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Colony morphology, age structure, and relative growth of two gorgonian corals, Leptogorgia hebes (Verrill) and Leptogorgia virgulata (Lamarck), from the northerm Gulf of Mexico

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Abstract

Along the northeastern Gulf of Mexico coast, Leptogorgia hebes is the predominant gorgonian at two inner shelf (22 and 27 m) sites, while Leptogorgia virgulata dominates a third shallow (1–2m), inshore site. The axial skeleton of both species is composed of concentric rings which appeared to exhibit annual periodicity. Although age structure of the populations differed between shelf sites, neither colony growth rates, estimated from direct measurements of ring widths plotted on Walford graphs, nor overall branching complexity, determined from bifurcation ratios (Rb), differed between the shelf populations. Larger individuals at the 27m shelf site were simply older than those at the shallower (22m) shelf site. Walford plots of growth increments revealed colony growth of the shallow inshore species to be similar to that of the offshore species.

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References

  • Abston JR, Dinnel SP, Schroeder WW, Shultz AW, Wiseman W Jr (1987) Coastal sediment plume morphology and its relationship to environmental forcing: Main Pass, Mobile Bay, Alabama. Coastal Sediments '87 Waterway Division/American Society of Civil Engineers 1989–2005

  • Brazeau DA, Lasker HR (1988) Inter- and intraspecific variation in gorgonian colony morphology: quantifying branching patterns in arborescent animals. Coral Reefs 7:139–143

    Google Scholar 

  • Bright T, Jaap W, Cashman C (1981) Ecology and management of coral reefs and organic banks. In: Atwood DK (ed) Environmental Research Needs in the Gulf of Mexico, vol IIB NOAA/ERL. Atlantic Oceanographic Meteorological Laboratory, Miami, Fla, pp 53–160

    Google Scholar 

  • Buchanan CC (1973) Effects of an artificial habitat on the marine sport fishery and economy of Murrells Inlet, South Carolina. Mar Fish Rev 351:15–22

    Google Scholar 

  • Cary LR (1915) Observations upon the growth-rate and ecology of gorgonians. Pap Tortugas Lab 5:81–90

    Google Scholar 

  • Cummings R Jr, Rivers JB, Struhsaker P (1962) Snapper trawling explorations along the southeastern coast of the United States. Commer Fish Rev 14(12):1–7

    Google Scholar 

  • Dinnel SP, Schroeder WW, Wiseman WJ Jr (1990) Estuarine-shelf exchange using Landsat images of discharge plumes. J Coastal Res 6:789–799

    Google Scholar 

  • Gotelli NJ (1986) Factors influencing the recruitment of two subtidal invertebrates. Florida State University, Ph D dissertation.

  • Gotelli NJ (1988) Determinants of recruitment, juvenile growth, and spatial distribution of a shallow-water gorgonian. Ecology 69: 157–166

    Google Scholar 

  • Grasshoff M (1988) The genus Leptogorgia (Octocorallia: Gorgoniidae) in West Africa. Alantide-Report 14:91–147

    Google Scholar 

  • Grigg RW (1972) Orientation and growth form of sea fans. Limnol Oceanogr 17:185–192

    Google Scholar 

  • Grigg RW (1974) Growth rings: annual periodicity in two gorgonian corals. Ecology 55:876–881

    Google Scholar 

  • Grigg RW (1975) Age structure of a longevous coral: a relative index of habitat suitability and stability. Am Nat 109:647–657

    Google Scholar 

  • Grigg RW (1977) Population dynamics of two gorgonian corals. Ecology 58:278–290

    Google Scholar 

  • Kinzie RA (1973) The zonation of West Indian gorgonians. Bull Mar Sci 23:93–155

    Google Scholar 

  • Kirby-Smith WW, Ustach J (1986) Resistance to hurricane disturbance of an epifaunal community on the continental shelf off North Carolina. East Coast Shelf Sci 23:433–442

    Google Scholar 

  • Kleinbaum DG, Krupper LL (1978) Applied regression analysis and other multivariate methods. Duxbury Press, North Scituate, Mass

