679Accesses
4Altmetric
Abstract
The ingestion of two size classes of natural particulate matter (PM) and the uptake of the associated nitrogen by four species of scleractinian corals was measured using the stable isotopic tracer15N. PM collected in sediment traps was split into <63 and >105 µm size fractions and labeled with (15N-NH4)2SO4. Siderastrea radians,Montastrea franksi, Diploria strigosa, and Madracis mirabiliswere incubated in flow chambers with the labeled PM in suspension (<63 µm), or deposited onto coral surfaces (>105 µm). Ingestion was detected for all four species (98–600 µg Dry wt. cm–2 h–1), but only for D. strigosa was any difference detected between suspended and deposited PM. Only the three mounding species, S. radians, M. franksi, and D. strigosa showed uptake of suspended and deposited particulate nitrogen (PN); whereas, the branched coral M. mirabilis had no measurable PN uptake. Only coral host tissues were enriched with15N, with no tracer detected in the symbiotic zooxanthellae. Uptake rates ranged from as low as 0.80 µg PN cm–2 h–1 in S. radians to as high as 13 µg PN cm–2 h–1 in M. franksi. M. franksi had significantly higher uptake rates than S. radians (ANOVA,p<0.05), while D. strigosa had a statistically similar uptake rate compared to both species. These results are the first to compare scleractinian ingestion of nitrogen associated with suspended and deposited particulate matter, and demonstrate that the use of PM as a nitrogen source varies with species and colony morphology.
This is a preview of subscription content,log in via an institution to check access.
Access this article
Subscribe and save
- Get 10 units per month
- Download Article/Chapter or eBook
- 1 Unit = 1 Article or 1 Chapter
- Cancel anytime
Buy Now
Price includes VAT (Japan)
Instant access to the full article PDF.
Similar content being viewed by others
References
Abdel-Salam HA, Porter JW (1988) Physiological effects of sediment rejection on photosynthesis and respiration in three Caribbean reef corals. Proc 6th Int Coral Reef Symp, August 1988, Townsville, Australia pp 285–292
Abelson A, Miloh T, Loya Y (1993) Flow patterns induced by substrata and body morphologies of benthic organisms, and their roles in determining availability of food particles. Limnol Oceanogr 38:1116–1124
Alldredge AL, King JM (1980) Effects of moonlight on the vertical migration patterns of demersal zooplankton. J Exp Mar Biol Ecol 44:133–156
Anthony KRN (1999a) Coral suspension feeding on fine particulate matter. J Exp Mar Biol Ecol 232:85–106
Anthony KRN (1999b) A tank system for studying benthic aquatic organismal predictable levels of turbidity and sedimentation: case study examining coral growth. Limnol Oceanogr 44:1415–1422
Anthony KRN (2000) Enhanced particle-feeding capacity of nearshore reef corals on the Great Barrier reef, Australia. Coral Reefs 19:59–67
Anthony KRN, Fabricius KE (2000) Shifting roles of heterotrophy in coral energetics under varying turbidity. J Exp Mar Biol Ecol 252:221–253
Atkinson MJ, Kotler E, Newton P (1994) Effects of water velocity on respiration, calcification, and ammonium uptake of a Porites compressa community. Pac Sci 48:296–303
Babcock R, Davies P (1991) Effects of sedimentation on settlement of Acropora millepora. Coral Reefs 9:205–208
Bak RPM (1978) Lethal and sublethal effects of dredging on reef corals. Mar Poll Bull 9:14–16
Bak RPM, Joenje M, Jong Id, Lambrechts DYM, Nieuwland G (1998) Bacterial suspension feeding by coral reef benthic organisms. Mar Ecol Prog Ser 175:285–288
Brown BE, Howard LS (1985) Assessing the effects of “stress” on reef corals. Adv Mar Biol 22:1–63
Bythell JC (1988) A total nitrogen and carbon budget for the elkhorn coral Acropora palmata (Lamarck). Proc. 6th Int Coral Reef Symp, August 1988, Townsville, Australia, pp 535–540
