Your search keyword '"Barnes, Ben Davis"' showing total 4 results

1. A re‐examination of the mechanism of whiting events: A new role for diatoms in Fayetteville Green Lake (New York, USA )

Author

Stanton, Chloe, primary, Barnes, Ben Davis, additional, Kump, Lee R., additional, and Cosmidis, Julie, additional

Published

2022

2. Sulfur cycling at natural hydrocarbon and sulfur seeps in Santa Paula Creek, CA

Author

Aronson, Heidi S., Monteverde, Danielle R., Barnes, Ben Davis, Johnson, Brooke R., Zawaski, Mike J., Speth, Daan R., Wang, Xingchen Tony, Wu, Fenfang, Webb, Samuel M., Trower, Elizabeth J., Magyar, John S., Sessions, Alex L., Orphan, Victoria J., Fischer, Woodward W., Aronson, Heidi S., Monteverde, Danielle R., Barnes, Ben Davis, Johnson, Brooke R., Zawaski, Mike J., Speth, Daan R., Wang, Xingchen Tony, Wu, Fenfang, Webb, Samuel M., Trower, Elizabeth J., Magyar, John S., Sessions, Alex L., Orphan, Victoria J., and Fischer, Woodward W.

Abstract

Biogeochemical cycling of sulfur is relatively understudied in terrestrial environments compared to marine environments. However, the comparative ease of access, observation, and sampling of terrestrial settings can expand our understanding of organisms and processes important in the modern sulfur cycle. Furthermore, these sites may allow for the discovery of useful process analogs for ancient sulfur-metabolizing microbial communities at times in Earth's past when atmospheric O2 concentrations were lower and sulfide was more prevalent in Earth surface environments. We identified a new site at Santa Paula Creek (SPC) in Ventura County, CA—a remarkable freshwater, gravel-bedded mountain stream charged with a range of oxidized and reduced sulfur species and heavy hydrocarbons from the emergence of subsurface fluids within the underlying sulfur- and organic-rich Miocene-age Monterey Formation. SPC hosts a suite of morphologically distinct microbial biofacies that form in association with the naturally occurring hydrocarbon seeps and sulfur springs. We characterized the geology, stream geochemistry, and microbial facies and diversity of the Santa Paula Creek ecosystem. Using geochemical analyses and 16S rRNA gene sequencing, we found that SPC supports a dynamic sulfur cycle that is largely driven by sulfide-oxidizing microbial taxa, with contributions from smaller populations of sulfate-reducing and sulfur-disproportionating taxa. This preliminary characterization of SPC revealed an intriguing site in which to study geological and geochemical controls on microbial community composition and to expand our understanding of sulfur cycling in terrestrial environments.

Published

2022

3. A re‐examination of the mechanism of whiting events: A new role for diatoms in Fayetteville Green Lake (New York, USA).

Author

Stanton, Chloe, Barnes, Ben Davis, Kump, Lee R., and Cosmidis, Julie

Subjects

*CALCIUM carbonate, *DIATOMS, *SCANNING transmission electron microscopy, *DIATOM frustules, *WATER meters, *X-ray microscopy

Abstract

Whiting events—the episodic precipitation of fine‐grained suspended calcium carbonates in the water column—have been documented across a variety of marine and lacustrine environments. Whitings likely are a major source of carbonate muds, a constituent of limestones, and important archives for geochemical proxies of Earth history. While several biological and physical mechanisms have been proposed to explain the onset of these precipitation events, no consensus has been reached thus far. Fayetteville Green Lake (New York, USA) is a meromictic lake that experiences annual whitings. Materials suspended in the water column collected through the whiting season were characterized using scanning electron microscopy and scanning transmission X‐ray microscopy. Whitings in Fayetteville Green Lake are initiated in the spring within the top few meters of the water column, by precipitation of fine amorphous calcium carbonate (ACC) phases nucleating on microbial cells, as well as on abundant extracellular polymeric substances (EPS) frequently associated with centric diatoms. Whiting particles found in the summer consist of 5–7 μm calcite grains forming aggregates with diatoms and EPS. Simple calculations demonstrate that calcite particles continuously grow over several days, then sink quickly through the water column. In the late summer, partial calcium carbonate dissolution is observed deeper in the water column. Settling whiting particles, however, reach the bottom of the lake, where they form a major constituent of the sediment, along with diatom frustules. The role of diatoms and associated EPS acting as nucleation surfaces for calcium carbonates is described for the first time here as a potential mechanism participating in whitings at Fayetteville Green Lake. This mechanism may have been largely overlooked in other whiting events in modern and ancient environments. [ABSTRACT FROM AUTHOR]

Published

2023

4. Sulfur cycling at natural hydrocarbon and sulfur seeps in Santa Paula Creek, CA.

Author

Aronson HS, Monteverde DR, Barnes BD, Johnson BR, Zawaski MJ, Speth DR, Wang XT, Wu F, Webb SM, Trower EJ, Magyar JS, Sessions AL, Orphan VJ, and Fischer WW

Subjects

California, Hydrocarbons, Phylogeny, RNA, Ribosomal, 16S genetics, Sulfides, Microbiota, Sulfur

Abstract

Biogeochemical cycling of sulfur is relatively understudied in terrestrial environments compared to marine environments. However, the comparative ease of access, observation, and sampling of terrestrial settings can expand our understanding of organisms and processes important in the modern sulfur cycle. Furthermore, these sites may allow for the discovery of useful process analogs for ancient sulfur-metabolizing microbial communities at times in Earth's past when atmospheric O 2 concentrations were lower and sulfide was more prevalent in Earth surface environments. We identified a new site at Santa Paula Creek (SPC) in Ventura County, CA-a remarkable freshwater, gravel-bedded mountain stream charged with a range of oxidized and reduced sulfur species and heavy hydrocarbons from the emergence of subsurface fluids within the underlying sulfur- and organic-rich Miocene-age Monterey Formation. SPC hosts a suite of morphologically distinct microbial biofacies that form in association with the naturally occurring hydrocarbon seeps and sulfur springs. We characterized the geology, stream geochemistry, and microbial facies and diversity of the Santa Paula Creek ecosystem. Using geochemical analyses and 16S rRNA gene sequencing, we found that SPC supports a dynamic sulfur cycle that is largely driven by sulfide-oxidizing microbial taxa, with contributions from smaller populations of sulfate-reducing and sulfur-disproportionating taxa. This preliminary characterization of SPC revealed an intriguing site in which to study geological and geochemical controls on microbial community composition and to expand our understanding of sulfur cycling in terrestrial environments., (© 2022 John Wiley & Sons Ltd.)

Published

2022