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W1973803264 endingPage "2013" @default.
W1973803264 startingPage "2002" @default.
W1973803264 abstract "An empirical model was developed that describes the influence of lake productivity, climate, and morphometry on coldwater fish oxythermal habitat. An oxythermal habitat variable called temperature at 3 mg·L –1 of dissolved oxygen (T DO3 ) was developed by interpolating the water temperature at a benchmark oxygen concentration (3 mg·L –1 ) from a temperature–oxygen profile. Coldwater habitat was most available in the least productive lakes (total P < 25 µg·L –1 ) with the greatest relative depths (geometry ratios < 2 m –0.5 ) and where mean July air temperatures were less than 17 °C. Species response curves were developed from values of T DO3 measured during the greatest period of oxythermal stress in late summer (maxT DO3 ). Lake trout was present in lakes with the lowest values of maxT DO3 , while cisco was present in lakes with the highest and broadest range of maxT DO3 . Projections for a scenario where climate warming (+4 °C in mean July air temperature) was accompanied by eutrophication (doubling of total P) indicated that coldwater fish oxythermal habitat would be devastated in a subset of lakes typical for Minnesota. Protecting deep, unproductive lakes from eutrophication will be a necessary management strategy to ensure that coldwater fish persist in at least some Minnesota lakes after climate warming." @default.
W1973803264 created "2016-06-24" @default.
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W1973803264 creator A5041473732 @default.
W1973803264 creator A5071885086 @default.
W1973803264 date "2010-12-01" @default.
W1973803264 modified "2023-10-16" @default.
W1973803264 title "Coldwater fish oxythermal habitat in Minnesota lakes: influence of total phosphorus, July air temperature, and relative depth" @default.
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W1973803264 doi "https://doi.org/10.1139/f10-115" @default.
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