Light limitation and depth-variable sedimentation drives vertical reef compression on turbid coral reefs
Turbid coral reefs experience high suspended sediment loads and low-light conditions that vertically compress the maximum depth of reef growth. Although vertical reef compression is hypothesized to further decrease available coral habitat as environmental conditions on reefs change, its causative pr...
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sg-ntu-dr.10356-1454762023-02-28T16:39:45Z Light limitation and depth-variable sedimentation drives vertical reef compression on turbid coral reefs Morgan, Kyle Meredith Moynihan, Molly A. Sanwlani, Nivedita Switzer, Adam D. Asian School of the Environment Interdisciplinary Graduate School (IGS) Earth Observatory of Singapore Engineering::Maritime studies Vertical Reef Compression Light Attenuation Turbid coral reefs experience high suspended sediment loads and low-light conditions that vertically compress the maximum depth of reef growth. Although vertical reef compression is hypothesized to further decrease available coral habitat as environmental conditions on reefs change, its causative processes have not been fully quantified. Here, we present a high-resolution time series of environmental parameters known to influence coral depth distribution (light, turbidity, sedimentation, currents) within reef crest (2–3 m) and reef slope (7 m) habitats on two turbid reefs in Singapore. Light levels on reef crests were low [mean daily light integral (DLI): 13.9 ± 5.6 and 6.4 ± 3.0 mol photons m–2 day–1 at Kusu and Hantu, respectively], and light differences between reefs were driven by a 2-fold increase in turbidity at Hantu (typically 10–50 mg l–1), despite its similar distance offshore. Light attenuation was rapid (KdPAR: 0.49–0.57 m–1) resulting in a shallow euphotic depth of <11 m, and daily fluctuations of up to 8 m. Remote sensing indicates a regional west-to-east gradient in light availability and turbidity across southern Singapore attributed to spatial variability in suspended sediment, chlorophyll-a and colored dissolved organic matter. Net sediment accumulation rates were ∼5% of gross rates on reefs (9.8–22.9 mg cm–2 day–1) due to the resuspension of sediment by tidal currents, which contribute to the ecological stability of reef crest coral communities. Lower current velocities on the reef slope deposit ∼4 kg m2 more silt annually, and result in high soft-sediment benthic cover. Our findings confirm that vertical reef compression is driven from the bottom-up, as the photic zone contracts and fine silt accumulates at depth, reducing available habitat for coral growth. Assuming no further declines in water quality, future sea level rise could decrease the depth distribution of these turbid reefs by a further 8–12%. This highlights the vulnerability of deeper coral communities on turbid reefs to the combined effects of both local anthropogenic inputs and climate-related impacts. National Research Foundation (NRF) Published version This research was supported by Singapore’s National Research Foundation (NRF) under the Marine Science Research and Development Programme (MSRDP-P11). KM is a beneficiary of an AXA Research Fund Postdoctoral Grant and a Nanyang Presidential Postdoctoral Research Fellowship. 2020-12-22T09:05:28Z 2020-12-22T09:05:28Z 2020 Journal Article Morgan, K. M., Moynihan, M. A., Sanwlani, N., & Switzer, A. D. (2020). Light limitation and depth-variable sedimentation drives vertical reef compression on turbid coral reefs. Frontiers in Marine Science, 7, 571256-. doi:10.3389/fmars.2020.571256 2296-7745 https://hdl.handle.net/10356/145476 10.3389/fmars.2020.571256 7 en Frontiers in Marine Science © 2020 Morgan, Moynihan, Sanwlani and Switzer. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms. application/pdf |
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Engineering::Maritime studies Vertical Reef Compression Light Attenuation Morgan, Kyle Meredith Moynihan, Molly A. Sanwlani, Nivedita Switzer, Adam D. Light limitation and depth-variable sedimentation drives vertical reef compression on turbid coral reefs |
| description |
Turbid coral reefs experience high suspended sediment loads and low-light conditions that vertically compress the maximum depth of reef growth. Although vertical reef compression is hypothesized to further decrease available coral habitat as environmental conditions on reefs change, its causative processes have not been fully quantified. Here, we present a high-resolution time series of environmental parameters known to influence coral depth distribution (light, turbidity, sedimentation, currents) within reef crest (2–3 m) and reef slope (7 m) habitats on two turbid reefs in Singapore. Light levels on reef crests were low [mean daily light integral (DLI): 13.9 ± 5.6 and 6.4 ± 3.0 mol photons m–2 day–1 at Kusu and Hantu, respectively], and light differences between reefs were driven by a 2-fold increase in turbidity at Hantu (typically 10–50 mg l–1), despite its similar distance offshore. Light attenuation was rapid (KdPAR: 0.49–0.57 m–1) resulting in a shallow euphotic depth of <11 m, and daily fluctuations of up to 8 m. Remote sensing indicates a regional west-to-east gradient in light availability and turbidity across southern Singapore attributed to spatial variability in suspended sediment, chlorophyll-a and colored dissolved organic matter. Net sediment accumulation rates were ∼5% of gross rates on reefs (9.8–22.9 mg cm–2 day–1) due to the resuspension of sediment by tidal currents, which contribute to the ecological stability of reef crest coral communities. Lower current velocities on the reef slope deposit ∼4 kg m2 more silt annually, and result in high soft-sediment benthic cover. Our findings confirm that vertical reef compression is driven from the bottom-up, as the photic zone contracts and fine silt accumulates at depth, reducing available habitat for coral growth. Assuming no further declines in water quality, future sea level rise could decrease the depth distribution of these turbid reefs by a further 8–12%. This highlights the vulnerability of deeper coral communities on turbid reefs to the combined effects of both local anthropogenic inputs and climate-related impacts. |
| author2 |
Asian School of the Environment |
| author_facet |
Asian School of the Environment Morgan, Kyle Meredith Moynihan, Molly A. Sanwlani, Nivedita Switzer, Adam D. |
| format |
Article |
| author |
Morgan, Kyle Meredith Moynihan, Molly A. Sanwlani, Nivedita Switzer, Adam D. |
| author_sort |
Morgan, Kyle Meredith |
| title |
Light limitation and depth-variable sedimentation drives vertical reef compression on turbid coral reefs |
| title_short |
Light limitation and depth-variable sedimentation drives vertical reef compression on turbid coral reefs |
| title_full |
Light limitation and depth-variable sedimentation drives vertical reef compression on turbid coral reefs |
| title_fullStr |
Light limitation and depth-variable sedimentation drives vertical reef compression on turbid coral reefs |
| title_full_unstemmed |
Light limitation and depth-variable sedimentation drives vertical reef compression on turbid coral reefs |
| title_sort |
light limitation and depth-variable sedimentation drives vertical reef compression on turbid coral reefs |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/145476 |
| _version_ |
1759853482435674112 |