass balance relate to snowfall? Insights from a ground-based precipitation radar in East Antarctica. <i>Cryosphere 12(6)</i>: 1987-2003. <a href=\"https://hdl.handle.net/10.5194/tc-12-1987-2018\" target=\"_blank\">https://hdl.handle.net/10.5194/tc-12-1987-2018</a>","AutID":378213,"MonDate":null,"AnaDate":2018,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":252593,"RR":"<b>Van Tricht, K.; Lhermitte, S.; Lenaerts, J.T.M.; Gorodetskaya, I.V.; L’Ecuyer, T.S.; Noël, B.; van den Broeke, M.R.; Turner, D.D.; van Lipzig, N.P.M.</b> (2016). Clouds enhance Greenland ice sheet meltwater runoff. <i>Nature Comm. 7(10266)</i>: 1-9. <a href=\"https://dx.doi.org/10.1038/ncomms10266\" target=\"_blank\">https://dx.doi.org/10.1038/ncomms10266</a>","AutID":206426,"MonDate":null,"AnaDate":2016,"PeerRev":1,"outputType":"1_A1","OpenAcc":1}]},"urls":[{"URL":"https://orcid.org/0000-0002-2294-7823","externalID":"0000-0002-2294-7823","URLTypeCode":"ORCID","URLType":"ORCID"}],"spcols":null,"thesterms":null,"taxterms":null,"pub":1,"newses":{"SesID":79420,"LoginName":"VLIZ2000\\zohrab","LoginID":435,"DD":"2016-02-08"},"updses":{"SesID":111148,"LoginName":"VLIZ2000\\zohrab","LoginID":435,"DD":"2023-05-10"},"urlmaps":[],"resmessage":"no id specified","complete":1}