Coffroth MA (1984) Ingestion and incorporation of coral mucus aggregates by a gorgonian soft coral. Mar Ecol Prog Ser 17:193–199
Davis KA, Jones RD (1997) Diel ammonium flux of two Caribbean reef corals Porites porites and Dichocoenia stokesii, under non-enrichment conditions. Proc 8th Int Coral Reef Symp, June 1996, Pananma City, pp 851–854
D’Elia CF, Webb KL (1977) The dissolved nitrogen flux of coral reefs. Proc 3rd Int Coral Reef Symp, May 1977, Miami, Florida, pp 326–330
D’Elia CF, Connor EE, Kaumeyer NL, Keefe CW, Wood KV, Zimmermann CF (1997) Standard operating procedures: Nutrient Analytical Services Laboratory. Technical Report Series No. 15897, Chesapeake Biological Laboratory, University of Maryland Center for Environmental Science. Solomons, Maryland, 77 pp
Dodge RE, Vaisnys JR (1977) Coral populations and growth patterns: response to sedimentation and turbidity associated with dredging. J Mar Res 35:715–730
Dollar SJ, Grigg RW (1981) Impact of kaolin clay spill on a coral reef in Hawaii. Mar Biol 65:269–276
Dubinsky Z, Jokiel PL (1994) Ratio of energy and nutrient fluxes regulates symbiosis between zooxanthellae and corals. Pac Sci 48:313–324
Fabricius KE, Dommisse M (2000) Depletion of suspended particulate matter over coastal reef communities dominated by zooxanthellate soft coral. Limnol Oceanogr 196:157–167
Fabricius KE, Genin A, Benayahu Y (1995) Flow-dependent herbivory and growth in zooxanthellae-free soft corals. Limnol Oceanogr 40:1290–1301
Fabricius KE, Yahel G, Genin A (1998) In situ depletion of phytoplankton by an azooxanthellate soft coral. Limnol Oceanogr 43:354–356
Ferrier MD (1991) Net uptake of dissolved free amino acids by four scleractinian corals. Coral Reefs 10:183–187
Ferrier-Pagès C, Allemand D, Gattuso J-P, Jaubert J, Rassoulzadegan F (1998) Microheterotrophy in the zooxanthellate coral Stylophora pistillata: effects of light and ciliate density. Limnol Oceanogr 43:1639–1648
Glibert PM, Capone DG (1993) Mineralization and assimilation in aquatic, sediment, and wetland systems. In: Knowles R, Blackburn TH (eds) Nitrogen isotope techniques. Academic Press, New York, pp 243–271
Glibert PM, Lipschultz F, McCarthy JJ, Altabet MA (1982) Isotope dilution models of uptake and remineralization of ammonium by marine plankton. Limnol Oceanogr 27:639–65
Gottfried M, Roman MR (1983) Ingestion and incorporation of coral-mucus detritus by reef zooplankton. Mar Biol 72:211–218
Hawkins AJS, Klumpp DW (1995) Nutrition of the giant clam Tridacna gigas (L.) II. Relative contributions of filter-feeding and the ammonium-nitrogen acquired and recycled by symbiotic alga towards total nitrogen requirements for tissue growth and metabolism. J Exp Mar Biol Ecol 190:263–290
Heidelberg KB (1999) The effects of water flow and prey behavior on scleractinian coral feeding. PhD Thesis, University of Maryland, College Park, Maryland
Heidelberg KB, Sebens KP, Purcell JE (1997) Effects of prey escape behavior and water flow on prey capture by the scleractinian coral, Meandrina meandrites. Proc 8th Int Coral Reef Symp, June 1996, Panama City, pp 1081–1086
Hoegh-Guldberg O, Williamson J (1999) Availability of two forms of dissolved nitrogen to the coral Pocillopora damicornis and its symbiotic zooxanthellae. Mar Biol 133:561–570
Johannes RE, Wiebe WJ (1970) A method for determination of coral tissue biomass and composition. Limnol Oceanogr 21:540–547
Jones RD (1991) An improved fluorescence method for the determination of nanomolar concentrations of ammonium in natural waters. Limnol Oceanogr 36:814–819
Lewis JB, Price WS (1975) Feeding mechanisms and feeding strategies of Atlantic reef corals. J Zool Lond 176:527–544
