Monitoring and understanding trends in extreme storms: State of knowledge

Kenneth E. Kunkel; Thomas R. Karl; Harold Brooks; James Kossin; Jay H. Lawrimore; Derek Arndt; Lance Bosart; David Changnon; Susan L. Cutter; Nolan Doesken; Kerry Emanuel; Pavel Ya Groisman; Richard W. Katz; Thomas Knutson; James O'brien; Christopher J. Paciorek; Thomas C. Peterson; Kelly Redmond; David Robinson; Jeff Trapp; Russell Vose; Scott Weaver; Michael Wehner; Klaus Wolter; Donald Wuebbles

doi:10.1175/BAMS-D-11-00262.1

Monitoring and understanding trends in extreme storms: State of knowledge

Kenneth E. Kunkel
, Thomas R. Karl
, Harold Brooks
, James Kossin
, Jay H. Lawrimore
, Derek Arndt
, Lance Bosart
, David Changnon
, Susan L. Cutter
, Nolan Doesken
, Kerry Emanuel
, Pavel Ya Groisman
, Richard W. Katz
, Thomas Knutson
, James O'brien
, Christopher J. Paciorek
, Thomas C. Peterson
, Kelly Redmond
, David Robinson
, Jeff Trapp

Russell Vose, Scott Weaver, Michael Wehner, Klaus Wolter, Donald Wuebbles

University at Albany Research Foundation

University at Albany

North Carolina State University
Noaa/National Climatic Data Center
National Oceanic and Atmospheric Administration
Northern Illinois University
University of South Carolina
Colorado State University
Massachusetts Institute of Technology
National Center for Atmospheric Research
Florida State University
University of California at Berkeley
Desert Research Institute
Rutgers - The State University of New Jersey, New Brunswick
Purdue University
Lawrence Berkeley National Laboratory
University of Colorado Boulder
University of Illinois at Urbana-Champaign

Research output: Contribution to journal › Article › peer-review

483 Scopus citations

Abstract

Review of the climate science for severe convective storms, extreme precipitation, hurricanes and typhoons, and severe snowstorms and ice storms in the US shows that the ability to detect and attribute trends varies, depending on the phenomenon. A specific subset of extreme weather and climate types affecting the country is discussed to examine these extreme weather conditions. The categories of storms described were selected as they caused property damage and loss of life. The identification of an extreme occurrence was based on meteorological properties in place of the destructiveness. The primary purpose was to examine the scientific evidence for the prevailing capability to detect trends and understand their causes for certain weather types, including severe convective storms and hurricanes and typhoons.

Original language	English
Pages (from-to)	499-514
Number of pages	16
Journal	Bulletin of the American Meteorological Society
Volume	94
Issue number	4
DOIs	https://doi.org/10.1175/BAMS-D-11-00262.1
State	Published - Apr 2013

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10.1175/BAMS-D-11-00262.1

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Kunkel, K. E., Karl, T. R., Brooks, H., Kossin, J., Lawrimore, J. H., Arndt, D., Bosart, L., Changnon, D., Cutter, S. L., Doesken, N., Emanuel, K., Groisman, P. Y., Katz, R. W., Knutson, T., O'brien, J., Paciorek, C. J., Peterson, T. C., Redmond, K., Robinson, D., ... Wuebbles, D. (2013). Monitoring and understanding trends in extreme storms: State of knowledge. Bulletin of the American Meteorological Society, 94(4), 499-514. https://doi.org/10.1175/BAMS-D-11-00262.1

@article{4a9f82f61ac64a32a6aeed0984d0e31a,

title = "Monitoring and understanding trends in extreme storms: State of knowledge",

abstract = "Review of the climate science for severe convective storms, extreme precipitation, hurricanes and typhoons, and severe snowstorms and ice storms in the US shows that the ability to detect and attribute trends varies, depending on the phenomenon. A specific subset of extreme weather and climate types affecting the country is discussed to examine these extreme weather conditions. The categories of storms described were selected as they caused property damage and loss of life. The identification of an extreme occurrence was based on meteorological properties in place of the destructiveness. The primary purpose was to examine the scientific evidence for the prevailing capability to detect trends and understand their causes for certain weather types, including severe convective storms and hurricanes and typhoons.",

author = "Kunkel, \{Kenneth E.\} and Karl, \{Thomas R.\} and Harold Brooks and James Kossin and Lawrimore, \{Jay H.\} and Derek Arndt and Lance Bosart and David Changnon and Cutter, \{Susan L.\} and Nolan Doesken and Kerry Emanuel and Groisman, \{Pavel Ya\} and Katz, \{Richard W.\} and Thomas Knutson and James O'brien and Paciorek, \{Christopher J.\} and Peterson, \{Thomas C.\} and Kelly Redmond and David Robinson and Jeff Trapp and Russell Vose and Scott Weaver and Michael Wehner and Klaus Wolter and Donald Wuebbles",

year = "2013",

month = apr,

doi = "10.1175/BAMS-D-11-00262.1",

language = "English",

volume = "94",

pages = "499--514",

journal = "Bulletin of the American Meteorological Society",

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Kunkel, KE, Karl, TR, Brooks, H, Kossin, J, Lawrimore, JH, Arndt, D, Bosart, L, Changnon, D, Cutter, SL, Doesken, N, Emanuel, K, Groisman, PY, Katz, RW, Knutson, T, O'brien, J, Paciorek, CJ, Peterson, TC, Redmond, K, Robinson, D, Trapp, J, Vose, R, Weaver, S, Wehner, M, Wolter, K & Wuebbles, D 2013, 'Monitoring and understanding trends in extreme storms: State of knowledge', Bulletin of the American Meteorological Society, vol. 94, no. 4, pp. 499-514. https://doi.org/10.1175/BAMS-D-11-00262.1

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T1 - Monitoring and understanding trends in extreme storms

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AU - Kunkel, Kenneth E.

AU - Karl, Thomas R.

AU - Brooks, Harold

AU - Kossin, James

AU - Lawrimore, Jay H.

AU - Arndt, Derek

AU - Bosart, Lance

AU - Changnon, David

AU - Cutter, Susan L.

AU - Doesken, Nolan

AU - Emanuel, Kerry

AU - Groisman, Pavel Ya

AU - Katz, Richard W.

AU - Knutson, Thomas

AU - O'brien, James

AU - Paciorek, Christopher J.

AU - Peterson, Thomas C.

AU - Redmond, Kelly

AU - Robinson, David

AU - Trapp, Jeff

AU - Vose, Russell

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AU - Wehner, Michael

AU - Wolter, Klaus

AU - Wuebbles, Donald

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AB - Review of the climate science for severe convective storms, extreme precipitation, hurricanes and typhoons, and severe snowstorms and ice storms in the US shows that the ability to detect and attribute trends varies, depending on the phenomenon. A specific subset of extreme weather and climate types affecting the country is discussed to examine these extreme weather conditions. The categories of storms described were selected as they caused property damage and loss of life. The identification of an extreme occurrence was based on meteorological properties in place of the destructiveness. The primary purpose was to examine the scientific evidence for the prevailing capability to detect trends and understand their causes for certain weather types, including severe convective storms and hurricanes and typhoons.

UR - https://www.scopus.com/pages/publications/84876948034

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JO - Bulletin of the American Meteorological Society

JF - Bulletin of the American Meteorological Society

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Monitoring and understanding trends in extreme storms: State of knowledge

Abstract

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