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Marine artificial light at night: An empirical and technical guide

Marine artificial light at night: An empirical and technical guide
Marine artificial light at night: An empirical and technical guide
The increasing illumination of our world by artificial light at night (ALAN) has created a new field of global change research with impacts now being demonstrated across taxa, biological ranks and spatial scales. Following advances in terrestrial ecology, marine ALAN has become a rapidly growing research area attracting scientists from across all biomes. Technological limitations, complexities of researching many coastal and marine ecosystems and the interdisciplinary nature of ALAN research present numerous challenges.

Drawing on expertise from optical oceanographers, modellers, community ecologists, experimental and molecular biologists, we share practical advice and solutions that have proven useful for marine ALAN research. Discussing lessons learnt early on can help in the effective and efficient development of a field.

The guide follows a sensory ecology approach to marine light pollution and consolidates physics, ecology and biology. First, we introduce marine lightscapes highlighting how these differ from terrestrial ones and provide an overview of biological adaptations to them. Second, we discuss study design and technology to best quantify ALAN exposure of and impacts on marine and coastal organisms including molecular tools and approaches to scale-up marine ALAN research.

We conclude that the growing field of marine ALAN research presents opportunities not only for improving our understanding of this globally widespread stressor, but also for advancing fundamental marine photobiology, chronobiology and night-time ecology. Interdisciplinary research will be essential to gain insights into natural marine lightscapes shaping the ecology and evolution coastal and marine ecosystems.
2041-210X
1588-1601
Tidau, Svenja
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Smyth, Tim
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McKee, David
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Wiedenmann, Joerg
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D'Angelo, Cecilia
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Wilcockson, David
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Ellison, Amy
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Grimmer, Andrew J.
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Jenkins, Stuart R.
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Widdicombe, Stephen
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Queirós, Ana M.
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Talbot, Elizabeth
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Wright, Adam
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Davies, Thomas W.
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Tidau, Svenja
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Smyth, Tim
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McKee, David
62c5fe4f-030c-4236-8ccb-f992ca247ef4
Wiedenmann, Joerg
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D'Angelo, Cecilia
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Wilcockson, David
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Ellison, Amy
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Grimmer, Andrew J.
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Jenkins, Stuart R.
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Widdicombe, Stephen
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Queirós, Ana M.
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Talbot, Elizabeth
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Wright, Adam
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Davies, Thomas W.
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Tidau, Svenja, Smyth, Tim, McKee, David, Wiedenmann, Joerg, D'Angelo, Cecilia, Wilcockson, David, Ellison, Amy, Grimmer, Andrew J., Jenkins, Stuart R., Widdicombe, Stephen, Queirós, Ana M., Talbot, Elizabeth, Wright, Adam and Davies, Thomas W. (2021) Marine artificial light at night: An empirical and technical guide. Methods in Ecology and Evolution, 12 (9), 1588-1601. (doi:10.1111/2041-210X.13653).

Record type: Article

Abstract

The increasing illumination of our world by artificial light at night (ALAN) has created a new field of global change research with impacts now being demonstrated across taxa, biological ranks and spatial scales. Following advances in terrestrial ecology, marine ALAN has become a rapidly growing research area attracting scientists from across all biomes. Technological limitations, complexities of researching many coastal and marine ecosystems and the interdisciplinary nature of ALAN research present numerous challenges.

Drawing on expertise from optical oceanographers, modellers, community ecologists, experimental and molecular biologists, we share practical advice and solutions that have proven useful for marine ALAN research. Discussing lessons learnt early on can help in the effective and efficient development of a field.

The guide follows a sensory ecology approach to marine light pollution and consolidates physics, ecology and biology. First, we introduce marine lightscapes highlighting how these differ from terrestrial ones and provide an overview of biological adaptations to them. Second, we discuss study design and technology to best quantify ALAN exposure of and impacts on marine and coastal organisms including molecular tools and approaches to scale-up marine ALAN research.

We conclude that the growing field of marine ALAN research presents opportunities not only for improving our understanding of this globally widespread stressor, but also for advancing fundamental marine photobiology, chronobiology and night-time ecology. Interdisciplinary research will be essential to gain insights into natural marine lightscapes shaping the ecology and evolution coastal and marine ecosystems.

Text
Methods Ecol Evol - 2021 - Tidau - Version of Record
Available under License Creative Commons Attribution.
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More information

Accepted/In Press date: 1 May 2021
e-pub ahead of print date: 4 June 2021
Published date: 8 July 2021
Additional Information: Correction Notice: A correction has been attached to this output located at: https://doi.org/10.1111/2041-210X.13747
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Identifiers

Local EPrints ID: 481807
URI: http://eprints.soton.ac.uk/id/eprint/481807
DOI: doi:10.1111/2041-210X.13653
ISSN: 2041-210X
PURE UUID: e5b4564c-2e7a-444a-9409-d4b17ef45115
ORCID for Joerg Wiedenmann: ORCID iD orcid.org/0000-0003-2128-2943

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Date deposited: 08 Sep 2023 16:41
Last modified: 18 Mar 2024 03:06

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Contributors

Author: Svenja Tidau
Author: Tim Smyth
Author: David McKee
Author: Joerg Wiedenmann ORCID iD
Author: Cecilia D'Angelo
Author: David Wilcockson
Author: Amy Ellison
Author: Andrew J. Grimmer
Author: Stuart R. Jenkins
Author: Stephen Widdicombe
Author: Ana M. Queirós
Author: Elizabeth Talbot
Author: Adam Wright
Author: Thomas W. Davies

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