Net illumination reduces fisheries bycatch, maintains catch value, and increases operational efficiency

Jesse F. Senko; S. Hoyt Peckham; Daniel Aguilar-Ramirez; John H. Wang

doi:10.1016/j.cub.2021.12.050

Net illumination reduces fisheries bycatch, maintains catch value, and increases operational efficiency

Jesse F. Senko, S. Hoyt Peckham, Daniel Aguilar-Ramirez, John H. Wang

Future of Innovation in Society, School for the (SFIS)

Research output: Contribution to journal › Article › peer-review

20 Scopus citations

Abstract

Small-scale fisheries are vital for food security, nutrition, and livelihoods in coastal areas throughout the world's oceans.^1–9 As intricately linked social-ecological systems, small-scale fisheries require management approaches that help ensure both ecological and socioeconomic sustainability.⁷^,^10–14 Given their ease of use and lucrative nature, coastal gillnet fisheries are globally ubiquitous.¹⁰^,¹⁵ However, these fisheries often result in high discarded capture of non-target organisms (bycatch) that can lead to significant cascading effects throughout trophic chains^16–18 and costly fisheries restrictions that result in important revenue losses in coastal communities with scarce economic alternatives.¹⁹^,²⁰ Despite these challenges, few solutions have been developed and broadly adopted to decrease bycatch in coastal gillnet fisheries, particularly in developing nations.⁵^,²¹ Here we used controlled experiments along Mexico's Baja California peninsula to show that illuminating gillnets with green LED lights—an emerging technology originally developed to mitigate sea turtle bycatch—significantly reduced mean rates of total discarded bycatch biomass by 63%, which included significant decreases in elasmobranch (95%), Humboldt squid (81%), and unwanted finfish (48%). Moreover, illuminated nets significantly reduced the mean time required to retrieve and disentangle nets by 57%. In contrast, there were no significant differences in target fish catch or value. These findings advance our understanding of how artificial illumination affects operational efficiency and changes in catch rates in coastal gillnet fisheries, while illustrating the value of assessing broad-scale ecological and socioeconomic effects of species-specific conservation strategies.

Original language	English (US)
Pages (from-to)	911-918.e2
Journal	Current Biology
Volume	32
Issue number	4
DOIs	https://doi.org/10.1016/j.cub.2021.12.050
State	Published - Feb 28 2022

Keywords

bycatch reduction technology
entangling net
fisheries sustainability
gear modification
gillnet
marine conservation
resilience
small-scale fisheries
visual cues

ASJC Scopus subject areas

General Agricultural and Biological Sciences
General Biochemistry, Genetics and Molecular Biology

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10.1016/j.cub.2021.12.050

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@article{6fba9d0c59d940cfa8077ef966e380e0,

title = "Net illumination reduces fisheries bycatch, maintains catch value, and increases operational efficiency",

abstract = "Small-scale fisheries are vital for food security, nutrition, and livelihoods in coastal areas throughout the world's oceans.1–9 As intricately linked social-ecological systems, small-scale fisheries require management approaches that help ensure both ecological and socioeconomic sustainability.7,10–14 Given their ease of use and lucrative nature, coastal gillnet fisheries are globally ubiquitous.10,15 However, these fisheries often result in high discarded capture of non-target organisms (bycatch) that can lead to significant cascading effects throughout trophic chains16–18 and costly fisheries restrictions that result in important revenue losses in coastal communities with scarce economic alternatives.19,20 Despite these challenges, few solutions have been developed and broadly adopted to decrease bycatch in coastal gillnet fisheries, particularly in developing nations.5,21 Here we used controlled experiments along Mexico's Baja California peninsula to show that illuminating gillnets with green LED lights—an emerging technology originally developed to mitigate sea turtle bycatch—significantly reduced mean rates of total discarded bycatch biomass by 63%, which included significant decreases in elasmobranch (95%), Humboldt squid (81%), and unwanted finfish (48%). Moreover, illuminated nets significantly reduced the mean time required to retrieve and disentangle nets by 57%. In contrast, there were no significant differences in target fish catch or value. These findings advance our understanding of how artificial illumination affects operational efficiency and changes in catch rates in coastal gillnet fisheries, while illustrating the value of assessing broad-scale ecological and socioeconomic effects of species-specific conservation strategies.",

keywords = "bycatch reduction technology, entangling net, fisheries sustainability, gear modification, gillnet, marine conservation, resilience, small-scale fisheries, visual cues",

