Methane bubbles in Lake Kinneret: Quantification and temporal and spatial heterogeneity

Ostrovsky, Ilia

doi:10.4319/lo.2003.48.3.1030

Cited by 80 publications

(64 citation statements)

References 17 publications

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“…The highest input of organic matter into the profundal sediment occurs during the decline of this bloom between May and July (Pollingher 1986). Subsequently (July-November), high CH 4 emission from the profundal sediment is observed (Ostrovsky 2003). The increase in CH 4 bubbling intensity is probably triggered by the settling of organic matter onto the sediment (Eckert and Conrad 2007), similarly as observed in Lake Constance (Schulz and Conrad 1995).…”

mentioning

confidence: 66%

Response of the methanogenic microbial community of a profundal lake sediment (Lake Kinneret, Israel) to algal deposition

Schwarz

Eckert

Conrad

2008

Limnology & Oceanography

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An algal bloom of Peridinium gatunenese generally precedes the annual maximum of methane release from the profundal sediment of Lake Kinneret. Therefore, we investigated the response of the sediment methanogenic microbial community to simulated algal deposition. Addition of algal biomass on top of sediment cores resulted in increased CH 4 production rates and concentrations of the fermentation products acetate and propionate in the upper 4-cm layers with maximum values at 1-cm depth. Addition of algae to sediment slurries also resulted in increased CH 4 production rates and a transient increase of H 2 , propionate, and acetate concentrations within the first 10 d after addition. The composition of the active microbial community was determined by analysis of terminal restriction fragment polymorphism (T-RFLP) targeting ribosomal RNA and cloning and sequencing of reverse-transcribed 16S rRNA. Analysis of the sediment in the presence and absence of algae indicated that among the Bacteria, members of Deltaproteobacteria and Clostridiales responded by synthesis of ribosomes after 1 d of incubation and those of Bacteroidetes after 6 d. Among the Archaea, ribosomal RNA of the Methanosaetaceae (i.e., acetate-utilizing methanogens) slightly increased after 6 d. Algal deposition apparently stimulated ribosomal synthesis in these sediment microorganisms, thus resulting in increased activity. We conclude that these microorganisms were involved in degradation of the algal biomass resulting in transient release of acetate and other fermentation products and increased production of CH 4 .

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mentioning

confidence: 66%

Response of the methanogenic microbial community of a profundal lake sediment (Lake Kinneret, Israel) to algal deposition

Schwarz

Eckert

Conrad

2008

Limnology & Oceanography

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“…S1), where they do not disrupt the surrounding laminae. The degradation of organic matter by methanogenic microbes can produce bubbles at large depths (16) that, coupled with methanotrophy, can lead to the precipitation of large-scale carbonate structures with central vents. These carbonate structures differ from conical stromatolites because Multiple pores surrounded by cyanobacterial filaments were present in the series of successive thick sections, confirming that the porosity was not an artifact.…”

Section: Discussionmentioning

confidence: 99%

Morphological record of oxygenic photosynthesis in conical stromatolites

Bosak

Liang

Sim

et al. 2009

Proc. Natl. Acad. Sci. U.S.A.

147

123

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Conical stromatolites are thought to be robust indicators of the presence of photosynthetic and phototactic microbes in aquatic environments as early as 3.5 billion years ago. However, phototaxis alone cannot explain the ubiquity of disrupted, curled, and contorted laminae in the crests of many Mesoproterozoic, Paleoproterozoic, and some Archean conical stromatolites. Here, we demonstrate that cyanobacterial production of oxygen in the tips of modern conical aggregates creates contorted laminae and submillimeter-to-millimeter-scale enmeshed bubbles. Similarly sized fossil bubbles and contorted laminae may be present only in the crestal zones of some conical stromatolites 2.7 billion years old or younger. This implies not only that cyanobacteria built Proterozoic conical stromatolites but also that fossil bubbles may constrain the timing of the evolution of oxygenic photosynthesis.

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“…Ebullition is a difficult process to quantify, because it is highly variable at several temporal and spatial scales (FechnerLevy and Hemond 1996;Ostrovsky 2003;Leifer et al 2004;Walter et al 2006). Considerable amounts of gas are often emitted during occasional, short-lived bubbling episodes.…”

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confidence: 99%

A low‐cost automated trap to measure bubbling gas fluxes

Varadharajan

Hermosillo

Hemond

2010

Limnology & Ocean Methods

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We describe a trap that can be used for automated, high temporal resolution measurement of ebullition fluxes in aquatic environments. The trap comprises a submerged cone connected to a transparent PVC pipe that serves as a collection chamber. A differential pressure sensor at the top of the pipe measures the pressure caused by gas accumulation in the chamber. The sensor circuit consists of low-power electronics and can function for longer than 6 months on two high-capacity AA lithium batteries. The circuit, batteries, and a commercial data logger that records the measurements are enclosed in a custom-made, 10-cm diameter waterproof housing. The trap is designed to be fabricated economically and easily so that many units can be deployed for greater spatial coverage. We have used several of these automated traps to measure bubbling fluxes at a lake, and have collected data continuously at a resolution of 5 or 10 min over 6 months.

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Methane bubbles in Lake Kinneret: Quantification and temporal and spatial heterogeneity

Cited by 80 publications

References 17 publications

Response of the methanogenic microbial community of a profundal lake sediment (Lake Kinneret, Israel) to algal deposition

Response of the methanogenic microbial community of a profundal lake sediment (Lake Kinneret, Israel) to algal deposition

Morphological record of oxygenic photosynthesis in conical stromatolites

A low‐cost automated trap to measure bubbling gas fluxes

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