dc.description.abstract | Atlantic herring (Clupea harengus; hereafter herring) is a forage fish that transfers energy from lower to higher
trophic levels and sustains high-volume fisheries in the North Atlantic. This study aims to improve our understanding of the ecology of Newfoundland herring and its vulnerability to climate change by identifying key prey
items and describing adult herring feeding strategies. We compared plankton assemblages to stomach content
and stable isotope analyses from herring collected in Trinity Bay, Newfoundland, in late summer and autumn
2017–2019. Six distinct zooplankton communities were identified across all years, with a shift in community
structure in September 2018. This shift coincided with a change from fresher, warmer waters (12–17 ◦C) to more
saline, cooler waters (10.5 ◦C). The most frequently consumed prey items were amphipods (Themisto spp.) and
calanoid copepods (primarily Calanus and Temora spp.). Fish eggs, larvae, and juveniles, primarily identified as
capelin, were observed in stomach contents in all years. Fish contributed most to diets in 2017, which corresponded with the peak year for larval densities in Trinity Bay, suggesting that piscivory may increase at higher
larval densities. Herring were opportunistic feeders, although some individuals exhibited selective feeding on
copepods, amphipods, euphausiids, and the early life stages of fishes. Stable isotope analyses supported the
finding that herring piscivory is prevalent in eastern Newfoundland. Given its adaptive feeding strategy and wide
range of consumed prey, we conclude that adult Newfoundland herring is resilient to bottom-up changes
observed in the environment. | en_US |