Salmonids are of immense socio‐economic importance in much of the world, but are
threatened by climate change. This has generated a substantial literature documenting the …

The ecosystems supporting Pacific salmon (Oncorhynchus spp.) are changing rapidly as a
result of climate change and habitat alteration. Understanding how—and how consistently …

Climate-driven changes in the oceans, such as shifts in prey timing and abundance, could
influence variability in population productivity of marine fishes. For example, according to the …

Evaluating salmon hatchery supplementation programs requires assessing not only
program objectives but identifying potential risks to wild populations as well. Such …

An important unresolved question is how populations of coldwater‐dependent fishes will
respond to rapidly warming water temperatures. For example, the culturally and …

Pre-spawning mortality (PSM) has been occasionally observed in association with high
densities of adult Pacific salmon (Oncorhynchus spp.), but because large escapements are …

We applied an empirical model to predict hatching and emergence timing for 25 western
Alaska sockeye salmon (Oncorhynchus nerka) populations in four lake-nursery systems to …

Understanding trends in vegetation phenology and growing season productivity at a
regional scale is important for global change studies, particularly as linkages can be made …

To assess the potential for introgression and competition between hatchery-produced (H p)
and natural-origin (N o) chum salmon Oncorhynchus keta, we quantified a suite of fitness …

Climate change potentially poses a major threat to tropical marine fish populations, many of
which are nearing their thermal tolerance limits. Despite their importance to global food …