    Google Scholar 

  • Kobluk DR, Lysenko MA (1992) Storm features on a southern Caribbean fringing coral reef. Palaios 7:213–221

    Google Scholar 

  • Lasker HR, Coffroth MA (1983) Octocoral distributions at Carrie Bow Cay, Belize, Mar Ecol Prog Ser 13:21–28

    Google Scholar 

  • McCuaig JM, Green RH (1983) Unionid growth curves derived from annual rings: a baseline model for Long Point Bay, Lake Erie. Can J Fish Aquat Sci 40:436–442

    Google Scholar 

  • Reed JK (1983) Nearshore and shelf-edge Oculina coral reefs: The effects of upwelling on coral growth and on the associated faunal communities. In: Reaka ML (ed) The ecology of deep and shallow coral reefs. NOAA's Undersea Research Prog, pp 116–124

  • Ricker WE (1975) Computation and interpretation of biological statistics of fish populations. Bull Fish Res Bd Can 191:203–233

    Google Scholar 

  • Sebens KP (1983) Size structure and growth rates in populations of colonial and solitary invertebrates. In: Reaka ML (ed) The ecology of deep and shallow coral reefs. NOAA's Undersea Research Prog, pp 9–15

  • Sebens KP (1984) Water flow and coral colony size: Interhabitat comparisons of the Octocoral Alcyonium siderium. Proc Natl Acad Sci USA 81:5473–5477

    Google Scholar 

  • Schroeder WW (1988) Geological and biological aspects of hardbottom environments on the L'MAFLA shelf, northern Gulf of Mexico. Proc Oceans '88 Conf 17–21

  • Schroeder WW, Gittings SR, Dardeau MR, Fleischer P, Sager WW, Shultz AW, Rezak R (1989) Topographic features of the L'MAFLA continental shelf, northern Gulf of Mexico. Proc Oceans '89 Conf 54–57

  • Strahler AN (1952) Hypsometric (area-altitude) analysis of erosional topography. Bull Geol Soc Am 63:1117–1142

    Google Scholar 

  • Walford LA (1946) A new graphic method of describing the growth of animals. Biol Bull 90:141–147

    Google Scholar 

  • Woodley JD, Chornesky EA, Clifford PA, Jackson JBC, Kaufman LS, Knowlton N, Lang JC, Pearson MP, Porter JW, Rooney MC, Rylaarsdam KW, Tunnicliffe VJ, Wahle CM, Wulff JL, Curtis ASG, Dallmeyer MD, Jupp BP, Koehl MAR, Neigel J, Sides EM (1981) Hurricane Allen's impact on Jamaican coral reefs. Science 214:749–755

    Google Scholar 

  • Yoshioka PM and Yoshioka BB (1987) Variable effects of Hurricane David on the shallow water gorgonians of Puerto Rico. Bull Mar Sci 40:132–144

    Google Scholar 

  • Yoshioka PM, Yoshioka BB (1989) Effects of wave energy, topographic relief and sediment transport on the distribution of shallow-water gorgonians of Puerto Rico. Coral Reefs 8:145–152

    Google Scholar 

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Authors and Affiliations

  1. Marine Science Program, The University of Alabama, P.O. Box 369-370, 36528, Dauphin Island, Alabama, USA

    Naomi D. Mitchell & William W. Schroeder

  2. Dauphin Island Sea Lab, Marine Environmental Sciences Consortium, P.O. Box 369-370, 36528, Dauphin Island, Alabama, USA

    Michael R. Dardeau

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  1. Naomi D. Mitchell
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  2. Michael R. Dardeau
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  3. William W. Schroeder
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Mitchell, N.D., Dardeau, M.R. & Schroeder, W.W. Colony morphology, age structure, and relative growth of two gorgonian corals, Leptogorgia hebes (Verrill) and Leptogorgia virgulata (Lamarck), from the northerm Gulf of Mexico. Coral Reefs 12, 65–70 (1993). https://doi.org/10.1007/BF00302103

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