Rapid arsenite oxidation by Thermus aquaticus and Thermus thermophilus: Field and laboratory investigations

Thomas M. Gihring; Gregory K. Druschel; R. Blaine Mccleskey; Robert J. Hamers; Jillian F. Banfield

doi:10.1021/es010816f

Rapid arsenite oxidation by Thermus aquaticus and Thermus thermophilus: Field and laboratory investigations

Thomas M. Gihring, Gregory K. Druschel, R. Blaine Mccleskey, Robert J. Hamers, Jillian F. Banfield

Research output: Contribution to journal › Article › Research › peer-review

223 Citations (Scopus)

Abstract

Thermus aquaticus and Thermus thermophilus, common inhabitants of terrestrial hot springs and thermally polluted domestic and industrial waters, have been found to rapidly oxidize arsenite to arsenate. Field investigations at a hot spring in Yellowstone National Park revealed conserved total arsenic transport and rapid arsenite oxidation occurring within the drainage channel. This environment was heavily colonized by Thermus aquaticus. In laboratory experiments, arsenite oxidation by cultures of Thermus aquaticus YT1 (previously isolated from Yellowstone National Park) and Thermus thermophilus HB8 was accelerated by a factor of over 100 relative to abiotic controls. Thermus aquaticus and Thermus thermophilus may therefore play a large and previously unrecognized role in determining arsenic speciation and bioavailability in thermal environments.

Original language	English
Pages (from-to)	3857-3862
Number of pages	6
Journal	Environmental Science and Technology
Volume	35
Issue number	19
DOIs	https://doi.org/10.1021/es010816f
Publication status	Published - 1 Oct 2001
Externally published	Yes

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title = "Rapid arsenite oxidation by Thermus aquaticus and Thermus thermophilus: Field and laboratory investigations",

abstract = "Thermus aquaticus and Thermus thermophilus, common inhabitants of terrestrial hot springs and thermally polluted domestic and industrial waters, have been found to rapidly oxidize arsenite to arsenate. Field investigations at a hot spring in Yellowstone National Park revealed conserved total arsenic transport and rapid arsenite oxidation occurring within the drainage channel. This environment was heavily colonized by Thermus aquaticus. In laboratory experiments, arsenite oxidation by cultures of Thermus aquaticus YT1 (previously isolated from Yellowstone National Park) and Thermus thermophilus HB8 was accelerated by a factor of over 100 relative to abiotic controls. Thermus aquaticus and Thermus thermophilus may therefore play a large and previously unrecognized role in determining arsenic speciation and bioavailability in thermal environments.",

author = "Gihring, \{Thomas M.\} and Druschel, \{Gregory K.\} and Mccleskey, \{R. Blaine\} and Hamers, \{Robert J.\} and Banfield, \{Jillian F.\}",

year = "2001",

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TY - JOUR

T1 - Rapid arsenite oxidation by Thermus aquaticus and Thermus thermophilus

T2 - Field and laboratory investigations

AU - Gihring, Thomas M.

AU - Druschel, Gregory K.

AU - Mccleskey, R. Blaine

AU - Hamers, Robert J.

AU - Banfield, Jillian F.

PY - 2001/10/1

Y1 - 2001/10/1

N2 - Thermus aquaticus and Thermus thermophilus, common inhabitants of terrestrial hot springs and thermally polluted domestic and industrial waters, have been found to rapidly oxidize arsenite to arsenate. Field investigations at a hot spring in Yellowstone National Park revealed conserved total arsenic transport and rapid arsenite oxidation occurring within the drainage channel. This environment was heavily colonized by Thermus aquaticus. In laboratory experiments, arsenite oxidation by cultures of Thermus aquaticus YT1 (previously isolated from Yellowstone National Park) and Thermus thermophilus HB8 was accelerated by a factor of over 100 relative to abiotic controls. Thermus aquaticus and Thermus thermophilus may therefore play a large and previously unrecognized role in determining arsenic speciation and bioavailability in thermal environments.

AB - Thermus aquaticus and Thermus thermophilus, common inhabitants of terrestrial hot springs and thermally polluted domestic and industrial waters, have been found to rapidly oxidize arsenite to arsenate. Field investigations at a hot spring in Yellowstone National Park revealed conserved total arsenic transport and rapid arsenite oxidation occurring within the drainage channel. This environment was heavily colonized by Thermus aquaticus. In laboratory experiments, arsenite oxidation by cultures of Thermus aquaticus YT1 (previously isolated from Yellowstone National Park) and Thermus thermophilus HB8 was accelerated by a factor of over 100 relative to abiotic controls. Thermus aquaticus and Thermus thermophilus may therefore play a large and previously unrecognized role in determining arsenic speciation and bioavailability in thermal environments.

UR - https://www.scopus.com/pages/publications/0035477803

U2 - 10.1021/es010816f

DO - 10.1021/es010816f

M3 - Article

C2 - 11642444

AN - SCOPUS:0035477803

SN - 0013-936X

VL - 35

SP - 3857

EP - 3862

JO - Environmental Science and Technology

JF - Environmental Science and Technology

IS - 19

ER -

Rapid arsenite oxidation by Thermus aquaticus and Thermus thermophilus: Field and laboratory investigations

Abstract

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