Mineralized microbialites as archives of environmental evolution, Laguna Negra, Catamarca Province, Argentina

Buongiorno, Joy; Gómez, Fernando J.; Fike, David A.; Kah, L. C.

doi:10.1111/gbi.12327

Cited by 19 publications

(27 citation statements)

References 99 publications

(192 reference statements)

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“…This dispersion is among the highest known in the Central Andes (Figure 9) and elsewhere (Figure S3). A greater dispersion of isotope values has only been observed at Laguna Negra in Argentina (17.3% in δ 13 C; 11.3% in δ 18 O) where the amplitude results not only from temporal variations in moisture, which are recorded in microbialites (temporal amplitude varying from 4% to 11% for δ 13 C, and 3% to 8% for δ 18 O) [9], but also from spatial controls driven by the diversity of depositional environments (inlet mixing with lake, or lake alone) [9,56]. Differences in depositional environments strongly affect the isotope record, even over short distances.…”

Section: Laguna Pastos Grandes In Comparison With Other Andean Contextsmentioning

confidence: 95%

“…The strong enrichment in heavy carbon isotopes in carbonates may track the rise of CO 2 in systems influenced by volcanism, even in the quiescent stage. These abiotic processes are also enhanced by the long water residence time in perennial lakes that favors storage of heavy isotopes such as oxygen [9,43]. These values can be further amplified by photosynthesis and microbial methanogenesis activities [11].…”

Section: Laguna Pastos Grandes In Comparison With Other Andean Contextsmentioning

confidence: 99%

“…Figure 9.  18 O-13 C cross-plot comparing carbonates from Laguna Pastos Grandes (dashed line, in blue) and recent to present-day carbonates from other Andean locations, influenced by the same arid, high-altitude climate, as follows: a-Laguna Negra, Argentina[9,11]; b-Laguna Seca, Chile[3]; c1,2-Las Coladas, Argentina[4]; d1,2-Las Peladas, Argentina[4]; e-Lake Chungará, Argentina[59]; f-Laguna del Negro Francisco, Chile[3]; g-Laguna Miscanti, Chile[3]; h-Tauca and Coipasa lake highstand, Bolivia[6]; i-San Francisco, Argentina[4]; j-El Peinado[4]. Recent to present-day locations with high 13 Ccarb values suggest volcanic influence (CO2 input).…”

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Variability of Carbonate Isotope Signatures in a Hydrothermally Influenced System: Insights from the Pastos Grandes Caldera (Bolivia)

et al. 2020

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Laguna Pastos Grandes (Bolivia), nesting in a volcanic caldera, is a large, palustrine-to-lacustrine system fed by meteoric and hydrothermal calco–carbonic fluids. These different fluid inputs favor a complex mosaic of depositional environments, including hydrothermal springs, pools, and an ephemeral lake, producing abundant present-day carbonates developing over a Holocene carbonate crust dated by U–Th. Present-day carbonates (muds, concretions, and microbialites) recorded a large range of isotope variations, reaching 13.9‰ in δ13C and 11.1‰ in δ18O. Sedimentological and geochemical data indicated that the main processes influencing the isotope record were: (i) rapid CO2 degassing and temperature decreases along hydrothermal discharges; (ii) strong evaporation favored by the arid high-altitude Andean climate, locally enhanced by capillary water rise within microbial mats or by wind-induced spray falling on vadose concretions. Unlike past or present perennial lake systems in Central Andes, the short residence time of brine waters in the ephemeral central lake prevents enrichment of lacustrine carbonates in 13C and 18O. The very low fraction modern F14C in these present-day carbonates demonstrates that incorporation of fossil magmatic carbon related to the volcanic context also prevents any radiocarbon dating. The use of isotopes for the interpretation of ancient continental series should always be accompanied by a thorough characterization of the environmental setting.

