Methane in Lakes: Variability in Stable Carbon Isotopic Composition and the Potential Importance of Groundwater Input

Schenk, Jonathan; Sawakuchi, Henrique O.; Sieczko, Anna; Pajala, Gustav; Rudberg, David; Hagberg, Emelie; Fors, Kjell; Laudon, Hjalmar; Karlsson, Jan; Bastviken, David

doi:10.3389/feart.2021.722215

Cited by 12 publications

(5 citation statements)

References 54 publications

(77 reference statements)

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“…The resupply of deep CH 4 to the surface waters ceased upon stratification, and because the oxygenation experiment did not influence DO levels above 4.5 m depth (and there were always DO present there anyway), we found no credible mechanisms by which the oxygenation could have caused the initial REF-EXP flux difference or influenced its development. The observed δ 13 C-CH 4 values, used in the mass balance calculations, were within the ranges previously reported in northern lake studies regarding δ 13 C-CH 4 in anoxic waters near the sediments (Schenk et al, 2021;Thalasso et al, 2020), and in the DO-rich epilimnion (Schenk et al, 2021;Thottathil et al, 2019). Accordingly, the results of f MOX were also similar to previous studies, for example, Bastviken et al (2002).…”

Section: Discussionsupporting

confidence: 89%

“…The final degradation step under such conditions is methanogenesis by methanogenic Archaea (Rudd & Hamilton, 1978; Zeikus & Winfrey, 1976). This process occurs within lake sediments and is considered to contribute most of the lake CH 4 , although groundwater input may also add some CH 4 (Dabrowski et al., 2020; Einarsdottir et al., 2017; Lecher et al., 2017; Olid et al., 2022; Schenk et al., 2021), and there is an ongoing debate regarding the extent of oxic CH 4 production in oxygenated surface lake water (Günthel et al., 2019; Peeters et al., 2019). Some of the CH 4 produced in lakes is emitted to the atmosphere through ebullition, that is, rapid and episodic release of bubbles forming in the sediments where CH 4 production creates an oversaturation in CH 4 (Aben et al., 2017; Bastviken et al., 2004; Wik et al., 2013).…”

Section: Introductionmentioning

confidence: 99%

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The Effects of Water Column Dissolved Oxygen Concentrations on Lake Methane Emissions—Results From a Whole‐Lake Oxygenation Experiment

Pajala,

Sawakuchi,

Rudberg

et al. 2023

JGR Biogeosciences

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Lakes contribute 9%–19% of global methane (CH4) emissions to the atmosphere. Dissolved molecular oxygen (DO) in lakes can inhibit the production of CH4 and promote CH4 oxidation. DO is therefore often considered an important regulator of CH4 emissions from lakes. Presence or absence of DO in the water above the sediments can affect CH4 production and emissions by (a) influencing if methane production can be fueled by the most reactive organic matter in the top sediment layer or rely on deeper and less degradable organic matter, and (b) enabling CH4 accumulation in deep waters and potentially large emissions upon water column turnover. However, the relative importance of these two DO effects on CH4 fluxes is still unclear. We assessed CH4 fluxes from two connected lake basins in northern boreal Sweden where one was experimentally oxygenated. Results showed no clear difference in summer CH4 emissions attributable to water column DO concentrations. Large amounts of CH4 accumulated in the anoxic hypolimnion of the reference basin but little of this may have been emitted because of incomplete mixing, and effective methane oxidation of stored CH4 reaching oxic water layers. Accordingly, ≤24% of the stored CH4 was likely emitted in the experimental lake. Overall, our results suggest that hypolimnetic DO and water column CH4 storage might have a smaller impact on CH4 emissions in boreal forest lakes than previous estimates, yet potential fluxes associated with water column turnover events remain a significant uncertainty in lake CH4 emission estimates.

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Section: Discussionsupporting

confidence: 89%

Section: Introductionmentioning

confidence: 99%

The Effects of Water Column Dissolved Oxygen Concentrations on Lake Methane Emissions—Results From a Whole‐Lake Oxygenation Experiment

Pajala,

Sawakuchi,

Rudberg

et al. 2023

JGR Biogeosciences

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“…The data are comparable to the latest studies on boreal lakes and wetlands (Thompson et al 2016;Schenk et al 2021). However, in the study performed by Schenk et al (2021), isotopic ratios of CH 4 in deeper sediments were consistent with mixing/transition between CH 4 production pathways, indicating a higher contribution of the CO 2 reduction pathway. The study further indicates that the isotopic composition of CH 4 sources is consistently higher in littoral sediments than in deep waters across boreal and subarctic lakes.…”

