TY - JOUR
T1 - The extratropical transition of tropical cyclones. Part I
T2 - Cyclone evolution and direct impacts
AU - Evans, Clark
AU - Wood, Kimberly M.
AU - Aberson, Sim D.
AU - Archambault, Heather M.
AU - Milrad, Shawn M.
AU - Bosart, Lance F.
AU - Corbosiero, Kristen L.
AU - Davis, Christopher A.
AU - Pinto, João R.Dias
AU - Doyle, James
AU - Fogarty, Chris
AU - Galarneau, Thomas J.
AU - Grams, Christian M.
AU - Griffin, Kyle S.
AU - Gyakum, John
AU - Hart, Robert E.
AU - Kitabatake, Naoko
AU - Lentink, Hilke S.
AU - Mctaggart-Cowan, Ron
AU - Perrie, William
AU - Quinting, Julian F.D.
AU - Reynolds, Carolyn A.
AU - Riemer, Michael
AU - Ritchie, Elizabeth A.
AU - Sun, Yujuan
AU - Zhang, Fuqing
N1 - Funding Information: We gratefully acknowledge Monthly Weather Review Chief Editor David Schultz for helpful feedback to the preparation process and a comprehensive review of an earlier draft of this review. Feedback from Julia Keller and five anonymous reviewers greatly improved the quality of this review. The authors gratefully acknowledge the support of the National Science Foundation via Grants AGS-1240502 and AGS-1355960 (Bosart); National Oceanic and Atmospheric Administration via Awards NA13NWS4680004 and NA16NWS468005 (Corbosiero) and through its sponsorship of the Hurricane Forecast Improvement Program (Zhang); the Swiss National Science Foundation under Grant PZ00P2_148177/1 (Grams); a Natural Sciences and Engineering Research Council of Canada Discovery Grant (Gyakum); the subproject ''Evolution and predictability of storm structure during extratropical transition of tropical cyclones'' of the Transregional Collaborative Research Center SFB/TRR 165 ''Waves to Weather'' program funded by the German Science Foundation (Riemer); and Ouranos (the regional climate consortium of Quebec), the Natural Sciences and Engineering Research Council of Canada, and the Canadian Foundation for Climate and Atmospheric Sciences (Milrad). The National Center for Atmospheric Research is sponsored by the National Science Foundation. The views in this manuscript are those of the authors alone and not of any funding agency or employer. Authors Evans and Wood served as leads for the review; authors Aberson, Archambault, and Milrad served as section leads; and remaining authors served as contributors to the review. Publisher Copyright: © 2017 American Meteorological Society.
PY - 2017/11/1
Y1 - 2017/11/1
N2 - Extratropical transition (ET) is the process by which a tropical cyclone, upon encountering a baroclinic environment and reduced sea surface temperature at higher latitudes, transforms into an extratropical cyclone. This process is influenced by, and influences, phenomena from the tropics to the midlatitudes and from themeso- to the planetary scales to extents that vary between individual events. Motivated in part by recent high-impact and/or extensively observed events such as NorthAtlanticHurricane Sandy in 2012 and western North Pacific Typhoon Sinlaku in 2008, this review details advances in understanding and predicting ET since the publication of an earlier review in 2003. Methods for diagnosing ETin reanalysis, observational, andmodel-forecast datasets are discussed.New climatologies for the eastern North Pacific and southwest Indian Oceans are presented alongside updates to western North Pacific and North Atlantic Ocean climatologies. Advances in understanding and, in some cases, modeling the direct impacts of ET-related wind, waves, and precipitation are noted. Improved understanding of structural evolution throughout the transformation stage of ET fostered in large part by novel aircraft observations collected in several recent ET events is highlighted. Predictive skill for operational and numerical model ET-related forecasts is discussed along with environmental factors influencing posttransition cyclone structure and evolution. Operational ET forecast and analysis practices and challenges are detailed. In particular, somechallenges of effective hazard communication for the evolving threats posed by a tropical cyclone during and after transition are introduced. This review concludes with recommendations for future work to further improve understanding, forecasts, and hazard communication.
AB - Extratropical transition (ET) is the process by which a tropical cyclone, upon encountering a baroclinic environment and reduced sea surface temperature at higher latitudes, transforms into an extratropical cyclone. This process is influenced by, and influences, phenomena from the tropics to the midlatitudes and from themeso- to the planetary scales to extents that vary between individual events. Motivated in part by recent high-impact and/or extensively observed events such as NorthAtlanticHurricane Sandy in 2012 and western North Pacific Typhoon Sinlaku in 2008, this review details advances in understanding and predicting ET since the publication of an earlier review in 2003. Methods for diagnosing ETin reanalysis, observational, andmodel-forecast datasets are discussed.New climatologies for the eastern North Pacific and southwest Indian Oceans are presented alongside updates to western North Pacific and North Atlantic Ocean climatologies. Advances in understanding and, in some cases, modeling the direct impacts of ET-related wind, waves, and precipitation are noted. Improved understanding of structural evolution throughout the transformation stage of ET fostered in large part by novel aircraft observations collected in several recent ET events is highlighted. Predictive skill for operational and numerical model ET-related forecasts is discussed along with environmental factors influencing posttransition cyclone structure and evolution. Operational ET forecast and analysis practices and challenges are detailed. In particular, somechallenges of effective hazard communication for the evolving threats posed by a tropical cyclone during and after transition are introduced. This review concludes with recommendations for future work to further improve understanding, forecasts, and hazard communication.
KW - Extratropical cyclones
KW - In situ atmospheric observations
KW - Numerical weather prediction/forecasting
KW - Tropical cyclones
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U2 - 10.1175/mwr-d-17-0027.1
DO - 10.1175/mwr-d-17-0027.1
M3 - Review article
SN - 0027-0644
VL - 145
SP - 4317
EP - 4344
JO - Monthly Weather Review
JF - Monthly Weather Review
IS - 11
ER -