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Regulation of Spatial and Temporal Variability of Carbon Flux in Six Hard-Water Lakes of the Northern Great Plains

Six hard-water lakes were sampled May-August for 14 yr in a 52,000 km² catchment to identify the mechanisms that regulate the spatial and temporal variability of net atmospheric exchange of CO₂ of lakes on the Northern Great Plains. Annual mean daily fluxes ranged from -100 to >200 mmol C m⁻² d⁻¹...

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Bibliographic Details
Published in:Limnology and oceanography 2009-11, Vol.54 (6), p.2553-2564
Main Authors: Finlay, K., Leavitt, P. R., Wissel, B., Prairie, Y. T.
Format: Article
Language:English
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Summary:Six hard-water lakes were sampled May-August for 14 yr in a 52,000 km² catchment to identify the mechanisms that regulate the spatial and temporal variability of net atmospheric exchange of CO₂ of lakes on the Northern Great Plains. Annual mean daily fluxes ranged from -100 to >200 mmol C m⁻² d⁻¹, while pCO₂ values varied between 0.3 and 5500 Pa. We observed periods of net CO₂ uptake (1995, 2000) and release (1998, 2006) resulting in synchronous variations in net CO₂ flux among lakes. Furthermore, pCO₂, pH, and chemical enhancement of CO₂ influx all varied coherently among sites. Interannual variation in net CO₂ flux and pCO₂ was correlated strongly with pH, correlated weakly with other physical and chemical conditions, and was uncorrelated to algal biomass, productivity, or ecosystem respiration. In contrast, spatial variability of water-column pCO₂ was correlated negatively to concentrations of soluble reactive phosphorus, total dissolved nitrogen, pH, and gross primary productivity, suggesting an important role of lake metabolism at large spatial scales. Finally, comparison with an additional 20 saline lakes demonstrated that changes in mean annual pH, pCO₂, and CO₂ flux during 2002-2007 were coherent in diverse lakes within a region of >100,000 km² and suggest that climatic control of pH and pCO₂ had an unexpectedly great effect on net CO₂ flux through productive hard-water lake ecosystems.
ISSN:0024-3590
1939-5590
DOI:10.4319/lo.2009.54.6_part_2.2553