Overview of Injuries Associated with Extreme Weather Events in New Hampshire, U.S., 2001–2009

Overview of Injuries Associated with Extreme Weather Events in New Hampshire, U.S., 2001–2009

Global climate change is an environmental hazard with significant public health impacts. High-impact weather events including periods of extreme temperature or extreme precipitation are frequently associated with adverse effects on human health. This study evaluates the impact of extreme weather eve...

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Bibliographic Details
Main Authors: Kelly Neugent, Kathleen F. Bush, Eric Kelsey, Matthew Cahillane, Eric Laflamme
Format: Article
Language:English
Published: MDPI AG 2020-03-01
Series:Atmosphere
Subjects:
cold
flood
heat
injury
weather
Online Access:https://www.mdpi.com/2073-4433/11/3/281
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spelling doaj-3ab3c8fb144a4cd29310af64792f27472020-11-25T01:54:15ZengMDPI AGAtmosphere2073-44332020-03-0111328110.3390/atmos11030281atmos11030281Overview of Injuries Associated with Extreme Weather Events in New Hampshire, U.S., 2001–2009Kelly Neugent0Kathleen F. Bush1Eric Kelsey2Matthew Cahillane3Eric Laflamme4Department of Atmospheric Science and Chemistry, Plymouth State University, Plymouth, NH 03264, USANew Hampshire Department of Health and Human Services, Division of Public Health Services, Concord, NH 03301, USADepartment of Atmospheric Science and Chemistry, Plymouth State University, Plymouth, NH 03264, USANew Hampshire Department of Health and Human Services, Division of Public Health Services, Concord, NH 03301, USADepartment of Mathematics, Plymouth State University, Plymouth, NH 03264, USAGlobal climate change is an environmental hazard with significant public health impacts. High-impact weather events including periods of extreme temperature or extreme precipitation are frequently associated with adverse effects on human health. This study evaluates the impact of extreme weather events on injuries across New Hampshire. A set of five daily extreme weather metrics (EWMs) was analyzed: daily maximum temperature ≤32 °F (0 °C), daily maximum temperature ≥90 °F (32 °C), daily maximum temperature ≥95 °F (35 °C), daily precipitation ≥1″, and daily precipitation ≥2″. Exposure to these EWMs was defined by linking the population within 10 miles of nine weather stations distributed across the state. Injuries were defined as hospitalizations categorized as: all-cause injury, vehicle accidents, accidental falls, accidents due to natural and environmental causes (including excessive heat, excessive cold, exposure due to weather conditions, lightning, and storms and floods), accidental drowning, and carbon monoxide poisoning. The associations between all injury categories and all EWMs as well as daily maximum temperature and daily precipitation were explored. A quasi-Poisson regression model was used to evaluate the relationship between the four strongest exposure−outcome pairs linking maximum temperature to all-cause injury-, vehicle accident-, accidental fall-, and heat-related hospital visits. Results indicate that daily maximum temperature (>90 °F) was most strongly associated with heat-related hospital visits and was also associated with all-cause injury-related hospital visits. Future work should include further analysis of cold weather metrics and incorporate these findings into public health planning and response efforts.https://www.mdpi.com/2073-4433/11/3/281coldfloodheatinjuryweather
collection DOAJ
language English
format Article
sources DOAJ
author Kelly Neugent
Kathleen F. Bush
Eric Kelsey
Matthew Cahillane
Eric Laflamme
spellingShingle Kelly Neugent
Kathleen F. Bush
Eric Kelsey
Matthew Cahillane
Eric Laflamme
Overview of Injuries Associated with Extreme Weather Events in New Hampshire, U.S., 2001–2009
Atmosphere
cold
flood
heat
injury
weather
author_facet Kelly Neugent
Kathleen F. Bush
Eric Kelsey
Matthew Cahillane
Eric Laflamme
author_sort Kelly Neugent
title Overview of Injuries Associated with Extreme Weather Events in New Hampshire, U.S., 2001–2009
title_short Overview of Injuries Associated with Extreme Weather Events in New Hampshire, U.S., 2001–2009
title_full Overview of Injuries Associated with Extreme Weather Events in New Hampshire, U.S., 2001–2009
title_fullStr Overview of Injuries Associated with Extreme Weather Events in New Hampshire, U.S., 2001–2009
title_full_unstemmed Overview of Injuries Associated with Extreme Weather Events in New Hampshire, U.S., 2001–2009
title_sort overview of injuries associated with extreme weather events in new hampshire, u.s., 2001–2009
publisher MDPI AG
series Atmosphere
issn 2073-4433
publishDate 2020-03-01
description Global climate change is an environmental hazard with significant public health impacts. High-impact weather events including periods of extreme temperature or extreme precipitation are frequently associated with adverse effects on human health. This study evaluates the impact of extreme weather events on injuries across New Hampshire. A set of five daily extreme weather metrics (EWMs) was analyzed: daily maximum temperature ≤32 °F (0 °C), daily maximum temperature ≥90 °F (32 °C), daily maximum temperature ≥95 °F (35 °C), daily precipitation ≥1″, and daily precipitation ≥2″. Exposure to these EWMs was defined by linking the population within 10 miles of nine weather stations distributed across the state. Injuries were defined as hospitalizations categorized as: all-cause injury, vehicle accidents, accidental falls, accidents due to natural and environmental causes (including excessive heat, excessive cold, exposure due to weather conditions, lightning, and storms and floods), accidental drowning, and carbon monoxide poisoning. The associations between all injury categories and all EWMs as well as daily maximum temperature and daily precipitation were explored. A quasi-Poisson regression model was used to evaluate the relationship between the four strongest exposure−outcome pairs linking maximum temperature to all-cause injury-, vehicle accident-, accidental fall-, and heat-related hospital visits. Results indicate that daily maximum temperature (>90 °F) was most strongly associated with heat-related hospital visits and was also associated with all-cause injury-related hospital visits. Future work should include further analysis of cold weather metrics and incorporate these findings into public health planning and response efforts.
topic cold
flood
heat
injury
weather
url https://www.mdpi.com/2073-4433/11/3/281
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