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- Title
Chinook salmon depth distributions on the continental shelf are shaped by interactions between location, season, and individual condition.
- Authors
Freshwater, Cameron; Anderson, Sean C.; Huff, David D.; Smith, Joseph M.; Jackson, Doug; Hendriks, Brian; Hinch, Scott G.; Johnston, Stephen; Trites, Andrew W.; King, Jackie
- Abstract
Background: Ecological and physical conditions vary with depth in aquatic ecosystems, resulting in gradients of habitat suitability. Although variation in vertical distributions among individuals provides evidence of habitat selection, it has been challenging to disentangle how processes at multiple spatio-temporal scales shape behaviour. Methods: We collected thousands of observations of depth from > 300 acoustically tagged adult Chinook salmon Oncorhynchus tshawytscha, spanning multiple seasons and years. We used these data to parameterize a machine-learning model to disentangle the influence of spatial, temporal, and dynamic oceanographic variables while accounting for differences in individual condition and maturation stage. Results: The top performing machine learning model used bathymetric depth ratio (i.e., individual depth relative to seafloor depth) as a response. We found that bathymetry, season, maturation stage, and spatial location most strongly influenced Chinook salmon depth. Chinook salmon bathymetric depth ratios were deepest in shallow water, during winter, and for immature individuals. We also identified non-linear interactions among covariates, resulting in spatially-varying effects of zooplankton concentration, lunar cycle, temperature and oxygen concentration. Conclusions: Our results suggest Chinook salmon vertical habitat use is a function of ecological interactions, not physiological constraints. Temporal and spatial variation in depth distributions could be used to guide management decisions intended to reduce fishery impacts on Chinook salmon. More generally, our findings demonstrate how complex interactions among bathymetry, seasonality, location, and life history stage regulate vertical habitat selection.
- Subjects
CHINOOK salmon; MACHINE learning; CONTINENTAL shelf; LIFE history theory; HABITAT selection
- Publication
Movement Ecology, 2024, Vol 12, Issue 1, p1
- ISSN
2051-3933
- Publication type
Article
- DOI
10.1186/s40462-024-00464-y