References
- Barbiero, R.P. & M.L. Tuchman. 2001. Results from the U.S. EPA's Biological Open Water Surveillance Program of the Laurentian Great Lakes: I. Introduction and phytoplankton results. J. Great Lakes Res. 27: 134–154.
- Biddanda, B., M. Ogdahl & J. Cotner. 2001. Dominance of bacterial metabolism in oligotrophic relative to eutrophic waters. Limnol. Oceanogr. 46: 730–739.
- Brooks, A.S. & D.N. Edgington. 1994. Biogeochemical control of phosphorus cycling and primary production in Lake Michigan. Limnol. Oceanogr. 39: 961–968.
- Cole, J.J., N.F. Caraco, G.W. Kling & T.K. Kratz. 1994. Carbon dioxide supersaturation in the surface waters of lakes. Science 265: 1568–1570.
- Cole, J. & N.F. Caraco. 1998. Atmospheric exchange of carbon dioxide in a low-wind oligotrophic lake measured by the addition of SF6. Limnol Oceanogr 43: 647–656.
- Cole, J.J. and Others. 2007. Plumbing the Global Carbon Cycle: Integrating Inland Waters into the Terrestrial Carbon Budget. Ecosystems 10: 171–184.
- Crusius, J. & R. Wanninkhof. 2003. Gas transfer velocities measured at low wind speed over a lake. Limnol. Oceanogr. 48: 1010–1017.
- Curtis, P.S. and Others. 2002. Biometric and eddy-covariance based estimates of annual carbon storage in five eastern North American deciduous forests. Agr. Forest Meteorol. 113: 3–19.
- Davis, K.J. and Others. 2003. The annual cycles of CO2 and H2O exchange over a northern mixed forest as observed from a very tall tower. Glob. Change Biol. 9: 1278–1293.
- Eadie, B.J. & A. Robertson. 1976. An IFYGL carbon budget for Lake Ontario. J. Great Lakes Res. 2: 307–323.
- Engstrom, D.R. 1987. Influence of vegetation and hydrology on the humus budgets of Labrador lakes. Can. J. Fish. Aquat. Sci. 44: 1306–1314.
- Gergel, S.E., M.G. Turner & T.K. Kratz. 1999. Dissolved organic carbon as an indicator of the scale of watershed influence on lakes and rivers. Ecol. Appl. 9: 1377–1390.
- Houle, D., R. Carignan, M. Lachance & J. Dupont. 1995. Dissolved organic carbon and sulfur in southwestern Quebec lakes: relationships with catchment and lake properties. Limnol. Oceanogr. 40: 710–717.
- Kling, G.W., G.W. Kipphut & M.C. Miller. 1991. Arctic lakes and streams as gas conduits to the atmosphere: implications for tundra carbon budgets. Science 251: 298–301.
- Lee, X., J.D. Fuentes, R.M. Staebler & H.H. Neumann. 1999. Long-term observation of the atmospheric exchange of CO2 with a temperate deciduous forest in southern Ontario, Canada. J. Geophys. Res. 104: 15975–15984.
- Smith, E.M. & Y.T. Prairie. 2004. Bacterial metabolism and growth efficiency in lakes: The importance of phosphorus availability. Limnol Oceanogr 49: 137–147.
- Sobek, S., L.J. Tranvik & J. Cole. 2005. Temperature independence of carbon dioxide supersaturation in global lakes. Glob. Biogeochem. Cy. 19: DOI: 10.1029/2004GB002 264.
- Urban, N.R. 2006. Carbon cycling in Lake Superior: a regional and ecosystem perspective, p. xx—xx. In M. Munawar [ed.], State of Lake Superior in the 21st century: health, integrity and sustainability. Backhuys Publ.
- Urban, N.R., D.S. Apul & M.T. Auer. 2004. Planktonic respiration rates in Lake Superior. J. Great Lakes Res. 30: 230–244.
- Urban, N.R. and Others. 2005. Carbon cycling in Lake Superior. J. Geophys. Res. 110: doi: 10.1029/2003JC002 230 C002 206S002 290.
- Wanninkhof, R. 1992. Relationship between wind speed and gas exchange over the ocean. J. Geophys. Res. 97: 7373–7382.
- Weiler, R.R. 1978. Chemistry of Lake Superior. J. Great Lakes Res. 4: 370–385.