Trophic status of a non-native crayfish in an oligotrophic lake: bottom-up view of a mixed warmwater and coldwater sport fishery food web

Trophic status of a non-native crayfish in an oligotrophic lake: bottom-up view of a mixed warmwater and coldwater sport fishery food web

Loffredo JR, Moore BC, Lee RW, Katz SL, Cross BK. 2019. Trophic status of a non-native crayfish in an oligotrophic lake: Bottom-up view of a mixed warmwater and coldwater sport fishery food web. Lake Reserv Manage. 35:396-414. Numerous studies in recent decades have observed variable trophic status...

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Bibliographic Details
Published in:Lake and reservoir management Vol. 35; no. 4; pp. 396 - 414
Main Authors: Loffredo, John R., Moore, Barry C., Lanouette, Brian, Lee, Raymond W., Katz, Stephen L., Cross, Benjamin K.
Format: Journal Article
Language:English
Published: Madison Taylor & Francis 02-10-2019
Taylor & Francis Books Inc
Subjects:
Aquatic insects
Bass
Cannibalism
Crayfish
Diet
Endemic species
Fish
Fish stocking
Fisheries
Fisheries management
Fishery management
Fishery regulations
Food
Food chains
Food webs
Foods
Freshwater
Freshwater crustaceans
Freshwater fishes
Game fishes
Inland water environment
Interspecific
Invasive species
Lake fisheries
Littoral environments
littoral food webs
Macroinvertebrates
Micropterus salmoides
northern crayfish
Oligotrophic lakes
Oncorhynchus mykiss
Oncorhynchus nerka
Ontogeny
Prey
Restocking
Salmon
stable isotope methods
Stable isotopes
Sustainability
Trophic levels
Trophic status
Trophic structure
Trout
Water temperature
Zoobenthos
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Summary:Loffredo JR, Moore BC, Lee RW, Katz SL, Cross BK. 2019. Trophic status of a non-native crayfish in an oligotrophic lake: Bottom-up view of a mixed warmwater and coldwater sport fishery food web. Lake Reserv Manage. 35:396-414. Numerous studies in recent decades have observed variable trophic status for freshwater crayfish among endemic and exotic populations in lentic or lotic habitats. In this study, we used stable isotope analyses (SIA) to explore trophic status of an introduced population of northern crayfish (Faxonius virilis) in Buffalo Lake, Washington. Northern crayfish are an important prey item for introduced warmwater and coldwater fish species in this lentic system and may buffer competitive interactions between largemouth bass (Micropterus salmoides), rainbow trout (Oncorhynchus mykiss), and kokanee (Oncorhynchus nerka). In 2017, the δ 13 C and δ 15 N values of liver samples from 208 crayfish informed proportional diet estimates. Crayfish diets were comprised of 8 littoral sources and were examined for cannibalism, temporal, spatial, and ontogenetic trophic shifts. There was no significant spatial or temporal trophic shift detected in this crayfish population. Seasonal δ 15 N values among all crayfish size classes mirrored seasonal abundance shifts of littoral macroinvertebrates. A multiple-source stable isotope mixing model and relative trophic positions provided evidence for an ontogenetic trophic shift between juvenile and adult crayfish, from a generalist detritivore to a predatory diet dominated by Chironomidae and Ephemeroptera. The trophic status of Buffalo Lake crayfish may affect salmonid management goals if interspecific competition for food between crayfish and sport fish is biologically significant. Our research is an important first step to understanding crayfish trophic status in a lentic food web, and should inform fish stocking regimes and fishery regulations in management efforts to achieve long-term sustainability of this diverse fishery.
ISSN:1040-2381
2151-5530
DOI:10.1080/10402381.2019.1613460