|Stable‐carbon‐isotope ratios of river biota: implications for energy flow in lotic food webs|
Ecology 82 (4), 1052-1064, 2001
|Dams and downstream aquatic biodiversity: potential food web consequences of hydrologic and geomorphic change|
ME Power, WE Dietrich, JC Finlay
Environmental management 20 (6), 887-895, 1996
|Effects of water velocity on algal carbon isotope ratios: implications for river food web studies|
JC Finlay, ME Power, G Cabana
Limnology and oceanography 44 (5), 1198-1203, 1999
|Linking water quality and well-being for improved assessment and valuation of ecosystem services|
BL Keeler, S Polasky, KA Brauman, KA Johnson, JC Finlay, A O’Neill, ...
Proceedings of the National Academy of Sciences 109 (45), 18619-18624, 2012
|Spatial scales of carbon flow in a river food web|
JC Finlay, S Khandwala, ME Power
Ecology 83 (7), 1845-1859, 2002
|Stable isotope tracing of temporal and spatial variability in organic matter sources to freshwater ecosystems|
JC Finlay, C Kendall
Stable isotopes in ecology and environmental science 2, 283-333, 2007
|Controls of streamwater dissolved inorganic carbon dynamics in a forested watershed|
Biogeochemistry 62 (3), 231-252, 2003
|Seasonal changes in the age and structure of dissolved organic carbon in Siberian rivers and streams|
JC Neff, JC Finlay, SA Zimov, SP Davydov, JJ Carrasco, EAG Schuur, ...
Geophysical Research Letters 33 (23), 2006
|Influence of stream size on ammonium and suspended particulate nitrogen processing|
WM Wollheim, BJ Peterson, LA Deegan, JE Hobbie, B Hooker, ...
Limnology and Oceanography 46 (1), 1-13, 2001
|Human influences on nitrogen removal in lakes|
JC Finlay, GE Small, RW Sterner
Science 342 (6155), 247-250, 2013
|Patterns and controls of lotic algal stable carbon isotope ratios|
Limnology and Oceanography 49 (3), 850-861, 2004
|The role of discharge variation in scaling of drainage area and food chain length in rivers|
JL Sabo, JC Finlay, T Kennedy, DM Post
science 330 (6006), 965-967, 2010
|A shift of thermokarst lakes from carbon sources to sinks during the Holocene epoch|
KMW Anthony, SA Zimov, G Grosse, MC Jones, PM Anthony, ...
Nature 511 (7510), 452, 2014
|River-to-watershed subsidies in an old-growth conifer forest|
ME Power, WE Rainey, MS Parker, JL Sabo, A Smyth, S Khandwala, ...
Food webs at the landscape level, 217-240, 2004
|Factors affecting the measurement of CDOM by remote sensing of optically complex inland waters|
PL Brezonik, LG Olmanson, JC Finlay, ME Bauer
Remote Sensing of Environment 157, 199-215, 2015
|The interactive effects of excess reactive nitrogen and climate change on aquatic ecosystems and water resources of the United States|
JS Baron, EK Hall, BT Nolan, JC Finlay, ES Bernhardt, JA Harrison, ...
Biogeochemistry 114 (1-3), 71-92, 2013
|The problem of boundaries in defining ecosystems: a potential landmine for uniting geomorphology and ecology|
DM Post, MW Doyle, JL Sabo, JC Finlay
Geomorphology 89 (1-2), 111-126, 2007
|Snowmelt dominance of dissolved organic carbon in high‐latitude watersheds: Implications for characterization and flux of river DOC|
J Finlay, J Neff, S Zimov, A Davydova, S Davydov
Geophysical Research Letters 33 (10), 2006
|Biomass offsets little or none of permafrost carbon release from soils, streams, and wildfire: an expert assessment|
BW Abbott, JB Jones, EAG Schuur, FS Chapin III, WB Bowden, ...
Environmental Research Letters 11 (3), 034014, 2016
|Introduced trout sever trophic connections in watersheds: consequences for a declining amphibian|
JC Finlay, VT Vredenburg
Ecology 88 (9), 2187-2198, 2007