The scientific importance and impact of this project is developing a novel analytical method to investigate the metabolic rate of fish in the wild performance. We delivered the general idea and potential of otolith metabolic proxy by publishing a review paper (Chung et al., 2019. Otolith δ13C values as a metabolic proxy: approaches and mechanical underpinnings. Marine and Freshwater Research, Online Early).
According to the two objectives, this project has two main outputs. The first one is successfully developing otolith metabolic proxy by a lab-controlled experiment. We transform geochemical signals to physiological parameters. The method has been published in the journal, Nature Communications Biology (Chung et al., 2019. Field metabolic rates of teleost fishes are recorded in otolith carbonate. Communications Biology 2, 24.) and reported in several scientific websites (Scientists discover natural fitness watch in fishes that records their activity levels, Science Daily. Otoliths -- the fish's black box -- also keeps an eye on the metabolism, EurekAlert.).
The second output is applying this method to wild cod populations. Our results reveal that the field metabolic rate of wild cod is shaped by the experienced temperature, locations, year, the types of food sources, genotypes and fishery activities. These results are in preparation for publications in the SCI journals.