Abstract
Abstract In the context of ecosystem-based fisheries management, which should consider changing and uncertain environmental conditions, the development of ecosystem-based biological reference points (EBRPs) to account for important multi-species (MS) interactions, fishery operations, and climate change, is of paramount importance for sustainable fisheries management. However, EBRPs under varying plankton productivity states and fisheries management strategies are seldom developed, and the ecosystem effects of these changes are still largely unknown. In this study, ecosystem-based FMSY (fishing mortality rate at MSY) values were estimated within an end-to-end ecosystem model (OSMOSE) for three focused fish species (Pacific Herring, Clupea pallasii; Pacific Cod, Gadus macrocephalus; Lingcod, Ophiodon elongatus) under three plankton productivity states of differing plankton biomass at high, current, and low levels. In addition, ecosystem effects were compared across different plankton productivity and fisheries management strategies with the latter consisting of two fishery scenarios (i.e. single-species-focused (SS) and MS-focused), various fishing mortality rates, and two harvest policies (with and without harvest control rules, HCRs). Main findings of this study include: (i) plankton productivity change affected the values of ecosystem-based FMSY, which increased as plankton productivity states changed from low to high plankton biomass; (ii) ecosystem-based FMSY for Pacific Herring and Pacific Cod stocks increased when fishery scenarios shifted from SS-focused to MS-focused; (iii) fisheries management incorporating HCR yielded more stable system catch and system biomass; and (iv) high plankton biomass combined with fisheries management using HCR could maintain stable ecosystem production and sustainable fisheries. Based on our findings, we highlight possible adaptive fisheries management strategies in the face of future climate and ocean changes. Overall, EBRPs complement SS stock assessments by incorporating key ecological processes and ecosystem properties, thus providing supporting evidence for better incorporation of ecosystem considerations into scientific advice for sustainable fisheries management.
Highlights
Biological reference points (BRPs) are a set of assigned or estimated objectives for a fish stock that represent biomass targets to achieve or thresholds for avoidance (Sainsbury, 2008; Punt et al., 2016)
Catch curves based on fisheries management without HCR (i.e. NHCR) yielded incrementally higher FMSY and MSY values for all seven focus stocks (i.e. Herring-Prince Rupert District (PRD), Herring-Haida Gwaii (HG), Herring-Central Coast (CC), Pacific Cod-Queen Charlotte Sound (QCS), Pacific Cod-Hecate Strait (HS), Lingcod-QCS, and LingcodHS) when plankton productivity shifted from low, current, to high scenario, respectively (Figures 2–8)
Under NHCR, it is worth noting that ecosystem-based FMSY values increased dramatically for all three herring stocks (i.e. Herring-PRD, Herring-HG, and Herring-CC) when fishery scenarios moved from SS-focused to MS-focused (Figures 2–4)
Summary
Biological reference points (BRPs) are a set of assigned or estimated objectives for a fish stock that represent biomass targets to achieve or thresholds for avoidance (Sainsbury, 2008; Punt et al., 2016). BRPs are generally used as benchmarks for indicating stock status and for identifying desirable levels of fishing mortality for achieving objectives. The most commonly used BRPs are based on the concept of MSY, i.e. the biomass or fishing mortality rate. VC International Council for the Exploration of the Sea 2019. Development and testing of EBRPs is an important step in the move towards EBFM
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