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Nicholas Siler
Researcher at Oregon State University
Publications - 25
Citations - 786
Nicholas Siler is an academic researcher from Oregon State University. The author has contributed to research in topics: Precipitation & Climate change. The author has an hindex of 13, co-authored 22 publications receiving 462 citations. Previous affiliations of Nicholas Siler include Scripps Institution of Oceanography & University of Washington.
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Journal ArticleDOI
Responses and impacts of atmospheric rivers to climate change
Ashley E. Payne,Marie-Estelle Demory,L. Ruby Leung,Alexandre M. Ramos,Christine A. Shields,Jonathan J. Rutz,Nicholas Siler,Gabriele Villarini,Alex Hall,F. Martin Ralph +9 more
TL;DR: In this paper, the authors use a theoretical framework to synthesize understanding of the dynamic and thermodynamic responses of ARs to anthropogenic warming and connect them to observed and projected changes and impacts revealed by observations and complex models.
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Simulating Miocene warmth: insights from an opportunistic Multi-Model ensemble (MioMIP1)
Natalie J. Burls,Catherine Bradshaw,Catherine Bradshaw,A. M. de Boer,Nicholas Herold,Matthew Huber,Matthew J. Pound,Yannick Donnadieu,Alexander Farnsworth,A. Frigola,Edward Gasson,A. S. von der Heydt,David K. Hutchinson,Gregor Knorr,Kira T Lawrence,Caroline H Lear,Xiangyu Li,Gerrit Lohmann,Daniel J. Lunt,Alice Marzocchi,Matthias Prange,C. A. Riihimaki,Anta-Clarisse Sarr,Nicholas Siler,Zhongshi Zhang,Zhongshi Zhang +25 more
TL;DR: In this article, the authors synthesize several Miocene climate modeling efforts together with available terrestrial and ocean surface temperature reconstructions and evaluate the range of model-data agreement, highlight robust mechanisms operating across Miocene modeling efforts and highlight regions where differences across experiments result in a large spread in warming responses.
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How will orographic precipitation respond to surface warming? An idealized thermodynamic perspective
Nicholas Siler,Gerard H. Roe +1 more
TL;DR: In this paper, a simple numerical model was used to evaluate the response of orographic precipitation to surface warming under idealized conditions representative of the strongest Orographic storms, finding an upward shift in the pattern of condensation with warming, caused by larger fractional changes in condensation at low temperature and amplified warming aloft.
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Global mean surface temperature and climate sensitivity of the early Eocene Climatic Optimum (EECO), Paleocene–Eocene Thermal Maximum (PETM), and latest Paleocene
Gordon N. Inglis,Gordon N. Inglis,Fran Bragg,Natalie J. Burls,Margot J. Cramwinckel,Margot J. Cramwinckel,David Evans,Gavin L. Foster,Matthew Huber,Daniel J. Lunt,Nicholas Siler,Sebastian Steinig,Jessica E. Tierney,Richard D. Wilkinson,Richard D. Wilkinson,Eleni Anagnostou,Agatha M. de Boer,Tom Dunkley Jones,Kirsty M. Edgar,Christopher J. Hollis,David K. Hutchinson,Richard D. Pancost +21 more
TL;DR: In this article, the authors employ a multi-method experimental framework to calculate GMST during the three DeepMIP target intervals: (1) the latest Paleocene (∼57 to 48 million years ago), (2) the Paleocene-Eocene Thermal Maximum (PETM; 56 Ma), and (3) the early Eocene Climatic Optimum (EECO; 53.3 to 49.1
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Meridional Atmospheric Heat Transport Constrained by Energetics and Mediated by Large-Scale Diffusion
TL;DR: In this article, the authors investigated the effect of atmospheric heat transport on the poleward flux of moist static energy (MSE) by using three broad perspectives: a dynamic perspective, linking AHT to MSE, and a static perspective.