Pink salmon productivity is driven by catchment hydrogeomorphology and can decline under a changing climate

Abstract: Increased flood magnitude and frequency due to climate change can reduce the population productivity of organisms such as amphibian and fish species in river and stream systems; therefore, conserving habitats that maintain high productivity under such conditions is crucial. Here, we examined the relationship between the freshwater productivity of anadromous salmonids (measured as fry migrating to the ocean per spawner) and catchment hydrogeomorphology and identified the characteristics of rivers and streams th… Show more

“…Otolith collection requires destructive sampling; to avoid lethal sampling, we removed otoliths only from postspawning carcasses. Otolith sampling was conducted from September to October 2021 and 2022, the spawning season for pink salmon in this region (Yamada et al, 2024). We collected both sagittal otoliths and recorded the sex of the individuals.…”

Invasion status of hatchery‐origin pink salmon in an unstocked river at the Shiretoko World Natural Heritage Site in northern Japan

“…Otolith collection requires destructive sampling; to avoid lethal sampling, we removed otoliths only from postspawning carcasses. Otolith sampling was conducted from September to October 2021 and 2022, the spawning season for pink salmon in this region (Yamada et al, 2024). We collected both sagittal otoliths and recorded the sex of the individuals.…”

Invasion status of hatchery‐origin pink salmon in an unstocked river at the Shiretoko World Natural Heritage Site in northern Japan