Spatiotemporal Models Reveal Dynamic Growth Patterns in U.S. West Coast Groundfish

Variability in somatic growth of marine fish affects their reproductive potential and survival, and therefore, the productivity of a population. Understanding how growth might vary among species with similar traits can improve predictions of population status and responses to environmental change. We used geostatistical models to characterize spatiotemporal variability in growth rate and body condition, two interrelated traits associated with somatic growth, of nine commercially important U.S. West Coast groundfish species with a range of life-history traits and depth distributions. Our models uncover spatiotemporal variability in growth rate and body condition in all nine groundfish species with limited trends shared among species with similar traits, suggesting a greater influence from niche partitioning acting on local scales. Such interspecific differences in growth rate and body condition responses also occurred at regional scales, with some species exhibiting positive responses while others declined. These findings reveal the dynamic nature of somatic growth among groundfish species and provide insight into potential mechanisms of its variability that could be considered within climate-enhanced assessments of population status for marine fish.