2022
DOI: 10.1101/2022.10.04.510851
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Predicting Pacific cod spawning habitat in a changing climate

Abstract: Warming temperatures elicit shifts in habitat use and geographic distributions of fishes, with uneven effects across life stages. Spawners and embryos are particularly sensitive to environmental conditions, with direct impacts of temperature on spawning habitat, as well as indirect connections between their population dynamics and fisheries effort, productivity, and management. Here, we ask how changing environmental conditions and thermal sensitivities of developing embryos confer spatiotemporal variability o… Show more

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“…In marine long‐term models, climate projections are often used with fishery survey data to predict how species will generally respond to environmental change, whether fishing grounds may shift and which species are most likely to survive over the next century (Cote et al., 2021; Moltó et al., 2021). Marine SDMs have primarily focused on adult stages, and in only a few instances have models been developed to project future larval distributions (Muhling et al., 2020) and suitable spawning habitats (Bigman et al., 2023; Erauskin‐Extramiana et al., 2019; Lima et al., 2022; Maynou et al., 2020; Sandø et al., 2020). Developing projections of spawning distributions and early life stages therefore has the potential to provide additional information about how the most critical point in the fish life cycle may be affected by climate change.…”
Section: Introductionmentioning
confidence: 99%
“…In marine long‐term models, climate projections are often used with fishery survey data to predict how species will generally respond to environmental change, whether fishing grounds may shift and which species are most likely to survive over the next century (Cote et al., 2021; Moltó et al., 2021). Marine SDMs have primarily focused on adult stages, and in only a few instances have models been developed to project future larval distributions (Muhling et al., 2020) and suitable spawning habitats (Bigman et al., 2023; Erauskin‐Extramiana et al., 2019; Lima et al., 2022; Maynou et al., 2020; Sandø et al., 2020). Developing projections of spawning distributions and early life stages therefore has the potential to provide additional information about how the most critical point in the fish life cycle may be affected by climate change.…”
Section: Introductionmentioning
confidence: 99%