George W Kling
George W Kling
Professor of Ecology and Evolutionary Biology, University of Michigan
Verified email at - Homepage
Cited by
Cited by
A communal catalogue reveals Earth’s multiscale microbial diversity
LR Thompson, JG Sanders, D McDonald, A Amir, J Ladau, KJ Locey, ...
Nature 551 (7681), 457-463, 2017
Carbon dioxide supersaturation in the surface waters of lakes
JJ Cole, NF Caraco, GW Kling, TK Kratz
Science 265 (5178), 1568-1570, 1994
Arctic lakes and streams as gas conduits to the atmosphere: implications for tundra carbon budgets
GW Kling, GW Kipphut, MC Miller
Science 251 (4991), 298-301, 1991
Stable isotopes and planktonic trophic structure in arctic lakes
GW Kling, B Fry, WJ O'Brien
Ecology 73 (2), 561-566, 1992
Effects of climate change on the freshwaters of arctic and subarctic North America
WR Rouse, MSV Douglas, RE Hecky, AE Hershey, GW Kling, L Lesack, ...
Hydrological processes 11 (8), 873-902, 1997
Sunlight controls water column processing of carbon in arctic fresh waters
RM Cory, CP Ward, BC Crump, GW Kling
Science 345 (6199), 925-928, 2014
Bacterioplankton community shifts in an arctic lake correlate with seasonal changes in organic matter source
BC Crump, GW Kling, M Bahr, JE Hobbie
Applied and Environmental Microbiology 69 (4), 2253-2268, 2003
The 1986 lake nyos gas disaster in cameroon, west Africa
GW Kling, MA Clark, GN Wagner, HR Compton, AM Humphrey, ...
Science 236 (4798), 169-175, 1987
The flux of CO2 and CH4 from lakes and rivers in arctic Alaska
GW Kling, GW Kipphut, MC Miller
Hydrobiologia 240, 23-36, 1992
Multiple stressors cause rapid ecosystem change in Lake Victoria
RE Hecky, R Mugidde, PS Ramlal, MR Talbot, GW Kling
Freshwater Biology 55, 19-42, 2010
Variation in dissolved organic matter controls bacterial production and community composition
KE Judd, BC Crump, GW Kling
Ecology 87 (8), 2068-2079, 2006
Confronting climate change in the Great Lakes region: impacts on our communities and ecosystems
GW Kling, K Hayhoe, LB Johnson, DJ Magnuson, S Polasky, ...
Union of Concerned Scientists; Ecological Society of America, 2003
Stable isotopes resolve the drift paradox for Baetis mayflies in an arctic river
AE Hershey, J Pastor, BJ Peterson, GW Kling
Ecology 74 (8), 2315-2325, 1993
An approach to understanding hydrologic connectivity on the hillslope and the implications for nutrient transport
M Stieglitz, J Shaman, J McNamara, V Engel, J Shanley, GW Kling
Global biogeochemical cycles 17 (4), 2003
Microbial diversity in arctic freshwaters is structured by inoculation of microbes from soils
BC Crump, LA Amaral-Zettler, GW Kling
The ISME journal 6 (9), 1629-1639, 2012
Integration of lakes and streams in a landscape perspective: the importance of material processing on spatial patterns and temporal coherence
GW Kling, GW Kipphut, MM Miller, WJN O'Brien
Freshwater Biology 43 (3), 477-497, 2000
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
Spatial variation among lakes within landscapes: ecological organization along lake chains
PA Soranno, KE Webster, JL Riera, TK Kratz, JS Baron, PA Bukaveckas, ...
Ecosystems 2, 395-410, 1999
Dark formation of hydroxyl radical in arctic soil and surface waters
SE Page, GW Kling, M Sander, KH Harrold, JR Logan, K McNeill, ...
Environmental science & technology 47 (22), 12860-12867, 2013
Comparative transparency, depth of mixing, and stability of stratification in lakes of Cameroon, West Africa 1
GW Kling
Limnology and Oceanography 33 (1), 27-40, 1988
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