Aachen University / University of Chicago Press / University of Potsdam / University of Chicago / The University of Chicago / University of Chicago Predicting Population Dynamics / University of California / /
IndustryTerm
juvenile food-dependent mortality submodel / juvenile food-dependent mortality / experimental systems / high-food-level experiment / energy conductance / energy mobilization / energy budget theory / food availability / food levels / normal food level / reserve energy / food / energy / food-dependent mortality rates / energy acquisition / ecological systems / energy reserves / food-dependent mortality submodel / food level / Online enhancement / reproduction energy / food-dependent mortality / mobilized energy / information technology / constant food levels / higher food-dependent mortality coefficients / food intake / energy budget / little food / energy buffer / desired food concentration / chemicals / assimilated energy / /
Organization
University of Potsdam / Department of Ecological Modelling / University of California / Santa Barbara / lische Technische Hochschule / University of Chicago Predicting Population Dynamics / American Society of Naturalists / The University of Chicago / University of Chicago Press / Department of Theoretical Biology / Aachen University / US Federal Reserve / Institute for Biochemistry and Biology / American Society / Institute for Environmental Research / Rheinisch-Westfa¨lische Technische Hochschule / Helmholtz Centre for Environmental Research / Faculty of Earth and Life Sciences / Department of Ecology / Evolution / and Marine Biology / /
Person
Ross / Tjalling Jager / Benjamin T. Martin / Roger M. Nisbet / Nat / Thomas G. Preuss / / /
Position
driver / individual compo* Corresponding author / empirical individual-based population model / Author / /
ProgrammingLanguage
NetLogo / /
ProvinceOrState
California / /
PublishedMedium
The American Naturalist / Environmental Research / /
The University of Chicago Predicting Population Dynamics from the Properties of Individuals: A Cross-Level Test of Dynamic Energy Budget Theory. Author(s): Benjamin T. Martin, Tjalling Jager, Roger M. Nisbet, Thomas G.