Budget of coral-derived organic carbon in a fringing coral reef of the Gulf of Aqaba, Red Sea

Budget of coral-derived organic carbon in a fringing coral reef of the Gulf of Aqaba, Red Sea

The continuous release of organic C-rich material by reef-building corals can contribute substantially to biogeochemical processes and concomitant rapid nutrient recycling in coral reef ecosystems. However, our current understanding of these processes is limited to platform reefs exhibiting a high d...

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Bibliographic Details
Published in:Journal of marine systems Vol. 105-108; pp. 20 - 29
Main Authors: Naumann, Malik S., Richter, Claudio, Mott, Claudius, el-Zibdah, Mohammad, Manasrah, Riyad, Wild, Christian
Format: Journal Article
Language:English
Published: Elsevier B.V 01-12-2012
Subjects:
Aqaba
Biogeochemical processes
Coral mucus
Ecosystem metabolism
Gulf of Aqaba
Organic matter
Regional terms Red Sea
Release
Uptake
Organic matter
Biogeochemical processes
Aqaba
Ecosystem metabolism
Gulf of Aqaba
Coral mucus
Regional terms Red Sea
Release
Uptake
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Summary:The continuous release of organic C-rich material by reef-building corals can contribute substantially to biogeochemical processes and concomitant rapid nutrient recycling in coral reef ecosystems. However, our current understanding of these processes is limited to platform reefs exhibiting a high degree of ecosystem closure compared to the globally most common fringing reef type. This study carried out in the northern Gulf of Aqaba (Red Sea) presents the first quantitative budget for coral-derived organic carbon (COC) in a fringing reef and highlights the importance of local hydrodynamics. Diel reef-wide COC release amounted to 1.1±0.2 kmol total organic carbon (TOC) representing 1–3% of gross benthic primary production. Most COC (73%) was released as particulate organic C (POC), the bulk of which (34–63%) rapidly settled as mucus string aggregates accounting for approximately 28% of total POC sedimentation. Sedimentation of mucus strings, but also dilution of suspended and dissolved COC in reef waters retained 82% of diel COC release in the fringing reef, providing a potentially important organic source for a COC-based food web. Pelagic COC degradation represented 0.1–1.6% of pelagic microbial respiration recycling 32% of diel retained COC. Benthic COC degradation contributed substantially (29–47%) to reef-wide microbial respiration in reef sands, including 20–38% by mucus string POC, and consumed approximately 52% of all retained COC. These findings point out the importance of COC as a C carrier for different reef types. COC may further represent a source of organic carbon for faunal communities colonising reef framework cavities complementing the efficient retention and recycling of COC within fringing reef environments. ► Ecosystem-wide quantification of organic carbon release by scleractinian corals. ► Budget calculations for coral-derived organic carbon cycling on ecosystem scale. ► Identification of potential trophic pathways for coral-derived organic carbon.
ISSN:0924-7963
1879-1573
DOI:10.1016/j.jmarsys.2012.05.007