Saved in:
Bibliographic Details
Main Authors: Holden, Matthew H., Plagányi, Eva E., Fulton, Elizabeth A., Campbell, Alexander B., Janes, Rachel, Lovett, Robyn A., Wickens, Montana, Adams, Matthew P., Botelho, Larissa Lubiana, Dichmont, Catherine M., Erm, Philip, Helmstedt, Kate J, Heneghan, Ryan F., Mendiolar, Manuela, Richardson, Anthony J., Rogers, Jacob G. D., Saunders, Kate, Timms, Liam
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2403.17446
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866913283673423872
author Holden, Matthew H.
Plagányi, Eva E.
Fulton, Elizabeth A.
Campbell, Alexander B.
Janes, Rachel
Lovett, Robyn A.
Wickens, Montana
Adams, Matthew P.
Botelho, Larissa Lubiana
Dichmont, Catherine M.
Erm, Philip
Helmstedt, Kate J
Heneghan, Ryan F.
Mendiolar, Manuela
Richardson, Anthony J.
Rogers, Jacob G. D.
Saunders, Kate
Timms, Liam
author_facet Holden, Matthew H.
Plagányi, Eva E.
Fulton, Elizabeth A.
Campbell, Alexander B.
Janes, Rachel
Lovett, Robyn A.
Wickens, Montana
Adams, Matthew P.
Botelho, Larissa Lubiana
Dichmont, Catherine M.
Erm, Philip
Helmstedt, Kate J
Heneghan, Ryan F.
Mendiolar, Manuela
Richardson, Anthony J.
Rogers, Jacob G. D.
Saunders, Kate
Timms, Liam
contents Mathematical and statistical models underlie many of the world's most important fisheries management decisions. Since the 19th century, difficulty calibrating and fitting such models has been used to justify the selection of simple, stationary, single-species models to aid tactical fisheries management decisions. Whereas these justifications are reasonable, it is imperative that we quantify the value of different levels of model complexity for supporting fisheries management, especially given a changing climate, where old methodologies may no longer perform as well as in the past. Here we argue that cost-benefit analysis is an ideal lens to assess the value of model complexity in fisheries management. While some studies have reported the benefits of model complexity in fisheries, modeling costs are rarely considered. In the absence of cost data in the literature, we report, as a starting point, relative costs of single-species stock assessment and marine ecosystem models from two Australian organizations. We found that costs varied by two orders of magnitude, and that ecosystem model costs increased with model complexity. Using these costs, we walk through a hypothetical example of cost-benefit analysis. The demonstration is intended to catalyze the reporting of modeling costs and benefits.
format Preprint
id arxiv_https___arxiv_org_abs_2403_17446
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Cost-benefit analysis of ecosystem modelling to support fisheries management
Holden, Matthew H.
Plagányi, Eva E.
Fulton, Elizabeth A.
Campbell, Alexander B.
Janes, Rachel
Lovett, Robyn A.
Wickens, Montana
Adams, Matthew P.
Botelho, Larissa Lubiana
Dichmont, Catherine M.
Erm, Philip
Helmstedt, Kate J
Heneghan, Ryan F.
Mendiolar, Manuela
Richardson, Anthony J.
Rogers, Jacob G. D.
Saunders, Kate
Timms, Liam
Populations and Evolution
92D
Mathematical and statistical models underlie many of the world's most important fisheries management decisions. Since the 19th century, difficulty calibrating and fitting such models has been used to justify the selection of simple, stationary, single-species models to aid tactical fisheries management decisions. Whereas these justifications are reasonable, it is imperative that we quantify the value of different levels of model complexity for supporting fisheries management, especially given a changing climate, where old methodologies may no longer perform as well as in the past. Here we argue that cost-benefit analysis is an ideal lens to assess the value of model complexity in fisheries management. While some studies have reported the benefits of model complexity in fisheries, modeling costs are rarely considered. In the absence of cost data in the literature, we report, as a starting point, relative costs of single-species stock assessment and marine ecosystem models from two Australian organizations. We found that costs varied by two orders of magnitude, and that ecosystem model costs increased with model complexity. Using these costs, we walk through a hypothetical example of cost-benefit analysis. The demonstration is intended to catalyze the reporting of modeling costs and benefits.
title Cost-benefit analysis of ecosystem modelling to support fisheries management
topic Populations and Evolution
92D
url https://arxiv.org/abs/2403.17446