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Systematic mapping and review of landscape fire smoke (LFS) exposure impacts on insects

Systematic mapping and review of landscape fire smoke (LFS) exposure impacts on insects
Systematic mapping and review of landscape fire smoke (LFS) exposure impacts on insects
Landscape fire activity is changing in many regions because of climate change. Smoke emissions from landscape fires contain many harmful air pollutants, and beyond the potential hazard posed to human health, these also have ecological impacts. Insects play essential roles in most ecosystems worldwide, and some work suggests they may also be sensitive to smoke exposure. There is therefore a need for a comprehensive review of smoke impacts on insects. We systematically reviewed the scientific literature from 1930 to 2022 to synthesize the current state of knowledge of the impacts of smoke exposure from landscape fires on the development, behavior, and mortality of insects. We found: (1) 42 relevant studies that met our criteria, with 29% focused on the United States of America and 19% on Canada; (2) of these, 40 insect species were discussed, all of which were sensitive to smoke pollution; (3) most of the existing research focuses on how insect behavior responds to landscape fire smoke (LFS); (4) species react differently to smoke exposure, with for example some species being attracted to the smoke (e.g., some beetles) while others are repelled (e.g., some bees). This review consolidates the current state of knowledge on how smoke impacts insects and highlights areas that may need further investigation. This is particularly relevant since smoke impacts on insect communities will likely worsen in some areas due to increasing levels of biomass burning resulting from the joint pressures of climate change, land use change, and more intense land management involving fire.
871-884
Lui, Yanan
75906b41-bc82-40f3-8357-f1b26b20d3d4
Francis, Robert A.
5af4b3d8-2669-4365-bc84-344bd66bab5a
Wooster, Martin J.
145baf07-63fe-4cee-9e77-72dc8bc11f1f
Grosvenor, Mark J.
ae0757dd-6d83-48d7-b336-7961962931c8
Yan, Su
e1dd983c-f998-4868-b8a0-67f89bb7dcc5
Roberts, Gareth
fa1fc728-44bf-4dc2-8a66-166034093ef2
Lui, Yanan
75906b41-bc82-40f3-8357-f1b26b20d3d4
Francis, Robert A.
5af4b3d8-2669-4365-bc84-344bd66bab5a
Wooster, Martin J.
145baf07-63fe-4cee-9e77-72dc8bc11f1f
Grosvenor, Mark J.
ae0757dd-6d83-48d7-b336-7961962931c8
Yan, Su
e1dd983c-f998-4868-b8a0-67f89bb7dcc5
Roberts, Gareth
fa1fc728-44bf-4dc2-8a66-166034093ef2

Lui, Yanan, Francis, Robert A., Wooster, Martin J., Grosvenor, Mark J., Yan, Su and Roberts, Gareth (2022) Systematic mapping and review of landscape fire smoke (LFS) exposure impacts on insects. Environmental Entomology, 51 (5), 871-884. (doi:10.1093/ee/nvac069).

Record type: Article

Abstract

Landscape fire activity is changing in many regions because of climate change. Smoke emissions from landscape fires contain many harmful air pollutants, and beyond the potential hazard posed to human health, these also have ecological impacts. Insects play essential roles in most ecosystems worldwide, and some work suggests they may also be sensitive to smoke exposure. There is therefore a need for a comprehensive review of smoke impacts on insects. We systematically reviewed the scientific literature from 1930 to 2022 to synthesize the current state of knowledge of the impacts of smoke exposure from landscape fires on the development, behavior, and mortality of insects. We found: (1) 42 relevant studies that met our criteria, with 29% focused on the United States of America and 19% on Canada; (2) of these, 40 insect species were discussed, all of which were sensitive to smoke pollution; (3) most of the existing research focuses on how insect behavior responds to landscape fire smoke (LFS); (4) species react differently to smoke exposure, with for example some species being attracted to the smoke (e.g., some beetles) while others are repelled (e.g., some bees). This review consolidates the current state of knowledge on how smoke impacts insects and highlights areas that may need further investigation. This is particularly relevant since smoke impacts on insect communities will likely worsen in some areas due to increasing levels of biomass burning resulting from the joint pressures of climate change, land use change, and more intense land management involving fire.

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nvac069 - Version of Record
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More information

Accepted/In Press date: 16 August 2022
e-pub ahead of print date: 21 September 2022

Identifiers

Local EPrints ID: 485324
URI: http://eprints.soton.ac.uk/id/eprint/485324
PURE UUID: 52171edc-7e01-4ad3-8b1a-05ae0ec45ca5
ORCID for Gareth Roberts: ORCID iD orcid.org/0009-0007-3431-041X

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Date deposited: 04 Dec 2023 17:42
Last modified: 18 Mar 2024 03:18

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Contributors

Author: Yanan Lui
Author: Robert A. Francis
Author: Martin J. Wooster
Author: Mark J. Grosvenor
Author: Su Yan
Author: Gareth Roberts ORCID iD

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