Abstract
For federally managed fisheries in the USA, National Standard 1 requires that an acceptable biological catch be set for all fisheries and that this catch avoid overfishing. Achieving this goal for data-poor stocks, for which stock assessments are not possible, is particularly challenging. A number of harvest control rules have very recently been developed to set sustainable catches in data-poor fisheries, but the ability of most of these rules to avoid overfishing has not been tested. We conducted a management strategy evaluation to assess several control rules proposed for data-poor situations. We examined three general life histories (“slow,” “medium,” and “fast”) and three exploitation histories (under-, fully, and overexploited) to identify control rules that balance the competing objectives of avoiding overfishing and maintaining high levels of harvest. Many of the control rules require information on species life history and relative abundance, so we explored a scenario in which unbiased knowledge was used in the control rule and one in which highly inflated estimates of stock biomass were used. Our analyses showed that no single control rule performed well across all scenarios, with those that performed well in the unbiased scenario performing poorly in the biased scenarios and vice versa. Only the most conservative data-poor control rules limited the probability of overfishing across most of the life history and exploitation scenarios explored, but these rules typically required very conservative catches under the unbiased scenarios.
Received June 22, 2012; accepted May 22, 2013
ACKNOWLEDGMENTS
We thank the members of this research project's steering committee (Lee Anderson, John Boreman, Liz Brooks, Jessica Coakley, Rick Robins, and Rich Seagraves) for helpful discussions on formulating this work. We also thank Jim Berkson, André Punt, Chris Legault, Doug Vaughan, and the members of the Mid-Atlantic Fisheries Management Council's Scientific and Statistical Committee for comments on an earlier version. In addition, we thank E. J. Dick for discussions on the DB-SRA control rule, Alec MacCall, as well as the associate editor, and two anonymous reviewers for comments on earlier drafts. Funding was provided by the Mid-Atlantic Fisheries Management Council. This is contribution 4750 of the University of Maryland Center for Environmental Science.