Lewis JB, Price WS (1976) Patterns of ciliary currents in Atlantic reef corals and their functional significance. J Zool Lond 178:77–89
Lipschultz F, Cook CB (2002) Uptake and assimilation of15N-ammonium by the sea anemones, Aiptasia pallida and Bartholomea annulata: interaction of host and zooxanthellae. Mar Biol 140:489–502
Lopez GR, Levinton JS (1987) Ecology of marine deposit-feeding animals in marine sediments. Q Rev Biol 62:235–260
Marsh JA (1970) Primary productivity of reef-building calcareous red algae. Ecology 51:255–263
McClanahan TR, Obura D (1997) Sedimentation effects on shallow coral communities in Kenya. J Exp Mar Biol Ecol 209:103–122
Mills MM (2000) Corals feeding on sediments? Ingestion, assimilation, and contributions to coral nutrition. PhD Thesis, University of Maryland, College Park, Maryland
Mills MM, Sebens KP (1997) Particle ingestion efficiency of the corals Siderastrea siderea and Agaricia agaricites: Effects of flow speed and sediment loads. Proc. 8th Int Coral Reef Symp, June 1998, Panama City, pp 1059–1064
Parsons TR, Maita Y, Lalli CM (1984) A manual of chemical and biological methods for seawater analysis. Pergmon Press, Oxford
Pile AJ (1997) Finding Reiswig’s missing carbon: quantification of sponge feeding using dual-beam flow cytometry. Proc. 8th Int Coral Reef Symp, June 1998, Panama City, Panama, pp 1403–1410
Porter J (1974) Zooplankton feeding by the Caribbean reef-building coral Montastrea cavernosa. Proc 2nd Int Coral Reef Symp, October 1974, Brisbane, pp 111–125
Porter ET, Sanford LP, Suttles SE (2000) Gypsum dissolution is not a universal integrator of “water motion”. Limnol Oceanogr 45:145–158
Rees TAV (1986) The green hydra symbiosis and ammonium. I. The role of the host in ammonium assimilation and its possible regulatory significance. Proc R Soc Lond B 229:299–314
Rees TAV, Ellard FM (1989) Nitrogen conservation and the green hydra symbiosis. Proc R Soc Lond B 236:203–212
Ribes i Llordes M (1998) Feeding activity and diet of benthic suspension feeders related to metabolic requirements and seston composition. PhD Thesis, University of Barcelona, Barcelona, Spain, 171 pp
Rice SA, Hunter CL (1992) Effects of suspended sediments and burial on scleractinian corals from west central Florida patch reefs. Bull Mar Sci 51:429–442
Riegl B, Branch GM (1995) Effects of sediment on the energy budgets of four scleractinian (Bourne 1900) and five alcyonacean (Lamouroux 1816) corals. J Exp Mar Biol Ecol 186:259–275
Roberts JM, Davies PS, Fixter LM, Preston T (1999) Primary site and initial products of ammonium assimilation in the symbiotic anemone Anemonia viridis. Mar Biol 135:223–236
Rogers CS (1982) The Marine Environment of Brewer’s Bay, Perseverance Bay, Flat Cay and Saba Island, St. Thomas, U.S.V.I., with emphasis on coral reefs and sea grass beds. Dept. of Conservation and Cultural Affairs, Government of the Virgin Islands, St. Thomas
Rogers CS (1990) Responses of coral reefs and reef organisms to sedimentation. Mar Ecol Prog Ser 62:185–202
Sebens KP, Vandersall KS, Savina LA, Graham KR (1996) Zooplankton capture by two scleractinian corals Madracis mirabilis and Montastrea cavernosa, in a field enclosure. Mar Biol 127:303–317
Sebens KP, Grace SP, Helmuth B, Maney EJ, Miles JS (1998) Water flow and prey capture by three scleractinian coral, Madracis mirabilis, Montastrea cavernosa, and Porites porites, in a field enclosure. Mar Biol 131:347–360
Shyka TA (2000) Environmental influences on coral growth an nutrient acquisition. MSc Thesis, University of Maryland, College Park, Maryland 102 pp
Shyka TA, Sebens KP (2000) Community structure water column nutrients, and water flow in two Pelican Cays ponds, Belize. Atoll Res Bull 471:107–121
Smith SR (1998) Bermuda. In: Kjerfve B (ed) Caricomp—Caribbean coral reef, seagrass, and mangrove sites. Coastal region and small island papers 3. Unesco, Paris, 347 pp