Section: Discussionsupporting

confidence: 88%

“…Methanogenesis produced CH 4 with δ 13 C CH4 and δ 2 H CH4 values corresponding predominantly to acetotrophic methanogenesis (Whiticar 1999). The data are comparable to the latest studies on boreal lakes and wetlands (Thompson et al 2016;Schenk et al 2021). However, in the study performed by Schenk et al (2021), isotopic ratios of CH 4 in deeper sediments were consistent with mixing/transition between CH 4 production pathways, indicating a higher contribution of the CO 2 reduction pathway.…”

Section: Discussionsupporting

confidence: 76%

Methane and CO2 production in the wetland Lake Podpeč (Slovenia)

Ogrinc,

Šegedin,

Faganeli

2023

J Soils Sediments

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Purpose This study deals with the identification of CH4 and CO2 sources in the high-carbonate wetland Lake Podpeč in the Ljubljana Marshes, Slovenia. Materials and methods Lake Podpeč is situated on the periphery of the Ljubljana Marshes in central Slovenia. A combination of chemical analysis and natural abundance analysis of stable carbon and hydrogen isotopes of CH4, along with analysis of dissolved inorganic carbon (DIC), was employed in an incubation experiment. Results and discussion The isotopic composition of dissolved inorganic carbon (δ13CDIC) suggests three main processes occurring during incubation: oxic degradation of organic matter (OM), anoxic OM degradation, and methanogenesis. During oxic degradation of OM, the δ13CDIC values slightly decrease from − 13.2 to − 14.5‰. However, after 50 days, the δ13CDIC values started to increase, reaching − 12.2‰ by the end of the experiment. 13C enrichment coincided with the formation of CH4, which began to increase simultaneously. The CH4 produced had an average δ13CCH4 value of − 67 ± 1‰ and δ2HCH4 value of − 389 ± 3‰, suggesting that CH4 is formed through acetate fermentation. The contribution of calcite dissolution to DIC increased during the degradation of OM by 53%. However, during methanogenesis, there was no significant change in the concentrations of Ca, and the estimated contribution to DIC was only 3%. Conclusions This study enhances our understanding of methane production in wetland Lake Podpeč and its relevance in the context of other high-carbonate lakes. The findings offer insights into the complex interactions between OM degradation, methane production pathways, and carbonate dissolution, which has implications for the global carbon cycle and greenhouse gas emissions.

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“…On the other hand, the rye grain used as sample for 14 C dating could have suffered from an unidentified process which caused a depletion of the heavy isotopes of carbon. One possible explanation is that the decomposition of the tissue by methanogenic bacteria (Schenk et al 2021) may have occurred in an anaerobic environment, such as during flooding or due to the preservation of the sample itself. Also, the decomposition process could alter the 14 C composition by adding younger carbon.…”

Section: Isotopic Results Are Shown Inmentioning

confidence: 99%

Revisiting Archived Rye Grains Discovered at the Neolithic Site Cuneşti (Romania)

et al. 2023

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Direct accelerator mass spectrometry (AMS) dating is crucial for a correct integration of plant remains in the (pre)history of crops, particularly for those that do not belong to the Neolithic package and are known to arrive in Europe much later. This paper reviews one of the earliest records of rye from Romania. The grains were discovered in the tell settlement of Cunești, which belongs to the Gumelnița communities (ca. 4600–3900 BC). In 1954, due to Danube flooding, a large portion of the south part of the tell collapsed, and between the burnt dwelling visible in the resulting profile, a large number of sherds from three typical Gumelnița pots were identified. According to the excavation’s author, rye grains were found in association with those sherds, and it was assumed that a batch was stored in these Eneolithic vessels. Consequently, the rye was published as belonging to the Gumelnița period. Our reanalysis led to two radiocarbon (14C) dates, from two different laboratories, which indicate that the Cunești rye is not prehistoric but dates to the medieval period. To correct this error concerning this rye batch and the implications for European archaeology, we decided to republish these grains in an updated chronological framework. In addition, we performed stable isotope analyses on the charred grains, confirming they were cultivated on dry land, as well as a 3D morphometric investigation. Our research brings new and original data on rye cultures from the medieval period in southeastern Europe.

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Methane in Lakes: Variability in Stable Carbon Isotopic Composition and the Potential Importance of Groundwater Input

Cited by 12 publications

References 54 publications

The Effects of Water Column Dissolved Oxygen Concentrations on Lake Methane Emissions—Results From a Whole‐Lake Oxygenation Experiment

The Effects of Water Column Dissolved Oxygen Concentrations on Lake Methane Emissions—Results From a Whole‐Lake Oxygenation Experiment

Methane and CO2 production in the wetland Lake Podpeč (Slovenia)

Revisiting Archived Rye Grains Discovered at the Neolithic Site Cuneşti (Romania)

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