Fire and Rain: The Legacy of Hurricane Lane in Hawaiʻi

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Zeitschriftentitel:	Bulletin of the American Meteorological Society
Personen und Körperschaften:	Nugent, Alison D., Longman, Ryan J., Trauernicht, Clay, Lucas, Matthew P., Diaz, Henry F., Giambelluca, Thomas W.
In:	Bulletin of the American Meteorological Society, 101, 2020, 6, S. E954-E967
Format:	E-Article
Sprache:	Unbestimmt
veröffentlicht:	American Meteorological Society
Schlagwörter:	Atmospheric Science

author_facet	Nugent, Alison D. Longman, Ryan J. Trauernicht, Clay Lucas, Matthew P. Diaz, Henry F. Giambelluca, Thomas W. Nugent, Alison D. Longman, Ryan J. Trauernicht, Clay Lucas, Matthew P. Diaz, Henry F. Giambelluca, Thomas W.
author	Nugent, Alison D. Longman, Ryan J. Trauernicht, Clay Lucas, Matthew P. Diaz, Henry F. Giambelluca, Thomas W.
spellingShingle	Nugent, Alison D. Longman, Ryan J. Trauernicht, Clay Lucas, Matthew P. Diaz, Henry F. Giambelluca, Thomas W. Bulletin of the American Meteorological Society Fire and Rain: The Legacy of Hurricane Lane in Hawaiʻi Atmospheric Science
author_sort	nugent, alison d.
spelling	Nugent, Alison D. Longman, Ryan J. Trauernicht, Clay Lucas, Matthew P. Diaz, Henry F. Giambelluca, Thomas W. 0003-0007 1520-0477 American Meteorological Society Atmospheric Science http://dx.doi.org/10.1175/bams-d-19-0104.1 <jats:title>Abstract</jats:title><jats:p>Hurricane Lane (2018) was an impactful event for the Hawaiian Islands and provided a textbook example of the compounding hazards that can be produced from a single storm. Over a 4-day period, the island of Hawaiʻi received an island-wide average of 424 mm (17 in.) of rainfall, with a 4-day single-station maximum of 1,444 mm (57 in.), making Hurricane Lane the wettest tropical cyclone ever recorded in Hawaiʻi (based on all available quantitative records). Simultaneously, fires on the islands of nearby Maui and Oʻahu burned 1,043 ha (2,577 ac) and 162 ha (400 ac), respectively. Land-use characteristics and antecedent moisture conditions exacerbated fire hazard, and both fire and rain severity were influenced by the storm environment and local topographical features. Broadscale subsidence around the storm periphery and downslope winds resulted in dry and windy conditions conducive to fire, while in a different region of the same storm, preexisting convection, incredibly moist atmospheric conditions, and upslope flow brought intense, long-duration rainfall. The simultaneous occurrence of rain-driven flooding and landslides, high-intensity winds, and multiple fires complicated emergency response. The compounding nature of the hazards produced during the Hurricane Lane event highlights the need to improve anticipation of complex feedback mechanisms among climate- and weather-related phenomena.</jats:p> Fire and Rain: The Legacy of Hurricane Lane in Hawaiʻi Bulletin of the American Meteorological Society
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title	Fire and Rain: The Legacy of Hurricane Lane in Hawaiʻi
title_unstemmed	Fire and Rain: The Legacy of Hurricane Lane in Hawaiʻi
title_full	Fire and Rain: The Legacy of Hurricane Lane in Hawaiʻi
title_fullStr	Fire and Rain: The Legacy of Hurricane Lane in Hawaiʻi
title_full_unstemmed	Fire and Rain: The Legacy of Hurricane Lane in Hawaiʻi
title_short	Fire and Rain: The Legacy of Hurricane Lane in Hawaiʻi
title_sort	fire and rain: the legacy of hurricane lane in hawaiʻi
topic	Atmospheric Science
url	http://dx.doi.org/10.1175/bams-d-19-0104.1
publishDate	2020
physical	E954-E967
description	<jats:title>Abstract</jats:title><jats:p>Hurricane Lane (2018) was an impactful event for the Hawaiian Islands and provided a textbook example of the compounding hazards that can be produced from a single storm. Over a 4-day period, the island of Hawaiʻi received an island-wide average of 424 mm (17 in.) of rainfall, with a 4-day single-station maximum of 1,444 mm (57 in.), making Hurricane Lane the wettest tropical cyclone ever recorded in Hawaiʻi (based on all available quantitative records). Simultaneously, fires on the islands of nearby Maui and Oʻahu burned 1,043 ha (2,577 ac) and 162 ha (400 ac), respectively. Land-use characteristics and antecedent moisture conditions exacerbated fire hazard, and both fire and rain severity were influenced by the storm environment and local topographical features. Broadscale subsidence around the storm periphery and downslope winds resulted in dry and windy conditions conducive to fire, while in a different region of the same storm, preexisting convection, incredibly moist atmospheric conditions, and upslope flow brought intense, long-duration rainfall. The simultaneous occurrence of rain-driven flooding and landslides, high-intensity winds, and multiple fires complicated emergency response. The compounding nature of the hazards produced during the Hurricane Lane event highlights the need to improve anticipation of complex feedback mechanisms among climate- and weather-related phenomena.</jats:p>
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author	Nugent, Alison D., Longman, Ryan J., Trauernicht, Clay, Lucas, Matthew P., Diaz, Henry F., Giambelluca, Thomas W.
