Büscher, Janina; Wisshak, Max; Form, Armin; Titschack, Jürgen; Nachtigall, Kerstin; Riebesell, Ulf (2019): In Situ Growth and Bioerosion Rates of Lophelia pertusa in a Norwegian Fjord and Open Shelf Cold-water Coral Habitat [dataset publication series]. PANGAEA, https://doi.org/10.1594/PANGAEA.903093, Supplement to: Büscher, J et al. (2019): In situ growth and bioerosion rates of Lophelia pertusa in a Norwegian fjord and open shelf cold-water coral habitat. PeerJ, 7, e7586, https://doi.org/10.7717/peerj.7586
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Abstract:
Coral reef resilience depends on the balance between carbonate precipitation, leading to reef growth, and carbonate degradation, e.g. through bioerosion. Changes in environmental conditions are likely to affect the two processes differently, thereby shifting the balance between reef growth and degradation. In cold-water corals estimates of accretion-erosion processes in their natural habitat are scarce and solely live coral growth rates were studied with regard to future environmental changes in the laboratory so far, limiting our ability to assess the potential of cold-water coral reef ecosystems to cope with environmental changes. In the present study, growth rates of the two predominant colour morphotypes of live Lophelia pertusa as well as bioerosion rates of dead coral framework were assessed in different environmental settings in Norwegian cold-water coral reefs in a one-year in situ experiment. Net growth (in weight gain and linear extension) of live L. pertusa was in the lower range of previous estimates and did not significantly differ between inshore (fjord) and offshore (open shelf) habitats. However, slightly higher net growth rates were obtained inshore. Bioerosion rates were significantly higher on-reef in the fjord compared to off-reef deployments in- and offshore. Besides, on-reef coral fragments yielded a broader range of individual growth and bioerosion rates, indicating higher turnover in live reef structures than off-reef with regard to accretion-bioerosion processes. Moreover, if the higher variation in growth rates represents a greater variance in (genetic) adaptations to natural environmental variability in the fjord, inshore reefs could possibly benefit under future ocean change compared to offshore reefs. Although not significantly different due to high variances between replicates, growth rates of orange branches were consistently higher at all sites, while mortality was statistically significantly lower, potentially indicating higher stress-resistance than the less pigmented white phenotype. Comparing the here measured rates of net accretion of live corals (regardless of colour morphotype) with net erosion of dead coral framework gives a first estimate of the dimensions of both processes in natural cold-water coral habitats, indicating that calcium carbonate loss through bioerosion amounts to one fifth to one sixth of the production rates by coral calcification (disregarding accretion processes of other organisms and proportion of live and dead coral framework in a reef). With regard to likely accelerating bioerosion and diminishing growth rates of corals under ocean acidification, the balance of reef accretion and degradation may be shifted towards higher biogenic dissolution in the future.
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Median Latitude: 63.842656 * Median Longitude: 8.792489 * South-bound Latitude: 63.607667 * West-bound Longitude: 8.118667 * North-bound Latitude: 64.111000 * East-bound Longitude: 9.382167
Date/Time Start: 2013-07-01T00:00:00 * Date/Time End: 2014-08-31T00:00:00
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Creative Commons Attribution 4.0 International (CC-BY-4.0)
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Datasets listed in this publication series
- Büscher, J; Wisshak, M; Form, A et al. (2019): Bioerosion Rates of Lophelia pertusa in a Norwegian Fjord. https://doi.org/10.1594/PANGAEA.903091
- Büscher, J; Wisshak, M; Form, A et al. (2019): In Situ Growth of Lophelia pertusa in a Norwegian Fjord. https://doi.org/10.1594/PANGAEA.903089