author = "Senko, {Jesse F.} and Peckham, {S. Hoyt} and Daniel Aguilar-Ramirez and Wang, {John H.}",

note = "Funding Information: We are grateful for field and logistical support of the entire Grupo Tortuguero and ProCaguama staff, the crew of INAPESCA's UNICAP XVI, Jesus “Don Chuy” Lucero-Romero, David Maldonado-Diaz, Antonio Figueroa, Athena Barrios, Juan Manuel Rodriguez Baron, Vladimir De La Toba, the Ocean Discovery Institute, Alejandro Castillo and the team from ProNatura Noroeste, Irene Kelly, Christina Fahy, Elena Finkbeiner, and Alejandro Rodr{\'i}guez S{\'a}nchez. Rafe Sagarin, Lekelia Jenkins, Nalini Chhetri, Ben Minteer, Maria del Mar Mancha-Cisneros, Eric Moody, John Sabo, Robert Wildermuth, Easton White, Tara Crawford, Jose Anadon, Cory Stevens, May Boggess, Melanie Hutchinson, Stephen Pratt, Yonat Swimmer, Wendy Dow Piniak, Keith Bigelow, T. Todd Jones, Bryan Wallace, Jeffrey Seminoff, Wallace J. Nichols, and two anonymous reviewers offered helpful suggestions and/or support that helped shape earlier versions of this paper. Andrew Smith, Kayla Burgher, Kyli Denton, Agnese Mancini, Maxwell Wilson, and Junita Karlsen provided invaluable comments, feedback, and assistance that greatly improved the final manuscript. We acknowledge funding and/or in-kind contributions from the Helmsley Charitable Trust, Walton Family Foundation, National Fisheries and Aquaculture Institute of Mexico (INAPESCA), WWF-US/Mike Osmond, National Marine Fisheries Service of the National Oceanic and Atmospheric Administration (NOAA), Joint Institute for Marine and Atmospheric Research at the University of Hawaii at Manoa, and School of Life Sciences at Arizona State University. We dedicate this manuscript to Rafe Sagarin, a beloved friend, colleague, and mentor who is profoundly missed. J.F.S. J.H.W. and S.H.P. designed the study. D.A.-R. and S.H.P. provided critical logistic and field support. J.F.S. collected and collated data. J.F.S. and J.H.W. analyzed the data and wrote the manuscript. All authors edited the manuscript. The authors declare no competing interests. Publisher Copyright: {\textcopyright} 2021 Elsevier Inc.",

year = "2022",

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doi = "10.1016/j.cub.2021.12.050",

language = "English (US)",

volume = "32",

pages = "911--918.e2",

journal = "Current Biology",

issn = "0960-9822",

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T1 - Net illumination reduces fisheries bycatch, maintains catch value, and increases operational efficiency

AU - Senko, Jesse F.

AU - Peckham, S. Hoyt

AU - Aguilar-Ramirez, Daniel

AU - Wang, John H.

N1 - Funding Information: We are grateful for field and logistical support of the entire Grupo Tortuguero and ProCaguama staff, the crew of INAPESCA's UNICAP XVI, Jesus “Don Chuy” Lucero-Romero, David Maldonado-Diaz, Antonio Figueroa, Athena Barrios, Juan Manuel Rodriguez Baron, Vladimir De La Toba, the Ocean Discovery Institute, Alejandro Castillo and the team from ProNatura Noroeste, Irene Kelly, Christina Fahy, Elena Finkbeiner, and Alejandro Rodríguez Sánchez. Rafe Sagarin, Lekelia Jenkins, Nalini Chhetri, Ben Minteer, Maria del Mar Mancha-Cisneros, Eric Moody, John Sabo, Robert Wildermuth, Easton White, Tara Crawford, Jose Anadon, Cory Stevens, May Boggess, Melanie Hutchinson, Stephen Pratt, Yonat Swimmer, Wendy Dow Piniak, Keith Bigelow, T. Todd Jones, Bryan Wallace, Jeffrey Seminoff, Wallace J. Nichols, and two anonymous reviewers offered helpful suggestions and/or support that helped shape earlier versions of this paper. Andrew Smith, Kayla Burgher, Kyli Denton, Agnese Mancini, Maxwell Wilson, and Junita Karlsen provided invaluable comments, feedback, and assistance that greatly improved the final manuscript. We acknowledge funding and/or in-kind contributions from the Helmsley Charitable Trust, Walton Family Foundation, National Fisheries and Aquaculture Institute of Mexico (INAPESCA), WWF-US/Mike Osmond, National Marine Fisheries Service of the National Oceanic and Atmospheric Administration (NOAA), Joint Institute for Marine and Atmospheric Research at the University of Hawaii at Manoa, and School of Life Sciences at Arizona State University. We dedicate this manuscript to Rafe Sagarin, a beloved friend, colleague, and mentor who is profoundly missed. J.F.S. J.H.W. and S.H.P. designed the study. D.A.-R. and S.H.P. provided critical logistic and field support. J.F.S. collected and collated data. J.F.S. and J.H.W. analyzed the data and wrote the manuscript. All authors edited the manuscript. The authors declare no competing interests. Publisher Copyright: © 2021 Elsevier Inc.

