Dybzinski, RayKelvakis, AngeloMcCabe, JohnPanock, SamanthaAnuchitlertchon, KanyarakVasarhelyi, LeahMcCormack, M. LukeMcNickle, Gordon G.Poorter, HendrikTrinder, ClareFarrior, Caroline E.2020-01-062020-01-062019-03Dybzinski, R, Kelvakis, A, McCabe, J, Panock, S, Anuchitlertchon, K, Vasarhelyi, L, McCormack, M L, McNickle, G G, Poorter, H, Trinder, C & Farrior, C E 2019, 'How are nitrogen availability, fine-root mass, and nitrogen uptake related empirically? Implications for models and theory', Global Change Biology, vol. 25, no. 3, pp. 885-899. https://doi.org/10.1111/gcb.145411354-1013RIS: urn:3D2A77B32BCCDF6E790C118FFC554003Mendeley: 0e057ed8-06a0-3dfb-83fd-00aea73c7191https://hdl.handle.net/2164/13453We gratefully acknowledge funding from Loyola University Chicago; suggestions for improvement by David Robinson and anonymous peer reviewers; logistical support from K. Erickson; help with maintenance and harvests from O. Urbanski, L. Papaioannou, H. Roudebush, & V. Roudebush; and tissue and substrate analyses from Z. Zhu. The authors have no conflicts of interest to report.151704254engSDG 13 - Climate Actioncompetitiondynamic global vegetation modelfine rootsgame theorynitrogenover-proliferationterrestrial biosphere modelQH301 BiologySupplementary DataQH301Journal article10.1111/gcb.14541http://www.mendeley.com/research/nitrogen-availability-fineroot-mass-nitrogen-uptake-related-empirically-implications-models-theory253