%0 Journal Article %J Biogeochemistry %D 2018 %T River network saturation concept: factors influencing the balance of biogeochemical supply and demand of river networks %A Wollheim, W.M. %A Bernal, S. %A Burns, D.A. %A Czuba, J.A. %A Driscoll, C.T. %A Hansen, A.T. %A Hensley, R.T. %A Hosen, J.D. %A Inamdar, S. %A Kaushal, S.S. %A Koenig, L.E. %A Lu, Y.H. %A Marzadri, A. %A Raymond, P.A. %A Scott, D. %A Stewart, R.J. %A Vidon, P.G. %A Wohl, E. %K demand %K dissolved %K flow regime %K fluxes %K gases %K inorganic nitrogen %K LTER-PIE %K macrosystems %K modeling %K removal %K retention %K river network %K saturation %K sediment %K sensors %K supply %B Biogeochemistry %G eng %M PIE480 %3 OCE-1238212, OCE-1637630 and many others %] NSF-LTER-PIE %R 10.1007/s10533-018-0488-0 %F Journal Article %0 Book %D 2013 %T Long-Term Trends in Ecological Systems: A Basis for Understanding Responses to Global Change. %A Peters, D.P.C. %A Laney, C.M. %A Lugo, A.E. %A Collins, S.L. %A Driscoll, C.T. %A Groffman, P.M. %A Grove, J.M. %A Knapp, A.K. %A JKratz, T.K. %A Ohman, M.D. %A Waide, R.B. %A Yao, J. %K disturbance %K inorganic nutrients %K LTER-PIE %K organic matter %K population dynamics %K primary production %I National Technical Information Services %C Springfield, Virginia %V Technical Bulletin Number 1931 %P 396 %G eng %M PIE357 %] NSF-LTER-PIE %F Book