Antoine Ricouard scite author profile

The concept of Maximum Sustainable Yield (MSY) have been lying at the core of the theory of sustainable harvesting a fishery for decades and have become a key reference point for many fishing administrations, including the European Union. However, the existence of a MSY relies on the stability of a population equilibrium. This hypothesis, though always true in the original Schaeffer model, is still challenging in more realistic and recent population models. However, recent advances shows that fish population can exhibit complex dynamics that are ill described by the classical theory. In particular, seasonal density-dependent processes can affect the stability of a population equilibrium even in a strictly single species case. Associated to stability, the resilience of the equilibrium (defined as an inverse returntime following a perturbation) also matters in a management purpose. Here, we introduce an analytical single population model in discrete time with a monthly time-step allowing temporal distinction between maturation and recruitment with density-dependent mortality and fishing exploitation. We show that, thanks to an appropriate population structure, we can easily derive inter-annual population equilibrium, and study their resilience and stability properties. Then, we show that under classical hypothesis concerning density-dependence, equilibrium stability is not guaranteed and that MSY can be associated to unstable or low resilient states. Finally, a numerical illustration for sole (Solea solea) of the Bay of Biscay suggests that small seasonal variations on maturation timing can have large effects on the value of MSY and its sustainability, whereas such variations on recruitment only had a limited effect. We therefore advocates a better integration of intra-annual time-scales in biological processes when deriving reference points.

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Antoine Ricouard

Are maximum yields sustainable? Effect of intra-annual time-scales on MSY, stability and resilience

Are Maximum Yields sustainable? Effect of intra-annual time-scales on MSY, stability and resilience

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