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Can regime shifts in reproduction be explained by changing climate and food availability?
Tirronen, M.; Depestele, J.; Kuparinen, A. (2023). Can regime shifts in reproduction be explained by changing climate and food availability? Front. Mar. Sci. 10: 1167354. https://dx.doi.org/10.3389/fmars.2023.1167354
In: Frontiers in Marine Science. Frontiers Media: Lausanne. e-ISSN 2296-7745, more
Peer reviewed article  

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Keyword
    Marine/Coastal
Author keywords
    Allee effect; environmental forcing; non-linear recruitment dynamics;regime shifts; population recovery

Authors  Top 
  • Tirronen, M.
  • Depestele, J., more
  • Kuparinen, A.

Abstract

    Marine populations often show considerable variation in their productivity, including regime shifts. Of special interest are prolonged shifts to low recruitment and low abundance which occur in many fish populations despite reductions in fishing pressure. One of the possible causes for the lack of recovery has been suggested to be the Allee effect (depensation). Nonetheless, both regime shifts and the Allee effect are empirically emerging patterns but provide no explanation about the underlying mechanisms. Environmental forcing, on the other hand, is known to induce population fluctuations and has also been suggested as one of the primary challenges for recovery. In the present study, we build upon recently developed Bayesian change-point models to explore the contribution of food and climate as external drivers in recruitment regime shifts, while accounting for density-dependent mechanisms (compensation and depensation). Food availability is approximated by the copepod community. Temperature is included as a climatic driver. Three demersal fish populations in the Irish Sea are studied: Atlantic cod (Gadus morhua), whiting (Merlangius merlangus) and common sole (Solea solea). We demonstrate that, while spawning stock biomass undoubtedly impacts recruitment, abiotic and biotic drivers can have substantial additional impacts, which can explain regime shifts in recruitment dynamics or low recruitment at low population abundances. Our results stress the importance of environmental forcing to capture variability in fish recruitment.


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