Removal of bacteria and nutrient dynamics within the coral reef framework of Curaçao (Netherlands Antilles)

The authors studied removal rates of bacteria and the regeneration of inorganic nutrients in coral reef cavities in the reef slope of Curaçao, Netherlands Antilles. We found that in cavities the hard substratum surface area (=ca 68% of cavity surface area) is 65% covered with sessile filter feeders....

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Bibliographic Details
Published in:Coral reefs 2004-09, Vol.23 (3), p.413-422
Main Authors: SCHEFFERS, S. R, NIEUWLAND, G, BAK, R. P. M, VAN DUYL, F. C
Format: Article
Language:English
Subjects:
Animal and plant ecology
Animal, plant and microbial ecology
Bacteria
Biological and medical sciences
Coral reefs
Fundamental and applied biological sciences. Psychology
Marine
Microbiology
Nitrification
Nitrogen
Nutrient concentrations
Nutrient dynamics
Nutrient removal
Organic nitrogen
Plankton
Sea water ecosystems
Surface area
Synecology
Water analysis
Water depth
Water sampling
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Summary:The authors studied removal rates of bacteria and the regeneration of inorganic nutrients in coral reef cavities in the reef slope of Curaçao, Netherlands Antilles. We found that in cavities the hard substratum surface area (=ca 68% of cavity surface area) is 65% covered with sessile filter feeders. The cryptic cavity surface area exceeds the projected surface area of the reef by 1.5-8 times. Consequently, the organisms living in these cryptic habitats have potentially a large impact on pico- and nano-plankton densities and are important in reef water nutrient dynamics. We closed cavities (±70 l volume, 15 m depth) in seven experiments to study changes in bacterial densities and dissolved inorganic nutrients (DIN, DIP, and silicate) over time. Water samples were taken from the middle of the cavity at 5-min intervals, for 30 min, and analyzed for heterotrophic bacterial abundance and nutrient concentrations. After closure, bacterial abundance dropped rapidly. Of the initial bacterial concentration in the cavities, 50-60% had disappeared after 30 min, an average disappearance rate of 1.43×10^sup 4^ bacteria ml^sup -1^ min^sup -1^ (0.62 mg C l^sup -1^ d^sup -1^; or 30.1 mg C m^sup -2^ cavity surface area d^sup -1^). NO^sub x^ concentrations increased significantly during the time of closure. Efflux rates varied between 1.02-9.77 mmol m^sup -2^ cavity surface area d^sup -1^. NH^sub 4^^sup +^ and PO^sub 4^^sup 3-^ concentrations were variable and did not show a consistent change over time in the experiments. Comparison of bacterial organic nitrogen disappearance rates and DIN (NO^sub x^+NH^sub 4^^sup +^) release rates suggests that on average only 30-40% of additional sources of N besides bacteria were required to balance the nitrogen budget. This highlights the importance of heterotrophic bacterioplankton as food for cryptic filter feeders on coral reefs. Silicate concentrations significantly decreased after closure with 0.50 mmol m^sup -2^ cavity surface area d^sup -1^, suggesting the net deposition of SiO^sub 4^^sup 2-^ in spicules of cryptic filter feeding sponges. We conclude that coral reef cavities are a major sink for heterotrophic bacteria, a sink for dissolved silicon (DSi), and a source for NO^sub x^. That reef cavities are a source for NO^sub x^ suggests strong remineralization and nitrification in cavities with a potential role for sponge-symbiotic microbial nitrification.[PUBLICATION ABSTRACT]
ISSN:0722-4028
1432-0975
DOI:10.1007/s00338-004-0400-3