PY - 2022/2/28

Y1 - 2022/2/28

N2 - Small-scale fisheries are vital for food security, nutrition, and livelihoods in coastal areas throughout the world's oceans.1–9 As intricately linked social-ecological systems, small-scale fisheries require management approaches that help ensure both ecological and socioeconomic sustainability.7,10–14 Given their ease of use and lucrative nature, coastal gillnet fisheries are globally ubiquitous.10,15 However, these fisheries often result in high discarded capture of non-target organisms (bycatch) that can lead to significant cascading effects throughout trophic chains16–18 and costly fisheries restrictions that result in important revenue losses in coastal communities with scarce economic alternatives.19,20 Despite these challenges, few solutions have been developed and broadly adopted to decrease bycatch in coastal gillnet fisheries, particularly in developing nations.5,21 Here we used controlled experiments along Mexico's Baja California peninsula to show that illuminating gillnets with green LED lights—an emerging technology originally developed to mitigate sea turtle bycatch—significantly reduced mean rates of total discarded bycatch biomass by 63%, which included significant decreases in elasmobranch (95%), Humboldt squid (81%), and unwanted finfish (48%). Moreover, illuminated nets significantly reduced the mean time required to retrieve and disentangle nets by 57%. In contrast, there were no significant differences in target fish catch or value. These findings advance our understanding of how artificial illumination affects operational efficiency and changes in catch rates in coastal gillnet fisheries, while illustrating the value of assessing broad-scale ecological and socioeconomic effects of species-specific conservation strategies.

AB - Small-scale fisheries are vital for food security, nutrition, and livelihoods in coastal areas throughout the world's oceans.1–9 As intricately linked social-ecological systems, small-scale fisheries require management approaches that help ensure both ecological and socioeconomic sustainability.7,10–14 Given their ease of use and lucrative nature, coastal gillnet fisheries are globally ubiquitous.10,15 However, these fisheries often result in high discarded capture of non-target organisms (bycatch) that can lead to significant cascading effects throughout trophic chains16–18 and costly fisheries restrictions that result in important revenue losses in coastal communities with scarce economic alternatives.19,20 Despite these challenges, few solutions have been developed and broadly adopted to decrease bycatch in coastal gillnet fisheries, particularly in developing nations.5,21 Here we used controlled experiments along Mexico's Baja California peninsula to show that illuminating gillnets with green LED lights—an emerging technology originally developed to mitigate sea turtle bycatch—significantly reduced mean rates of total discarded bycatch biomass by 63%, which included significant decreases in elasmobranch (95%), Humboldt squid (81%), and unwanted finfish (48%). Moreover, illuminated nets significantly reduced the mean time required to retrieve and disentangle nets by 57%. In contrast, there were no significant differences in target fish catch or value. These findings advance our understanding of how artificial illumination affects operational efficiency and changes in catch rates in coastal gillnet fisheries, while illustrating the value of assessing broad-scale ecological and socioeconomic effects of species-specific conservation strategies.

KW - bycatch reduction technology

KW - entangling net

KW - fisheries sustainability

KW - gear modification

KW - gillnet

KW - marine conservation

KW - resilience

KW - small-scale fisheries

KW - visual cues

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DO - 10.1016/j.cub.2021.12.050

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SN - 0960-9822

VL - 32

SP - 911-918.e2

JO - Current Biology

JF - Current Biology

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ER -

Net illumination reduces fisheries bycatch, maintains catch value, and increases operational efficiency

Abstract

Keywords

ASJC Scopus subject areas

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