Trade-offs for data-limited fisheries when using harvest strategies based on catch-only models

Jessica C. Walsh; Cóilín Minto; Ernesto Jardim; Sean C. Anderson; Olaf P. Jensen; Jamie Afflerbach; Mark Dickey-Collas; Kristin M. Kleisner; Catherine Longo; Giacomo Chato Osio; Elizabeth R. Selig; James T. Thorson; Merrill B. Rudd; Katherine J. Papacostas; John N. Kittinger; Andrew A. Rosenberg; Andrew B. Cooper

doi:10.1111/faf.12316

Trade-offs for data-limited fisheries when using harvest strategies based on catch-only models

Jessica C. Walsh, Cóilín Minto, Ernesto Jardim, Sean C. Anderson, Olaf P. Jensen, Jamie Afflerbach, Mark Dickey-Collas, Kristin M. Kleisner, Catherine Longo, Giacomo Chato Osio, Elizabeth R. Selig, James T. Thorson, Merrill B. Rudd, Katherine J. Papacostas, John N. Kittinger, Andrew A. Rosenberg, Andrew B. Cooper

Sustainability Initiative

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

15 Scopus citations

Abstract

Many of the world's fisheries are unassessed, with little information about population status or risk of overfishing. Unassessed fisheries are particularly predominant in developing countries and in small-scale fisheries, where they are important for food security. Several catch-only methods based on time series of fishery catch and commonly available life-history traits have been developed to estimate stock status (defined as biomass relative to biomass at maximum sustainable yield: B/B_MSY). While their stock status performance has been extensively studied, performance of catch-only models as a management tool is unknown. We evaluated the extent to which a superensemble of three prominent catch-only models can provide a reliable basis for fisheries management and how performance compares across management strategies that control catch or fishing effort. We used a management strategy evaluation framework to determine whether a superensemble of catch-only models can reliably inform harvest control rules (HCRs). Across five simulated fish life histories and two harvest-dynamic types, catch-only models and HCR combinations reduced the risk of overfishing and increased the proportion of stocks above B_MSY compared to business as usual, though often resulted in poor yields. Precautionary HCRs based on fishing effort were robust and insensitive to error in catch-only models, while catch-based HCRs caused high probabilities of overfishing and more overfished populations. Catch-only methods tended to overestimate B/B_MSY for our simulated data sets. The catch-only superensemble combined with precautionary effort-based HCRs could be part of a stepping stone approach for managing some data-limited stocks while working towards more data-moderate assessment methods.

Original language	English (US)
Pages (from-to)	1130-1146
Number of pages	17
Journal	Fish and Fisheries
Volume	19
Issue number	6
DOIs	https://doi.org/10.1111/faf.12316
State	Published - Nov 2018

Keywords

catch-only model
data-limited
data-poor
harvest control rule
management strategy evaluation
superensemble

ASJC Scopus subject areas

Oceanography
Ecology, Evolution, Behavior and Systematics
Aquatic Science
Management, Monitoring, Policy and Law

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10.1111/faf.12316

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Walsh, J. C., Minto, C., Jardim, E., Anderson, S. C., Jensen, O. P., Afflerbach, J., Dickey-Collas, M., Kleisner, K. M., Longo, C., Osio, G. C., Selig, E. R., Thorson, J. T., Rudd, M. B., Papacostas, K. J., Kittinger, J. N., Rosenberg, A. A., & Cooper, A. B. (2018). Trade-offs for data-limited fisheries when using harvest strategies based on catch-only models. Fish and Fisheries, 19(6), 1130-1146. https://doi.org/10.1111/faf.12316

Walsh, JC, Minto, C, Jardim, E, Anderson, SC, Jensen, OP, Afflerbach, J, Dickey-Collas, M, Kleisner, KM, Longo, C, Osio, GC, Selig, ER, Thorson, JT, Rudd, MB, Papacostas, KJ, Kittinger, JN, Rosenberg, AA & Cooper, AB 2018, 'Trade-offs for data-limited fisheries when using harvest strategies based on catch-only models', Fish and Fisheries, vol. 19, no. 6, pp. 1130-1146. https://doi.org/10.1111/faf.12316

@article{54bcd25bd62c47da8d72f2a54783dc89,

title = "Trade-offs for data-limited fisheries when using harvest strategies based on catch-only models",

abstract = "Many of the world's fisheries are unassessed, with little information about population status or risk of overfishing. Unassessed fisheries are particularly predominant in developing countries and in small-scale fisheries, where they are important for food security. Several catch-only methods based on time series of fishery catch and commonly available life-history traits have been developed to estimate stock status (defined as biomass relative to biomass at maximum sustainable yield: B/BMSY). While their stock status performance has been extensively studied, performance of catch-only models as a management tool is unknown. We evaluated the extent to which a superensemble of three prominent catch-only models can provide a reliable basis for fisheries management and how performance compares across management strategies that control catch or fishing effort. We used a management strategy evaluation framework to determine whether a superensemble of catch-only models can reliably inform harvest control rules (HCRs). Across five simulated fish life histories and two harvest-dynamic types, catch-only models and HCR combinations reduced the risk of overfishing and increased the proportion of stocks above BMSY compared to business as usual, though often resulted in poor yields. Precautionary HCRs based on fishing effort were robust and insensitive to error in catch-only models, while catch-based HCRs caused high probabilities of overfishing and more overfished populations. Catch-only methods tended to overestimate B/BMSY for our simulated data sets. The catch-only superensemble combined with precautionary effort-based HCRs could be part of a stepping stone approach for managing some data-limited stocks while working towards more data-moderate assessment methods.",