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Section: Laguna Pastos Grandes In Comparison With Other Andean Contextsmentioning

confidence: 95%

Section: Laguna Pastos Grandes In Comparison With Other Andean Contextsmentioning

confidence: 99%

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Variability of Carbonate Isotope Signatures in a Hydrothermally Influenced System: Insights from the Pastos Grandes Caldera (Bolivia)

et al. 2020

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“…The evaporative lake Laguna Negra (Catamarca Province, Argentina) contains microbialites and abiogenic carbonate structures with carbonate that is highly enriched in 13 C and 18 O. These isotopic compositions have been hypothesized to arise from the interactions of microbial, geochemical, and hydrological processes, and variability in isotopic compositions across sequential laminae within individual carbonate structures have been interpreted to reflect changes in environmental conditions temporally at the lake (Buongiorno et al, 2019). However, isotopic trends are also present in the overall dataset complicating our ability to interpret the meaning of the temporal variability in the isotopic compositions preserved within individual carbonate structures.…”

Section: Introductionmentioning

confidence: 99%

Controls of extreme isotopic enrichment in modern microbialites and associated abiogenic carbonates

Beeler

Gómez

Bradley

2020

Geochimica et Cosmochimica Acta

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This is a PDF file of an article that has undergone enhancements after acceptance, such as the addition of a cover page and metadata, and formatting for readability, but it is not yet the definitive version of record. This version will undergo additional copyediting, typesetting and review before it is published in its final form, but we are providing this version to give early visibility of the article. Please note that, during the production process, errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain.

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“…Lake sediments, and carbonates in particular, preserve a variety of geochemical proxies that may be used for reconstruction of lake paleoenvironments (e.g., Newell, Jensen, Frantz, & Vanden Berg, ; Yang et al, ). Modern microbialites have been demonstrated to capture geochemical signals related to water balance variability in Laguna Negra, Argentina (Buongiorno, Gomez, Fike, & Kah, ), and microbialites from the Great Salt Lake, Utah, have been used to interpret biogeochemical fluctuations during the Pleistocene (Newell et al, ).…”

Section: Introductionmentioning

confidence: 99%

Microbially influenced lacustrine carbonates: A comparison of Late Quaternary Lahontan tufa and modern thrombolite from Fayetteville Green Lake, NY

et al. 2019

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Carbonate microbialites in lakes can serve as valuable indicators of past environments, so long as the biogenicity and depositional setting of the microbialite can be accurately determined. Late Pleistocene to Early Holocene frondose draping tufa deposits from Winnemucca Dry Lake (Nevada, USA), a subbasin of pluvial Lake Lahontan, were examined in outcrop, petrographically, and geochemically to determine whether microbially induced precipitation is a dominant control on deposition. These observations were compared to modern, actively accumulating microbialites from Fayetteville Green Lake (New York, USA) using similar methods. In addition, preserved microbial DNA was extracted from the Lahontan tufa and sequenced to provide a more complete picture of the microbial communities. Tufas are texturally and geochemically similar to modern thrombolitic microbialites from Fayetteville Green Lake, and the stable isotopic composition of organic C, N, inorganic C, and O supports deposition associated with a lacustrine microbial mat environment dominated by photosynthetic processes. DNA extraction and sequencing indicate that photosynthetic microbial builders were present during tufa deposition, primarily Chloroflexi and Proteobacteria with minor abundances of Cyanobacteria and Acidobacteria. Based on the sequencing results, the depositional environment of the tufas can be constrained to the photic zone of the lake, contrasting with some previous interpretations that put tufa formation in deeper waters. Additionally, the presence of a number of mesothermophilic phyla, including Deinococcus–Thermus, indicates that thermal groundwater may have played a role in tufa deposition at sites not previously associated with groundwater influx. The interpretation of frondose tufas as microbially influenced deposits provides new context to interpretations of lake level and past environments in the Lahontan lake basins.

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Mineralized microbialites as archives of environmental evolution, Laguna Negra, Catamarca Province, Argentina

Cited by 19 publications

References 99 publications

Variability of Carbonate Isotope Signatures in a Hydrothermally Influenced System: Insights from the Pastos Grandes Caldera (Bolivia)

Variability of Carbonate Isotope Signatures in a Hydrothermally Influenced System: Insights from the Pastos Grandes Caldera (Bolivia)

Controls of extreme isotopic enrichment in modern microbialites and associated abiogenic carbonates

Microbially influenced lacustrine carbonates: A comparison of Late Quaternary Lahontan tufa and modern thrombolite from Fayetteville Green Lake, NY

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