author_facet	Nugent, Alison D., Longman, Ryan J., Trauernicht, Clay, Lucas, Matthew P., Diaz, Henry F., Giambelluca, Thomas W., Nugent, Alison D., Longman, Ryan J., Trauernicht, Clay, Lucas, Matthew P., Diaz, Henry F., Giambelluca, Thomas W.
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description	<jats:title>Abstract</jats:title><jats:p>Hurricane Lane (2018) was an impactful event for the Hawaiian Islands and provided a textbook example of the compounding hazards that can be produced from a single storm. Over a 4-day period, the island of Hawaiʻi received an island-wide average of 424 mm (17 in.) of rainfall, with a 4-day single-station maximum of 1,444 mm (57 in.), making Hurricane Lane the wettest tropical cyclone ever recorded in Hawaiʻi (based on all available quantitative records). Simultaneously, fires on the islands of nearby Maui and Oʻahu burned 1,043 ha (2,577 ac) and 162 ha (400 ac), respectively. Land-use characteristics and antecedent moisture conditions exacerbated fire hazard, and both fire and rain severity were influenced by the storm environment and local topographical features. Broadscale subsidence around the storm periphery and downslope winds resulted in dry and windy conditions conducive to fire, while in a different region of the same storm, preexisting convection, incredibly moist atmospheric conditions, and upslope flow brought intense, long-duration rainfall. The simultaneous occurrence of rain-driven flooding and landslides, high-intensity winds, and multiple fires complicated emergency response. The compounding nature of the hazards produced during the Hurricane Lane event highlights the need to improve anticipation of complex feedback mechanisms among climate- and weather-related phenomena.</jats:p>
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spelling	Nugent, Alison D. Longman, Ryan J. Trauernicht, Clay Lucas, Matthew P. Diaz, Henry F. Giambelluca, Thomas W. 0003-0007 1520-0477 American Meteorological Society Atmospheric Science http://dx.doi.org/10.1175/bams-d-19-0104.1 <jats:title>Abstract</jats:title><jats:p>Hurricane Lane (2018) was an impactful event for the Hawaiian Islands and provided a textbook example of the compounding hazards that can be produced from a single storm. Over a 4-day period, the island of Hawaiʻi received an island-wide average of 424 mm (17 in.) of rainfall, with a 4-day single-station maximum of 1,444 mm (57 in.), making Hurricane Lane the wettest tropical cyclone ever recorded in Hawaiʻi (based on all available quantitative records). Simultaneously, fires on the islands of nearby Maui and Oʻahu burned 1,043 ha (2,577 ac) and 162 ha (400 ac), respectively. Land-use characteristics and antecedent moisture conditions exacerbated fire hazard, and both fire and rain severity were influenced by the storm environment and local topographical features. Broadscale subsidence around the storm periphery and downslope winds resulted in dry and windy conditions conducive to fire, while in a different region of the same storm, preexisting convection, incredibly moist atmospheric conditions, and upslope flow brought intense, long-duration rainfall. The simultaneous occurrence of rain-driven flooding and landslides, high-intensity winds, and multiple fires complicated emergency response. The compounding nature of the hazards produced during the Hurricane Lane event highlights the need to improve anticipation of complex feedback mechanisms among climate- and weather-related phenomena.</jats:p> Fire and Rain: The Legacy of Hurricane Lane in Hawaiʻi Bulletin of the American Meteorological Society
spellingShingle	Nugent, Alison D., Longman, Ryan J., Trauernicht, Clay, Lucas, Matthew P., Diaz, Henry F., Giambelluca, Thomas W., Bulletin of the American Meteorological Society, Fire and Rain: The Legacy of Hurricane Lane in Hawaiʻi, Atmospheric Science
title	Fire and Rain: The Legacy of Hurricane Lane in Hawaiʻi
title_full	Fire and Rain: The Legacy of Hurricane Lane in Hawaiʻi
title_fullStr	Fire and Rain: The Legacy of Hurricane Lane in Hawaiʻi
title_full_unstemmed	Fire and Rain: The Legacy of Hurricane Lane in Hawaiʻi
title_short	Fire and Rain: The Legacy of Hurricane Lane in Hawaiʻi
title_sort	fire and rain: the legacy of hurricane lane in hawaiʻi
title_unstemmed	Fire and Rain: The Legacy of Hurricane Lane in Hawaiʻi
topic	Atmospheric Science
url	http://dx.doi.org/10.1175/bams-d-19-0104.1