Negative effects by mineral accretion technique on the heat resilience, growth and recruitment of corals
Restoration and artificial reefs can assist the recovery of degraded reefs but are limited in scalability and climate resilience. The Mineral Accretion Technique (MAT) subjects metal artificial reefs to a low-voltage electrical current, thereby creating a calcium-carbonate coating. It has been suggested that corals on MAT structures experience enhanced health and growth. However, prior studies report conflicting results potentially due to different conditions, species and approaches used. We investigated how MAT influences the bleaching resilience, condition and growth of four coral species and natural coral recruitment in Kenya. Coral fragments were outplanted on charged iron tables using commonly-applied settings (6 V; 0.84 A m-2). After one month, when all tables had acquired a calcium-carbonate coating, half of the tables were taken off electricity to serve as controls. Both treatments (MAT and Control) were monitored on coral brightness, condition (live tissue cover), growth and natural recruitment for one year, during which a marine heatwave occurred. Coral bleaching was significantly more severe on MAT for all studied species. For three species, coral condition dropped sharply during the heatwave and this decline was faster and more severe on MAT. Coral growth was reduced during the heatwave for all corals and remained low for one species on MAT. After one year, the Control harboured 34 coral recruits, whereas none were found on MAT. Thus, while MAT can be useful to prevent corrosion of metal artificial reefs, we do not recommend MAT as reported here to improve coral growth, condition, heat resilience or recruitment.
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dig-wur-nl-wurpubs-6398852025-01-22 Knoester, Ewout Geerten Sanders, Richard Durden, Daisy Masiga, Bulisa O. Murk, Albertinka J. Osinga, Ronald Article/Letter to editor PLoS ONE 19 (2024) ISSN: 1932-6203 Negative effects by mineral accretion technique on the heat resilience, growth and recruitment of corals 2024 Restoration and artificial reefs can assist the recovery of degraded reefs but are limited in scalability and climate resilience. The Mineral Accretion Technique (MAT) subjects metal artificial reefs to a low-voltage electrical current, thereby creating a calcium-carbonate coating. It has been suggested that corals on MAT structures experience enhanced health and growth. However, prior studies report conflicting results potentially due to different conditions, species and approaches used. We investigated how MAT influences the bleaching resilience, condition and growth of four coral species and natural coral recruitment in Kenya. Coral fragments were outplanted on charged iron tables using commonly-applied settings (6 V; 0.84 A m-2). After one month, when all tables had acquired a calcium-carbonate coating, half of the tables were taken off electricity to serve as controls. Both treatments (MAT and Control) were monitored on coral brightness, condition (live tissue cover), growth and natural recruitment for one year, during which a marine heatwave occurred. Coral bleaching was significantly more severe on MAT for all studied species. For three species, coral condition dropped sharply during the heatwave and this decline was faster and more severe on MAT. Coral growth was reduced during the heatwave for all corals and remained low for one species on MAT. After one year, the Control harboured 34 coral recruits, whereas none were found on MAT. Thus, while MAT can be useful to prevent corrosion of metal artificial reefs, we do not recommend MAT as reported here to improve coral growth, condition, heat resilience or recruitment. en application/pdf https://research.wur.nl/en/publications/negative-effects-by-mineral-accretion-technique-on-the-heat-resil 10.1371/journal.pone.0315475 https://edepot.wur.nl/684705 Life Science https://creativecommons.org/licenses/by/4.0/ https://creativecommons.org/licenses/by/4.0/ Wageningen University & Research |
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Life Science Life Science Knoester, Ewout Geerten Sanders, Richard Durden, Daisy Masiga, Bulisa O. Murk, Albertinka J. Osinga, Ronald Negative effects by mineral accretion technique on the heat resilience, growth and recruitment of corals |
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Restoration and artificial reefs can assist the recovery of degraded reefs but are limited in scalability and climate resilience. The Mineral Accretion Technique (MAT) subjects metal artificial reefs to a low-voltage electrical current, thereby creating a calcium-carbonate coating. It has been suggested that corals on MAT structures experience enhanced health and growth. However, prior studies report conflicting results potentially due to different conditions, species and approaches used. We investigated how MAT influences the bleaching resilience, condition and growth of four coral species and natural coral recruitment in Kenya. Coral fragments were outplanted on charged iron tables using commonly-applied settings (6 V; 0.84 A m-2). After one month, when all tables had acquired a calcium-carbonate coating, half of the tables were taken off electricity to serve as controls. Both treatments (MAT and Control) were monitored on coral brightness, condition (live tissue cover), growth and natural recruitment for one year, during which a marine heatwave occurred. Coral bleaching was significantly more severe on MAT for all studied species. For three species, coral condition dropped sharply during the heatwave and this decline was faster and more severe on MAT. Coral growth was reduced during the heatwave for all corals and remained low for one species on MAT. After one year, the Control harboured 34 coral recruits, whereas none were found on MAT. Thus, while MAT can be useful to prevent corrosion of metal artificial reefs, we do not recommend MAT as reported here to improve coral growth, condition, heat resilience or recruitment. |
| format |
Article/Letter to editor |
| topic_facet |
Life Science |
| author |
Knoester, Ewout Geerten Sanders, Richard Durden, Daisy Masiga, Bulisa O. Murk, Albertinka J. Osinga, Ronald |
| author_facet |
Knoester, Ewout Geerten Sanders, Richard Durden, Daisy Masiga, Bulisa O. Murk, Albertinka J. Osinga, Ronald |
| author_sort |
Knoester, Ewout Geerten |
| title |
Negative effects by mineral accretion technique on the heat resilience, growth and recruitment of corals |
| title_short |
Negative effects by mineral accretion technique on the heat resilience, growth and recruitment of corals |
| title_full |
Negative effects by mineral accretion technique on the heat resilience, growth and recruitment of corals |
| title_fullStr |
Negative effects by mineral accretion technique on the heat resilience, growth and recruitment of corals |
| title_full_unstemmed |
Negative effects by mineral accretion technique on the heat resilience, growth and recruitment of corals |
| title_sort |
negative effects by mineral accretion technique on the heat resilience, growth and recruitment of corals |
| url |
https://research.wur.nl/en/publications/negative-effects-by-mineral-accretion-technique-on-the-heat-resil |
| work_keys_str_mv |
AT knoesterewoutgeerten negativeeffectsbymineralaccretiontechniqueontheheatresiliencegrowthandrecruitmentofcorals AT sandersrichard negativeeffectsbymineralaccretiontechniqueontheheatresiliencegrowthandrecruitmentofcorals AT durdendaisy negativeeffectsbymineralaccretiontechniqueontheheatresiliencegrowthandrecruitmentofcorals AT masigabulisao negativeeffectsbymineralaccretiontechniqueontheheatresiliencegrowthandrecruitmentofcorals AT murkalbertinkaj negativeeffectsbymineralaccretiontechniqueontheheatresiliencegrowthandrecruitmentofcorals AT osingaronald negativeeffectsbymineralaccretiontechniqueontheheatresiliencegrowthandrecruitmentofcorals |
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