Giant, highly diverse protists in the abyssal Pacific: vulnerability to impacts from seabed mining and potential for recovery
Xenophyophores, giant deep-sea agglutinated foraminifera, dominate the benthic megafauna in the eastern equatorial Pacific Clarion-Clipperton Zone. This abyssal (>4000 m depth) region hosts major deposits of polymetallic nodules targeted for future seabed mining, an activity that would destroy th...
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Taylor & Francis Group
2020-01-01
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| Series: | Communicative & Integrative Biology |
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| Online Access: | http://dx.doi.org/10.1080/19420889.2020.1843818 |
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doaj-07a951e8f8514faaa325362c780abd562021-02-08T14:09:14ZengTaylor & Francis GroupCommunicative & Integrative Biology1942-08892020-01-0113118919710.1080/19420889.2020.18438181843818Giant, highly diverse protists in the abyssal Pacific: vulnerability to impacts from seabed mining and potential for recoveryAndrew J. Gooday0Jennifer M. Durden1Craig R. Smith2National Oceanography CentreNational Oceanography CentreSchool of Ocean and Earth Science and Technology, University of Hawai‘i at MañoaXenophyophores, giant deep-sea agglutinated foraminifera, dominate the benthic megafauna in the eastern equatorial Pacific Clarion-Clipperton Zone. This abyssal (>4000 m depth) region hosts major deposits of polymetallic nodules targeted for future seabed mining, an activity that would destroy these highly diverse and delicate protists, particularly those living on the nodules themselves. Since the cell occupies only a small proportion of their test volume, xenophyophores may make a fairly modest contribution to benthic biomass and carbon cycling. Nevertheless, xenophyophore tests can passively enhance particle deposition, concentrate food, and provide habitat structure utilized by diverse organisms. Their destruction could therefore influence the recovery of benthic communities. Species requiring nodule substrates will likely not recover, since nodules take millions of years to form. However, xenophyophores can grow quickly and colonize extensive volcanic ash deposits within years, suggesting that sediment-dwelling species could be among the first large immobile organisms to reappear in mining-impacted areas.http://dx.doi.org/10.1080/19420889.2020.1843818xenophyophoresforaminiferapolymetallic noduleshabitat heterogeneityecosystem recovery |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Andrew J. Gooday Jennifer M. Durden Craig R. Smith |
| spellingShingle |
Andrew J. Gooday Jennifer M. Durden Craig R. Smith Giant, highly diverse protists in the abyssal Pacific: vulnerability to impacts from seabed mining and potential for recovery Communicative & Integrative Biology xenophyophores foraminifera polymetallic nodules habitat heterogeneity ecosystem recovery |
| author_facet |
Andrew J. Gooday Jennifer M. Durden Craig R. Smith |
| author_sort |
Andrew J. Gooday |
| title |
Giant, highly diverse protists in the abyssal Pacific: vulnerability to impacts from seabed mining and potential for recovery |
| title_short |
Giant, highly diverse protists in the abyssal Pacific: vulnerability to impacts from seabed mining and potential for recovery |
| title_full |
Giant, highly diverse protists in the abyssal Pacific: vulnerability to impacts from seabed mining and potential for recovery |
| title_fullStr |
Giant, highly diverse protists in the abyssal Pacific: vulnerability to impacts from seabed mining and potential for recovery |
| title_full_unstemmed |
Giant, highly diverse protists in the abyssal Pacific: vulnerability to impacts from seabed mining and potential for recovery |
| title_sort |
giant, highly diverse protists in the abyssal pacific: vulnerability to impacts from seabed mining and potential for recovery |
| publisher |
Taylor & Francis Group |
| series |
Communicative & Integrative Biology |
| issn |
1942-0889 |
| publishDate |
2020-01-01 |
| description |
Xenophyophores, giant deep-sea agglutinated foraminifera, dominate the benthic megafauna in the eastern equatorial Pacific Clarion-Clipperton Zone. This abyssal (>4000 m depth) region hosts major deposits of polymetallic nodules targeted for future seabed mining, an activity that would destroy these highly diverse and delicate protists, particularly those living on the nodules themselves. Since the cell occupies only a small proportion of their test volume, xenophyophores may make a fairly modest contribution to benthic biomass and carbon cycling. Nevertheless, xenophyophore tests can passively enhance particle deposition, concentrate food, and provide habitat structure utilized by diverse organisms. Their destruction could therefore influence the recovery of benthic communities. Species requiring nodule substrates will likely not recover, since nodules take millions of years to form. However, xenophyophores can grow quickly and colonize extensive volcanic ash deposits within years, suggesting that sediment-dwelling species could be among the first large immobile organisms to reappear in mining-impacted areas. |
| topic |
xenophyophores foraminifera polymetallic nodules habitat heterogeneity ecosystem recovery |
| url |
http://dx.doi.org/10.1080/19420889.2020.1843818 |
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AT andrewjgooday gianthighlydiverseprotistsintheabyssalpacificvulnerabilitytoimpactsfromseabedminingandpotentialforrecovery AT jennifermdurden gianthighlydiverseprotistsintheabyssalpacificvulnerabilitytoimpactsfromseabedminingandpotentialforrecovery AT craigrsmith gianthighlydiverseprotistsintheabyssalpacificvulnerabilitytoimpactsfromseabedminingandpotentialforrecovery |
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