Environmental Research Letters (Jan 2023)

Diel, seasonal, and inter-annual variation in carbon dioxide effluxes from lakes and reservoirs

  • Malgorzata Golub,
  • Nikaan Koupaei-Abyazani,
  • Timo Vesala,
  • Ivan Mammarella,
  • Anne Ojala,
  • Gil Bohrer,
  • Gesa A Weyhenmeyer,
  • Peter D Blanken,
  • Werner Eugster,
  • Franziska Koebsch,
  • Jiquan Chen,
  • Kevin Czajkowski,
  • Chandrashekhar Deshmukh,
  • Frederic Guérin,
  • Jouni Heiskanen,
  • Elyn Humphreys,
  • Anders Jonsson,
  • Jan Karlsson,
  • George Kling,
  • Xuhui Lee,
  • Heping Liu,
  • Annalea Lohila,
  • Erik Lundin,
  • Tim Morin,
  • Eva Podgrajsek,
  • Maria Provenzale,
  • Anna Rutgersson,
  • Torsten Sachs,
  • Erik Sahlée,
  • Dominique Serça,
  • Changliang Shao,
  • Christopher Spence,
  • Ian B Strachan,
  • Wei Xiao,
  • Ankur R Desai

DOI
https://doi.org/10.1088/1748-9326/acb834
Journal volume & issue
Vol. 18, no. 3
p. 034046

Abstract

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Accounting for temporal changes in carbon dioxide (CO _2 ) effluxes from freshwaters remains a challenge for global and regional carbon budgets. Here, we synthesize 171 site-months of flux measurements of CO _2 based on the eddy covariance method from 13 lakes and reservoirs in the Northern Hemisphere, and quantify dynamics at multiple temporal scales. We found pronounced sub-annual variability in CO _2 flux at all sites. By accounting for diel variation, only 11% of site-months were net daily sinks of CO _2 . Annual CO _2 emissions had an average of 25% (range 3%–58%) interannual variation. Similar to studies on streams, nighttime emissions regularly exceeded daytime emissions. Biophysical regulations of CO _2 flux variability were delineated through mutual information analysis. Sample analysis of CO _2 fluxes indicate the importance of continuous measurements. Better characterization of short- and long-term variability is necessary to understand and improve detection of temporal changes of CO _2 fluxes in response to natural and anthropogenic drivers. Our results indicate that existing global lake carbon budgets relying primarily on daytime measurements yield underestimates of net emissions.

Keywords