Meredith Holgerson
Mikkel Rene Andersen
Janis Bikse
Lauren E Bortolotti
Martyn N. Futter
Ilga Kokorite
Alan Law
Cory P. McDonald
Jorrit Mesman
Mike Peacock
David Richardson
Julien Arsenault
Sheel Bansal
Kaelin M Cawley
Kerri Finlay
McKenzie A. Kuhn
Amir Reza Shahabinia
Facundo Smufer
Nicholas E. Ray
2023
<div class="abstract-group metis-abstract"><div class="article-section__content en main"><p>Small waterbodies have potentially high greenhouse gas emissions relative to their small footprint on the landscape, although there is high uncertainty in model estimates. Scaling their carbon dioxide (CO<sub>2</sub>) and methane (CH<sub>4</sub>) exchange with the atmosphere remains challenging due to an incomplete understanding and characterization of spatial and temporal variability in CO<sub>2</sub><span> </span>and CH<sub>4</sub>. Here, we measured partial pressures of CO<sub>2</sub><span> </span>(<i>p</i>CO<sub>2</sub>) and CH<sub>4</sub><span> </span>(<i>p</i>CH<sub>4</sub>) across 30 ponds and shallow lakes during summer in temperate regions of Europe and North America. We sampled each waterbody in three locations at three times during the growing season, and tested which physical, chemical, and biological characteristics related to the means and variability of<span> </span><i>p</i>CO<sub>2</sub><span> </span>and<span> </span><i>p</i>CH<sub>4</sub><span> </span>in space and time. Summer means of<span> </span><i>p</i>CO<sub>2</sub><span> </span>and<span> </span><i>p</i>CH<sub>4</sub><span> </span>were inversely related to waterbody size and positively related to floating vegetative cover;<span> </span><i>p</i>CO<sub>2</sub><span> </span>was also positively related to dissolved phosphorus. Temporal variability in partial pressure in both gases weas greater than spatial variability. Although sampling on a single date was likely to misestimate mean seasonal<span> </span><i>p</i>CO<sub>2</sub><span> </span>by up to 26%, mean seasonal<span> </span><i>p</i>CH<sub>4</sub><span> </span>could be misestimated by up to 64.5%. Shallower systems displayed the most temporal variability in<span> </span><i>p</i>CH<sub>4</sub><span> </span>and waterbodies with more vegetation cover had lower temporal variability. Inland waters remain one of the most uncertain components of the global carbon budget; understanding spatial and temporal variability will ultimately help us to constrain our estimates and inform research priorities.</p></div></div>
application/pdf
10.1002/lno.12362
en
Wiley
Spatial and temporal variability in summertime dissolved carbon dioxide and methane in temperate ponds and shallow lakes
article