Deep seafloor hydrothermal vent communities buried by volcanic ash from the 2022 Hunga eruption

Roxanne A. Beinart; Shawn M. Arellano; Marcus Chaknova; Jasper Meagher; Andrew J. Davies; Joseph Lopresti; Emily J. Cowell; Melissa Betters; Tanika M. Ladd; Caitlin Q. Plowman; Lauren N. Rice; Dexter Davis; Maia Heffernan; Vanessa Jimenez; Tessa Beaver; Johann Becker; Sebastien Bergen; Livia Brunner; Avery Calhoun; Michelle Hauer; Aubrey Taradash; Thomas Giachetti; Craig M. Young

doi:10.1038/s43247-024-01411-w

Deep seafloor hydrothermal vent communities buried by volcanic ash from the 2022 Hunga eruption

Roxanne A. Beinart, Shawn M. Arellano, Marcus Chaknova, Jasper Meagher, Andrew J. Davies, Joseph Lopresti, Emily J. Cowell, Melissa Betters, Tanika M. Ladd, Caitlin Q. Plowman, Lauren N. Rice, Dexter Davis, Maia Heffernan, Vanessa Jimenez, Tessa Beaver, Johann Becker, Sebastien Bergen, Livia Brunner, Avery Calhoun, Michelle HauerAubrey Taradash, Thomas Giachetti, Craig M. Young

Biology

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

Abstract

Mass mortality of marine animals due to volcanic ash deposition is present in the fossil record but has rarely been documented in real time. Here, using remotely-operated vehicle video footage and analysis of ash collected at the seafloor, we describe the devastating effect of the record-breaking 2022 Hunga submarine volcanic eruption on endangered and vulnerable snail and mussel species that previously thrived at nearby deep-sea hydrothermal vents. In contrast to grazing, scavenging, filter-feeding, and predatory vent taxa, we observed mass mortality, likely due to smothering during burial by thick ash deposits, of the foundation species, which rely on symbiotic chemosynthetic bacteria for the bulk of their nutrition. This is important for our broad understanding of the natural disturbance of marine ecosystems by volcanic eruptions and for predicting the effects of anthropogenic disturbance, like deep-sea mining, on these unique seafloor habitats.

Original language	English
Article number	254
Journal	Communications Earth and Environment
Volume	5
Issue number	1
DOIs	https://doi.org/10.1038/s43247-024-01411-w
State	Published - Dec 2024

ASJC Scopus Subject Areas

General Environmental Science
General Earth and Planetary Sciences

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Beinart, R. A., Arellano, S. M., Chaknova, M., Meagher, J., Davies, A. J., Lopresti, J., Cowell, E. J., Betters, M., Ladd, T. M., Plowman, C. Q., Rice, L. N., Davis, D., Heffernan, M., Jimenez, V., Beaver, T., Becker, J., Bergen, S., Brunner, L., Calhoun, A., ... Young, C. M. (2024). Deep seafloor hydrothermal vent communities buried by volcanic ash from the 2022 Hunga eruption. Communications Earth and Environment, 5(1), Article 254. https://doi.org/10.1038/s43247-024-01411-w

Beinart, RA, Arellano, SM, Chaknova, M, Meagher, J, Davies, AJ, Lopresti, J, Cowell, EJ, Betters, M, Ladd, TM, Plowman, CQ, Rice, LN, Davis, D, Heffernan, M, Jimenez, V, Beaver, T, Becker, J, Bergen, S, Brunner, L, Calhoun, A, Hauer, M, Taradash, A, Giachetti, T & Young, CM 2024, 'Deep seafloor hydrothermal vent communities buried by volcanic ash from the 2022 Hunga eruption', Communications Earth and Environment, vol. 5, no. 1, 254. https://doi.org/10.1038/s43247-024-01411-w

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abstract = "Mass mortality of marine animals due to volcanic ash deposition is present in the fossil record but has rarely been documented in real time. Here, using remotely-operated vehicle video footage and analysis of ash collected at the seafloor, we describe the devastating effect of the record-breaking 2022 Hunga submarine volcanic eruption on endangered and vulnerable snail and mussel species that previously thrived at nearby deep-sea hydrothermal vents. In contrast to grazing, scavenging, filter-feeding, and predatory vent taxa, we observed mass mortality, likely due to smothering during burial by thick ash deposits, of the foundation species, which rely on symbiotic chemosynthetic bacteria for the bulk of their nutrition. This is important for our broad understanding of the natural disturbance of marine ecosystems by volcanic eruptions and for predicting the effects of anthropogenic disturbance, like deep-sea mining, on these unique seafloor habitats.",

author = "Beinart, {Roxanne A.} and Arellano, {Shawn M.} and Marcus Chaknova and Jasper Meagher and Davies, {Andrew J.} and Joseph Lopresti and Cowell, {Emily J.} and Melissa Betters and Ladd, {Tanika M.} and Plowman, {Caitlin Q.} and Rice, {Lauren N.} and Dexter Davis and Maia Heffernan and Vanessa Jimenez and Tessa Beaver and Johann Becker and Sebastien Bergen and Livia Brunner and Avery Calhoun and Michelle Hauer and Aubrey Taradash and Thomas Giachetti and Young, {Craig M.}",

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doi = "10.1038/s43247-024-01411-w",

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AU - Beinart, Roxanne A.

AU - Arellano, Shawn M.

AU - Chaknova, Marcus

AU - Meagher, Jasper

AU - Davies, Andrew J.

AU - Lopresti, Joseph

AU - Cowell, Emily J.

AU - Betters, Melissa

AU - Ladd, Tanika M.

AU - Plowman, Caitlin Q.

AU - Rice, Lauren N.

AU - Davis, Dexter

AU - Heffernan, Maia

AU - Jimenez, Vanessa

AU - Beaver, Tessa

AU - Becker, Johann

AU - Bergen, Sebastien

AU - Brunner, Livia

AU - Calhoun, Avery

AU - Hauer, Michelle

AU - Taradash, Aubrey

AU - Giachetti, Thomas

AU - Young, Craig M.

PY - 2024/12

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N2 - Mass mortality of marine animals due to volcanic ash deposition is present in the fossil record but has rarely been documented in real time. Here, using remotely-operated vehicle video footage and analysis of ash collected at the seafloor, we describe the devastating effect of the record-breaking 2022 Hunga submarine volcanic eruption on endangered and vulnerable snail and mussel species that previously thrived at nearby deep-sea hydrothermal vents. In contrast to grazing, scavenging, filter-feeding, and predatory vent taxa, we observed mass mortality, likely due to smothering during burial by thick ash deposits, of the foundation species, which rely on symbiotic chemosynthetic bacteria for the bulk of their nutrition. This is important for our broad understanding of the natural disturbance of marine ecosystems by volcanic eruptions and for predicting the effects of anthropogenic disturbance, like deep-sea mining, on these unique seafloor habitats.

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Deep seafloor hydrothermal vent communities buried by volcanic ash from the 2022 Hunga eruption

Abstract

ASJC Scopus Subject Areas

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