keywords = "catch-only model, data-limited, data-poor, harvest control rule, management strategy evaluation, superensemble",

author = "Walsh, {Jessica C.} and C{\'o}il{\'i}n Minto and Ernesto Jardim and Anderson, {Sean C.} and Jensen, {Olaf P.} and Jamie Afflerbach and Mark Dickey-Collas and Kleisner, {Kristin M.} and Catherine Longo and Osio, {Giacomo Chato} and Selig, {Elizabeth R.} and Thorson, {James T.} and Rudd, {Merrill B.} and Papacostas, {Katherine J.} and Kittinger, {John N.} and Rosenberg, {Andrew A.} and Cooper, {Andrew B.}",

note = "Funding Information: This work was funded by a grant from the Gordon and Betty Moore Foundation to Conservation International (CI). We thank the CI Eastern Tropical Pacific Seascape programme staff and partners who helped identify some of the target species included in our analysis. The authors have no conflict of interests. Publisher Copyright: {\textcopyright} 2018 John Wiley & Sons Ltd",

year = "2018",

month = nov,

doi = "10.1111/faf.12316",

language = "English (US)",

volume = "19",

pages = "1130--1146",

journal = "Fish and Fisheries",

issn = "1467-2960",

publisher = "Wiley-Blackwell",

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T1 - Trade-offs for data-limited fisheries when using harvest strategies based on catch-only models

AU - Walsh, Jessica C.

AU - Minto, Cóilín

AU - Jardim, Ernesto

AU - Anderson, Sean C.

AU - Jensen, Olaf P.

AU - Afflerbach, Jamie

AU - Dickey-Collas, Mark

AU - Kleisner, Kristin M.

AU - Longo, Catherine

AU - Osio, Giacomo Chato

AU - Selig, Elizabeth R.

AU - Thorson, James T.

AU - Rudd, Merrill B.

AU - Papacostas, Katherine J.

AU - Kittinger, John N.

AU - Rosenberg, Andrew A.

AU - Cooper, Andrew B.

N1 - Funding Information: This work was funded by a grant from the Gordon and Betty Moore Foundation to Conservation International (CI). We thank the CI Eastern Tropical Pacific Seascape programme staff and partners who helped identify some of the target species included in our analysis. The authors have no conflict of interests. Publisher Copyright: © 2018 John Wiley & Sons Ltd

PY - 2018/11

Y1 - 2018/11

N2 - Many of the world's fisheries are unassessed, with little information about population status or risk of overfishing. Unassessed fisheries are particularly predominant in developing countries and in small-scale fisheries, where they are important for food security. Several catch-only methods based on time series of fishery catch and commonly available life-history traits have been developed to estimate stock status (defined as biomass relative to biomass at maximum sustainable yield: B/BMSY). While their stock status performance has been extensively studied, performance of catch-only models as a management tool is unknown. We evaluated the extent to which a superensemble of three prominent catch-only models can provide a reliable basis for fisheries management and how performance compares across management strategies that control catch or fishing effort. We used a management strategy evaluation framework to determine whether a superensemble of catch-only models can reliably inform harvest control rules (HCRs). Across five simulated fish life histories and two harvest-dynamic types, catch-only models and HCR combinations reduced the risk of overfishing and increased the proportion of stocks above BMSY compared to business as usual, though often resulted in poor yields. Precautionary HCRs based on fishing effort were robust and insensitive to error in catch-only models, while catch-based HCRs caused high probabilities of overfishing and more overfished populations. Catch-only methods tended to overestimate B/BMSY for our simulated data sets. The catch-only superensemble combined with precautionary effort-based HCRs could be part of a stepping stone approach for managing some data-limited stocks while working towards more data-moderate assessment methods.

AB - Many of the world's fisheries are unassessed, with little information about population status or risk of overfishing. Unassessed fisheries are particularly predominant in developing countries and in small-scale fisheries, where they are important for food security. Several catch-only methods based on time series of fishery catch and commonly available life-history traits have been developed to estimate stock status (defined as biomass relative to biomass at maximum sustainable yield: B/BMSY). While their stock status performance has been extensively studied, performance of catch-only models as a management tool is unknown. We evaluated the extent to which a superensemble of three prominent catch-only models can provide a reliable basis for fisheries management and how performance compares across management strategies that control catch or fishing effort. We used a management strategy evaluation framework to determine whether a superensemble of catch-only models can reliably inform harvest control rules (HCRs). Across five simulated fish life histories and two harvest-dynamic types, catch-only models and HCR combinations reduced the risk of overfishing and increased the proportion of stocks above BMSY compared to business as usual, though often resulted in poor yields. Precautionary HCRs based on fishing effort were robust and insensitive to error in catch-only models, while catch-based HCRs caused high probabilities of overfishing and more overfished populations. Catch-only methods tended to overestimate B/BMSY for our simulated data sets. The catch-only superensemble combined with precautionary effort-based HCRs could be part of a stepping stone approach for managing some data-limited stocks while working towards more data-moderate assessment methods.

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Trade-offs for data-limited fisheries when using harvest strategies based on catch-only models

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