The impact of bark beetle infestations on monoterpene emissions and secondary organic aerosol formation in western North America

Over the last decade, extensive beetle outbreaks in western North America have destroyed over 100 000 km<sup>2</sup> of forest throughout British Columbia and the western United States. Beetle infestations impact monoterpene emissions through both decreased emissions as trees are killed...

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Main Authors: A. R. Berg, C. L. Heald, K. E. Huff Hartz, A. G. Hallar, A. J. H. Meddens, J. A. Hicke, J.-F. Lamarque, S. Tilmes
Format: Article
Language:English
Published: Copernicus Publications 2013-03-01
Series:Atmospheric Chemistry and Physics
Online Access:http://www.atmos-chem-phys.net/13/3149/2013/acp-13-3149-2013.pdf
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spelling doaj-8dc16a0059bf48e287ea67ad18a316732020-11-24T21:22:15ZengCopernicus PublicationsAtmospheric Chemistry and Physics1680-73161680-73242013-03-011363149316110.5194/acp-13-3149-2013The impact of bark beetle infestations on monoterpene emissions and secondary organic aerosol formation in western North AmericaA. R. BergC. L. HealdK. E. Huff HartzA. G. HallarA. J. H. MeddensJ. A. HickeJ.-F. LamarqueS. TilmesOver the last decade, extensive beetle outbreaks in western North America have destroyed over 100 000 km<sup>2</sup> of forest throughout British Columbia and the western United States. Beetle infestations impact monoterpene emissions through both decreased emissions as trees are killed (mortality effect) and increased emissions in trees under attack (attack effect). We use 14 yr of beetle-induced tree mortality data together with beetle-induced monoterpene emission data in the National Center for Atmospheric Research (NCAR) Community Earth System Model (CESM) to investigate the impact of beetle-induced tree mortality and attack on monoterpene emissions and secondary organic aerosol (SOA) formation in western North America. <br><br> Regionally, beetle infestations may have a significant impact on monoterpene emissions and SOA concentrations, with up to a 4-fold increase in monoterpene emissions and up to a 40% increase in SOA concentrations in some years (in a scenario where the attack effect is based on observed lodgepole pine response). Responses to beetle attack depend on the extent of previous mortality and the number of trees under attack in a given year, which can vary greatly over space and time. Simulated enhancements peak in 2004 (British Columbia) and 2008 (US). Responses to beetle attack are shown to be substantially larger (up to a 3-fold localized increase in summertime SOA concentrations) in a scenario based on bark-beetle attack in spruce trees. Placed in the context of observations from the IMPROVE network, the changes in SOA concentrations due to beetle attack are in most cases small compared to the large annual and interannual variability in total organic aerosol which is driven by wildfire activity in western North America. This indicates that most beetle-induced SOA changes are not likely detectable in current observation networks; however, these changes may impede efforts to achieve natural visibility conditions in the national parks and wilderness areas of the western United States.http://www.atmos-chem-phys.net/13/3149/2013/acp-13-3149-2013.pdf
collection DOAJ
language English
format Article
sources DOAJ
author A. R. Berg
C. L. Heald
K. E. Huff Hartz
A. G. Hallar
A. J. H. Meddens
J. A. Hicke
J.-F. Lamarque
S. Tilmes
spellingShingle A. R. Berg
C. L. Heald
K. E. Huff Hartz
A. G. Hallar
A. J. H. Meddens
J. A. Hicke
J.-F. Lamarque
S. Tilmes
The impact of bark beetle infestations on monoterpene emissions and secondary organic aerosol formation in western North America
Atmospheric Chemistry and Physics
author_facet A. R. Berg
C. L. Heald
K. E. Huff Hartz
A. G. Hallar
A. J. H. Meddens
J. A. Hicke
J.-F. Lamarque
S. Tilmes
author_sort A. R. Berg
title The impact of bark beetle infestations on monoterpene emissions and secondary organic aerosol formation in western North America
title_short The impact of bark beetle infestations on monoterpene emissions and secondary organic aerosol formation in western North America
title_full The impact of bark beetle infestations on monoterpene emissions and secondary organic aerosol formation in western North America
title_fullStr The impact of bark beetle infestations on monoterpene emissions and secondary organic aerosol formation in western North America
title_full_unstemmed The impact of bark beetle infestations on monoterpene emissions and secondary organic aerosol formation in western North America
title_sort impact of bark beetle infestations on monoterpene emissions and secondary organic aerosol formation in western north america
publisher Copernicus Publications
series Atmospheric Chemistry and Physics
issn 1680-7316
1680-7324
publishDate 2013-03-01
description Over the last decade, extensive beetle outbreaks in western North America have destroyed over 100 000 km<sup>2</sup> of forest throughout British Columbia and the western United States. Beetle infestations impact monoterpene emissions through both decreased emissions as trees are killed (mortality effect) and increased emissions in trees under attack (attack effect). We use 14 yr of beetle-induced tree mortality data together with beetle-induced monoterpene emission data in the National Center for Atmospheric Research (NCAR) Community Earth System Model (CESM) to investigate the impact of beetle-induced tree mortality and attack on monoterpene emissions and secondary organic aerosol (SOA) formation in western North America. <br><br> Regionally, beetle infestations may have a significant impact on monoterpene emissions and SOA concentrations, with up to a 4-fold increase in monoterpene emissions and up to a 40% increase in SOA concentrations in some years (in a scenario where the attack effect is based on observed lodgepole pine response). Responses to beetle attack depend on the extent of previous mortality and the number of trees under attack in a given year, which can vary greatly over space and time. Simulated enhancements peak in 2004 (British Columbia) and 2008 (US). Responses to beetle attack are shown to be substantially larger (up to a 3-fold localized increase in summertime SOA concentrations) in a scenario based on bark-beetle attack in spruce trees. Placed in the context of observations from the IMPROVE network, the changes in SOA concentrations due to beetle attack are in most cases small compared to the large annual and interannual variability in total organic aerosol which is driven by wildfire activity in western North America. This indicates that most beetle-induced SOA changes are not likely detectable in current observation networks; however, these changes may impede efforts to achieve natural visibility conditions in the national parks and wilderness areas of the western United States.
url http://www.atmos-chem-phys.net/13/3149/2013/acp-13-3149-2013.pdf
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