Litcius/Paper detail

In situ flux estimates reveal large variations in methane flux across the bottom boundary layer of a eutrophic lake

Sofia D'Ambrosio, Stephen M. Henderson, Jeffrey R. Nielson, John A. Harrison

2022Limnology and Oceanography11 citationsDOIOpen Access PDF

Abstract

Abstract Methane (CH 4 ) produced in anoxic sediments plays a significant role in the carbon economy of many lakes and reservoirs. CH 4 released from sediments first crosses the bottom boundary layer (BBL), the layer of water overlying the lakebed where currents are slowed by friction with the sediments below. Physical and biogeochemical conditions in the BBL, which can fluctuate hourly to daily with basin‐wide internal waves (seiches), likely influence CH 4 transport from sediments into the hypolimnion. In this study, we estimated CH 4 fluxes across the BBL of a eutrophic lake using a novel in situ flux gradient approach adapted from marine applications. For 2–6 h periods throughout the spring and summer, we estimated CH 4 fluxes across the BBL using simultaneous measurements of CH 4 concentrations, turbulent mixing, and thermal stratification. Sub‐daily variation in CH 4 fluxes was high, and CH 4 fluxes sometimes changed several‐fold within hours. These rapid shifts in BBL fluxes were likely influenced by fluctuations in seiche‐driven variations in the intensity of BBL turbulent mixing. Fluxes increased from spring to summer, concurrent with the development of lake stratification, and fueled an accumulation of CH 4 below the thermocline. Throughout the summer, CH 4 flux across the BBL exceeded CH 4 accumulation below the thermocline, suggesting significant methanotrophy in the hypolimnion, consistent with incubation‐based oxidation rates. Our results are the first to demonstrate sub‐daily and seasonal variability in the timing and magnitude of CH 4 fluxes within a lake BBL, and highlight a need to quantify such variability in other lentic systems.

Topics & Concepts

HypolimnionThermoclineSeicheEpilimnionFlux (metallurgy)EutrophicationStratification (seeds)Anoxic watersGeologyBiogeochemical cycleOceanographyEnvironmental scienceBottom waterAtmospheric sciencesEnvironmental chemistryChemistryBiologySeed dormancyOrganic chemistryGerminationBotanyNutrientDormancyMarine and coastal ecosystemsAtmospheric and Environmental Gas DynamicsOceanographic and Atmospheric Processes