| Summary: | An imperiled population of endemic North American Burbot (Lota lota maculosa) inhabiting the lower Kootenai River in a transboundary region of Idaho and British Columbia struggles with recruitment failures linked to incompatibility between early life history patterns and upstream hydropower operations at Libby Dam in Montana. The loss of both river ice in winter and a flood pulse in spring has led to an unnatural post-dam thermal regime in spawning and early rearing habitats of Burbot. A series of laboratory experiments and river temperature modeling efforts were carried out to determine if simulated changes to the river thermal regime impact spawning, embryo development, and larval rearing. Contemporary warming in the post-dam regime between December−January does not appear to preclude functional gametogenesis, as river-adapted hatchery fish spawned viable gametes in February. However, elevated water temperatures of 4°C and 6°C shorten the spawning period to potentially coincide with suboptimal conditions for normal embryo development. Cold incubation temperatures are crucial during early embryogenesis, but the post-dam regime is often >3°C—and can be as warm as 5°C—which causes severe deformity and mortality of embryos. Later stages of embryonic development show reasonable tolerance to gradual warming and moderate thermal flux common in late winter and early spring. Larvae were observed inflating their swim bladders, foraging on rotifers, and exhibiting high survival through a critical period in waters <6°C, which is the typical post-dam condition in putative nursery habitats in April. However, such cold regimes also prolong resting behavior of yolk-sac larvae, delay swim bladder inflation, reduce feeding, slow growth, and diminish larvae performance. These important aspects of larval ecophysiology during a critical period of Burbot ontogeny could increase the risk of cumulative mortality and negatively impact recruitment. It was difficult to resolve a modeling solution of post-dam operations that better ...
|
|---|