Sorokin YI (1973) On the feeding of some scleractinian corals with bacteria and dissolved organic matter. Limnol Oceanogr 18:380–385
Swanson R, Hoegh-Guldberg O (1998) Amino acid synthesis in the symbiotic sea anemone Aiptasia pulchella. Mar Biol 131:83–93
Szmant-Froelich A (1981) Coral nutrition: comparison of the fate of14C from ingested labeled brine shrimp and from the uptake of NaH14CO3 by its zooxanthellae. J Exp Mar Biol Ecol 55:133–144
Telesnicki GJ, Goldberg WM (1995) Effects of turbidity on the photosynthesis and respiration of two south Florida reef coral species. Bull Mar Sci 57:527–539
Tennekes H, Lumley JL, (1972) A first course in turbulence. The MIT Press, Cambridge, Massachusetts
Tomascik T, Sander F (1985) Effects of eutrophication on reef-building corals I. Growth rate of the reef-building coral Montastrea annularis. Mar Biol 87:143–155
Valderama JC (1981) The simultaneous analysis of total nitrogen and total phosphorus in natural waters. Mar Chem 10:109–122
Wang J-T, Douglas AE (1998) Nitrogen recycling or nitrogen conservation in an alga-invertebrate symbiosis? J Exp Biol 201:2445–2453
Wilkerson FP, Kremer P (1992) DIN, DON, PO4 flux by a medusa with algal symbiosis. Mar Ecol Prog Ser 90:237–250
Wittenberg M, Hunte W (1992) Effects of eutrophication and sedimentation on juvenile corals. I. Abundance, mortality and community structure. Mar Biol 112:131–138
Witting J (1999) Zooplankton capture and coral growth: the role of heterotrophy in Caribbean reef corals. PhD Thesis. Northeastern University, Boston, Massachusetts, 285 pp
Wotton RS (1994) The biology of particles in aquatic systems. CRC Press, London, 313 pp
Yamazato K (1987) Effects of deposition and suspension of inorganic particulate matter on reef building corals of Okinawa, Japan. Galaxea 6:289–309
Acknowledgements
We thank Brian Badgley, Richard Owen, Greg Piniak, Robbie Smith, and all of the BERP Lab at BBSR for their assistance. We are also grateful to the Analytical Services Laboratory at Horn Point Laboratory for nutrient analysis. Lastly, we thank M Berg, K Heidelberg, B Badgley, and two anonymous reviewers for comments. This research was supported by NSF Grant OCE-9302966 to KP Sebens and by BBSR’s Munson Marine Graduate Fellowship and Stone Fellowship awarded to MM Mills.
Author information
Kenneth P. Sebens
Present address: College of Science and Mathematics, University of Massachusetts, Boston 100 Morrissey Blvd., Boston, MA 02125, USA
Authors and Affiliations
Marine Biochemistry, IFM-Geomas Leibniz-Institut für Meereswissenschaften, Düsternbrooker Weg 20, 24105, Kiel, Germany
Matthew M. Mills
Bermuda Biological Station for Research Inc., St. George’s, Bermuda
Fredric Lipschultz
Department of Biology, University of Maryland, College Park, MD, 20742, USA
Kenneth P. Sebens
- Matthew M. Mills
You can also search for this author inPubMed Google Scholar
- Fredric Lipschultz
You can also search for this author inPubMed Google Scholar
- Kenneth P. Sebens
You can also search for this author inPubMed Google Scholar
Corresponding author
Correspondence toMatthew M. Mills.
Additional information
Communicated by H.R. Lasher
Rights and permissions
About this article
Cite this article
Mills, M.M., Lipschultz, F. & Sebens, K.P. Particulate matter ingestion and associated nitrogen uptake by four species of scleractinian corals.Coral Reefs23, 311–323 (2004). https://doi.org/10.1007/s00338-004-0380-3
Received:
Accepted:
Published:
Issue Date:
Share this article
Anyone you share the following link with will be able to read this content:
Sorry, a shareable link is not currently available for this article.
Provided by the Springer Nature SharedIt content-sharing initiative