Investigating the age at sea departure of returning Atlantic salmon is critical to better understand the role of emigration timing in survival. Among the methods available, the use of otolith chemistry can be challenging in anadromous fish, as the elements frequently used (i.e. magnesium, manganese, and zinc) can jointly reflect individual metabolism and environmental conditions. Here, we present a new unsupervised and robust method for successfully estimating the outmigration age of Atlantic salmon in the Bay of Biscay, based on otolith zinc concentrations. Data published in doi:10.1111/jfb.15829

Otolith zinc concentrations from 378 Salmo salar individuals (columns), according to standardized [0-1] time before sea migration.

We reported significant lags (i.e. weeks to months) between changes in water chemistry and subsequent change in otolith composition and highlighted substantial inter-individual variations in the timing and magnitude of Sr/Ca and Ba/Ca responses Data published in doi:10.1242/jeb.245265.

Data for Sr/Ca and Ba/Ca experimental time-lag. 51 individuals, two transects per individual.

Escape kinematics of fish with chemically inhibited lateral line (streptomycin gentamicin)

Using juvenile (0+ years) Salmo trutta originating from the wild in experimental conditions, we report for the first time that the deposition of calcium carbonate in its crystalline vateritic polymorph has pervasive significant effect on the escape kinematics of fish. The presence of an alternative crystalline structure in otolith is therefore suspected to alter fish's behavior in ways that decrease their chances of survival. We also report that altered behavior in vateritic individuals is partially compensated in presence of a functional lateral line (compared with the same individuals with lateral line chemically inhibited)

Escape kinematics of fish with functional lateral line