Michael Goss
Stanford University
9 Papers
59 Citations
Michael Goss is an academic researcher from Stanford University. The author has contributed to research in topics: Extratropical cyclone & Madden–Julian oscillation. The author has an hindex of 6, co-authored 9 publications. Previous affiliations of Michael Goss include Pennsylvania State University.
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Papers
Climate change is increasing the likelihood of extreme autumn wildfire conditions across California
Michael Goss,Daniel L. Swain,Daniel L. Swain,Daniel L. Swain,John T. Abatzoglou,John T. Abatzoglou,Ali Sarhadi,Crystal A. Kolden,Crystal A. Kolden,A. Park Williams,Noah S. Diffenbaugh +10 more
TL;DR: In this article, the authors quantify observed changes in the occurrence and magnitude of meteorological factors that enable extreme autumn wildfires in California, and use climate model simulations to ascertain whether these changes are attributable to human-caused climate change.
Stationary Wave Interference and Its Relation to Tropical Convection and Arctic Warming
TL;DR: In this paper, the interference between transient eddies and climatological stationary eddies in the Northern Hemisphere is investigated and the amplitude and sign of the interference is represented by the stationary wave index (SWI), which is calculated by projecting the daily 300-hPa stream function anomaly field onto the 300hPa climate stationary wave.
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The Role of Horizontal Temperature Advection in Arctic Amplification
Joseph P. Clark,Vivek Shenoy,Vivek Shenoy,Steven B. Feldstein,Sukyoung Lee,Michael Goss,Michael Goss +6 more
TL;DR: In this paper, the authors examined the wintertime (December-February) 1990-2016 Arctic surface air temperature (SAT) trend using self-organizing maps (SOMs).
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The Impact of the Initial Flow on the Extratropical Response to Madden–Julian Oscillation Convective Heating
Michael Goss,Steven B. Feldstein +1 more
TL;DR: In this article, a simple dynamical model is run with an ensemble of 100 randomly selected initial conditions from ERA-Interim data, with no heating, Madden-Julian oscillation phase-1-like heating, and MJO phase-5like heating.
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Why Do Similar Patterns of Tropical Convection Yield Extratropical Circulation Anomalies of Opposite Sign
Michael Goss,Steven B. Feldstein +1 more
TL;DR: In this article, the dynamical core of a climate model is used, with boreal winter climatology as the initial flow, to investigate which convective anomalies may be responsible for the different extratropical responses.
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