| dc.description.abstract | Understanding food web structure in lentic ecosystems is a requirement for determining
pathways and rates of energy flow, yet predator-prey interactions can be highly dynamic
across space (i.e., between- and within-lakes) and time (e.g., diel daily cycles, seasonal).
Differences in prey availability can influence predator life history traits and behaviours,
though life histories can also vary across environmental gradients. Metabolic theory
predicts that variation in prey and habitat availability affects metabolic rates by
modifications to active behaviours, though the precise conditions controlling variation in
activity have rarely been empirically assessed. Further, the relative influence of activity
via food web structure (compared with environmental characteristics) on life history
traits and contaminant dynamics remain poorly understood. Here, I integrate
information regarding both prey availability and environmental factors to gain novel
insights into their combined effects on Lake Trout activity, contaminant accumulation
and life histories. Using stationary hydroacoustics, I directly observed higher activity in
planktivorous Lake Trout populations that exhibited sustained day-night swimming and
higher active metabolism, which contrasted with piscivorous populations that had
distinct day-night behavioural shifts, including nighttime rest. Planktivorous Lake Trout
maintained faster, more complex swimming paths, exhibited higher oxygen
consumption, and were more frequently observed in suboptimal oxythermal conditions
than piscivorous Lake Trout. Secondly, Lake Trout mercury (Hg) concentrations were
affected by prey availability but not according to classical contaminant food chain length
theory; rather, Hg accumulation slopes against body size were more shallow when Mysis
diluviana was present than when they were absent, independent of overall food chain
length. Increasing dissolved organic carbon concentrations (DOC) were also positively
associated with Lake Trout Hg, and the combined use of prey availability and DOC
proved essential for predicting whether Lake Trout Hg concentrations exceeded
Canadian consumption guidelines for a given size. Lastly, life history traits in Lake Trout
were best explained by models combining both food web structure and environmental
variables; adult length and size-at-maturity generally increased with greater prey
availability, while environmental variables such as lake size and total phosphorus were
key for describing trait variation within categories of prey availability. These findings
provide empirical, field-validated support that prey availability can play as important of a
role as environmental characteristics in shaping the life history traits of predatory fishes,
like Lake Trout, through effects on activity, metabolic rates, and foraging opportunities. | en_US |
