Smock / Wallace / Seattle / Harvey / Montreal / Baskerville / Madison / Vancouver / Colombie-Britannique / Washington / L.A. / /
Company
SAS Institute Inc. / Cummins / Kendall / Garrett / performed using PC SAS / /
Continent
North America / /
Country
United States / Canada / / /
Facility
University of British Columbia / J.D. Hall / Main Mall / Hall et al. / University of Wisconsin Sea Grant Program / /
IndustryTerm
Relative energy gain / food chain / maximum energy intake / net energy balance / positive energy gain / Lower absolute energy requirements / energy leaving / steel re-enforcing rod / energy loss / greater negative energy balance / stream bank / energy content / maximum energy gain / food / energy / Energy costs / net energy / Energy gain / longer limits energy intake / energy intake / less energy loss / net energy intake / net energy gain / less energy / energy modeling / insufficient energy / positive energy balance / /
Movie
A.D. / /
MusicGroup
B.C. / /
NaturalFeature
Alaska streams / British Columbia stream / Hudson Creek / California stream / Forest Renewal British Columbia / Husdon Creek / /
Organization
U.S. Department of Commerce / National Oceanic and Atmospheric Administration / Department of Biological Sciences / University of British Columbia / Vancouver / Corvalis / Nuclear Regulatory Commission / Corvallis / American Fisheries Society / Oregon Chapter / University of Wisconsin / /
Person
Grant McBain / Mark D / Tom Quinn / Daniel Boisclair / Eric Parkinson / Nat / Nick Hughes / Lonzarich / Andrade Kat / Carmen T. Kat / Ernest Keeley / Marc Porter / Jordan S. Rosenfeld / Final / / /
Position
vp / foraging and bioenergetics model for drift-feeding brown trout / D.J. / drift-foraging model of Hughes / Corresponding author / Governor / Porter / /
ProvinceOrState
Wisconsin / Alaska / Oregon / British Columbia / Washington / N.F. / California / /