Classifying Mixing Regimes in Ponds and Shallow Lakes

Article

Holgerson, Meredith A, Richardson, David C., Roith, Joseph, Bortolotti, Lauren E., Finlay, Kerri, Hornbach, Daniel J., Gurung, Kshitij, Ness, Andrew, Andersen, Mikkel R., Bansal, Sheel, Finlay, Jacques C., Cianci-Gaskill, Jacob A., Hahn, Shannon, Janke, Benjamin D., McDonald, Cory, Mesman, Jorrit P., North, Rebecca L., Robert, Cassandra O., Sweetman, J.N. and Webb, Jackie R.. 2022. "Classifying Mixing Regimes in Ponds and Shallow Lakes." Water Resources Research. 58 (7). https://doi.org/10.1029/2022WR032522
Article Title

Classifying Mixing Regimes in Ponds and Shallow Lakes

ERA Journal ID4695
Article CategoryArticle
AuthorsHolgerson, Meredith A, Richardson, David C., Roith, Joseph, Bortolotti, Lauren E., Finlay, Kerri, Hornbach, Daniel J., Gurung, Kshitij, Ness, Andrew, Andersen, Mikkel R., Bansal, Sheel, Finlay, Jacques C., Cianci-Gaskill, Jacob A., Hahn, Shannon, Janke, Benjamin D., McDonald, Cory, Mesman, Jorrit P., North, Rebecca L., Robert, Cassandra O., Sweetman, J.N. and Webb, Jackie R.
Journal TitleWater Resources Research
Journal Citation58 (7)
Article Numbere2022WR032522
Number of Pages18
Year2022
PublisherJohn Wiley & Sons
Place of PublicationUnited States
ISSN0043-1397
1944-7973
Digital Object Identifier (DOI)https://doi.org/10.1029/2022WR032522
Web Address (URL)https://agupubs.onlinelibrary.wiley.com/doi/10.1029/2022WR032522
Abstract

Lakes are classified by thermal mixing regimes, with shallow waterbodies historically categorized as continuously mixing systems. Yet, recent studies demonstrate extended summertime stratification in ponds, underscoring the need to reassess thermal classifications for shallow waterbodies. In this study, we examined the summertime thermal dynamics of 34 ponds and shallow lakes across temperate North America and Europe to categorize and identify the drivers of different mixing regimes. We identified three mixing regimes: rarely (n = 18), intermittently (n = 10), and often (n = 6) mixed, where waterbodies mixed an average of 2%, 26%, and 75% of the study period, respectively. Waterbodies in the often mixed category were larger (≥4.17 ha) and stratification weakened with increased wind shear stress, characteristic of “shallow lakes.” In contrast, smaller waterbodies, or “ponds,” mixed less frequently, and stratification strengthened with increased shortwave radiation. Shallow ponds (<0.74 m) mixed intermittently, with daytime stratification often breaking down overnight due to convective cooling. Ponds ≥0.74 m deep were rarely or never mixed, likely due to limited wind energy relative to the larger density gradients associated with slightly deeper water columns. Precipitation events weakened stratification, even causing short-term mixing (hours to days) in some sites. By examining a broad set of shallow waterbodies, we show that mixing regimes are highly sensitive to very small differences in size and depth, with potential implications for ecological and biogeochemical processes. Ultimately, we propose a new framework to characterize the variable mixing regimes of ponds and shallow lakes.

Contains Sensitive ContentDoes not contain sensitive content
ANZSRC Field of Research 2020379901. Earth system sciences
Byline AffiliationsCornell University, United States
Biology Department, SUNY New Paltz, United States
St. Olaf College, United States
Ducks Unlimited Canada, Canada
University of Regina, Canada
Macalester College, United States
Dundalk Institute of Technology, Ireland
Northern Prairie Wildlife Research Station, United States
University of Minnesota, United States
University of Missouri, United States
Michigan Technological University, United Sates
University of Geneva, Switzerland
Uppsala University, Sweden
Elizabethtown College, United States
Pennsylvania State University, United States
Deakin University
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