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Small-scale mapping of indeterminate arborescent acroporid coral (Acropora cervicornis) patches

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Abstract

Western Atlantic populations of the staghorn coral Acropora cervicornis have drastically declined over the past few decades. Hence, interest in its ecology and spatial extent has increased. Acroporid corals with indeterminate arborescent growth like A. cervicornis primarily reproduce asexually by fragmentation, which can lead to extensive monotypic patches. Since fragmentation is a major component in indeterminate acroporid reproduction, these patches may expand or move over time. Periodic perimeter mapping facilitates comparison of patch areas to determine movement or expansion. A repeatable, low-cost method using a differential GPS carried by a snorkeler was employed to map the perimeter of A. cervicornis patches in southeast Florida. Perimeters were mapped over a 3-year period. Patch boundaries were dynamic, expanding in one or more directions. Patch areas increased by up to 7.5 times their original size and moved up to 51 m. Results were corroborated by spatial cluster analyses of in situ live coral cover measurements. Getis-Ord Gi* statistic and Anselin Local Moran’s I spatial cluster analyses of live coral cover within an array of in situ monitoring plots indicated that significant high cover clusters moved in the direction of mapped patch perimeter expansion. Expansion was coupled by more than 50 % decreases in total live cover. Information gained herein shows that A. cervicornis patches are spatially and temporally dynamic, having implications to long-term permanent transect monitoring studies and framework development. Results may be applicable to other shallow water indeterminate arborescent acroporid coral species.

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References

  • Acropora Biological Review Team (2005) Atlantic Acropora status review document. National Marine Fisheries Service. Southeast Regional Office, St. Petersburg, FL, p 152

    Google Scholar 

  • Anselin L (1995) Local Indicators of Spatial Association—LISA. Geogr Anal 27:93–115

    Article  Google Scholar 

  • Aronson RB, Precht WF (2001) White-band disease and the changing face of Caribbean coral reefs. Hydrobiologia 460:25–38

    Article  Google Scholar 

  • Bruckner A (ed) (2002) Proceedings of the Caribbean Acropora workshop: Potential application of the US Endangered Species Act as a conservation strategy. NOAA Technical Memorandum NMFS-OPR-24, Silver Spring, MD, p 199

  • Clegg P, Bruciatelli L, Domingos F, Jones RR, De Donatis M, Wilson RW (2006) Digital geological mapping with tablet PC and PDA: A comparison. Comput Geosci 32:1682–1698

    Article  Google Scholar 

  • Collier JS, Humber SR (2007) Time-lapse side-scan sonar imaging of bleached coral reefs: A case study from the Seychelles. Remote Sens Environ 108:339–356

    Article  Google Scholar 

  • Dauwalter D, Fisher W, Belt K (2006) Mapping stream habitats with a global positioning system: Accuracy, precision, and comparison with traditional methods. Environ Manage 37:271–280

    Article  PubMed  Google Scholar 

  • Davis GE (1982) A century of natural change in coral distribution at the Dry Tortugas: A comparison of reef maps from 1881 and 1976. Bull Mar Sci 32:608–623

    Google Scholar 

  • Devine B, Rogers C, Loomis C (2005) Mapping marine populations: Using surface water GPS for spatial analysis. Proc Gulf Caribb Fish Inst 56:411–420

    Google Scholar 

  • Getis A, Ord JK (1992) The analysis of spatial association by use of distance statistics. Geogr Anal 24:189–206

    Article  Google Scholar 

  • Gilliam D (2010) Southeast Florida Coral Reef evaluation and monitoring project 2009: Year 7 Final Report. Florida DEP report #RM085, Miami Beach, FL, p 42

    Google Scholar 

  • Gilliam D, Dodge R, Spieler R, Jordan L, Goergen E (2010) Marine biological monitoring in Broward County, Florida: Year 9 Annual Report. Prepared for the BC Board of County Commissioners, BC Natural Resources Planning and Management Division, Fort Lauderdale, FL, p 105

    Google Scholar 

  • Gilmore MD, Hall BR (1976) Life-history, growth habits, and constructional roles of Acropora cervicornis in patch reef environment. J Sediment Petrol 46:519–522

    Google Scholar 

  • Gladfelter WB (1982) White-Band disease in Acropora palmata : Implications for the structure and growth of shallow reefs. Bull Mar Sci 32:639–643

    Google Scholar 

  • Gleason ACR, Lirman D, Williams D, Gracias NR, Gintert BE, Madjidi H, Pamela Reid R, Chris Boynton G, Negahdaripour S, Miller M, Kramer P (2007) Documenting hurricane impacts on coral reefs using two-dimensional video-mosaic technology. Mar Ecol 28:254–258

    Article  Google Scholar 

  • Highsmith RC (1982) Reproduction by fragmentation in corals. Mar Ecol Prog Ser 7(207):226

    Google Scholar 

  • Hulbert IAR, French J (2001) The accuracy of GPS for wildlife telemetry and habitat mapping. J Appl Ecol 38:869–878

    Article  Google Scholar 

  • Jaap W, Sargent F (1994) The status of the remnant population of Acropora palmata (Lamarck, 1816) at Dry Tortugas National Park, Florida, with a discussion of possible causes of changes since 1881. In: Ginsburg RN (ed) Proceedings of the colloquium on global aspects of coral reefs: health, hazards and history. University of Miami, Miami, FL, pp 101–105

    Google Scholar 

  • Jenness J (2010) Tools for graphics and shapes: Extension for ArcGIS. Jenness Enterprises, Available at: http://www.jennessent.com/arcgis/shapes_graphics.htm

  • Knowlton N, Lang JC, Christine Rooney M, Clifford P (1981) Evidence for delayed mortality in hurricane-damaged Jamaican staghorn corals. Nature 294:251–252

    Article  Google Scholar 

  • Lidz BH, Brock JC, Nagle DB (2008) Utility of shallow-water ATRIS images in defining biogeologic processes and self-similarity in skeletal Scleractinia, Florida Reefs. J Coast Res:1320–1338

  • Lighty RG, MacIntyre IG, Stuckenrath R (1978) Submerged early Holocene barrier reef south-east Florida shelf. Nature 275:59–60

    Article  Google Scholar 

  • Lirman D, Bowden-kerby A, Schopmeyer S, Huntington B, Thyberg T, Gough M, Gough T, Gough R, Gough Y (2010) A window to the past: documenting the status of one of the last remaining ‘megapopulations’ of the threatened staghorn coral Acropora cervicornis in the Dominican Republic. Aquat Conserv: Mar Freshw Ecosyst 20:773–781

    Article  Google Scholar 

  • Miller M, Bourque A, Bohnsack J (2002) An analysis of the loss of acroporid corals at Looe Key, Florida, USA: 1983-2000. Coral Reefs 21:179–182

    Google Scholar 

  • Miller SL, Chiappone M, Rutten LM, Swanson DW (2008) Population status of Acropora corals in the Florida Keys. Proc 11th Int Coral Reef Symp:775–779

  • Neigel JE, Avise JC (1983) Clonal diversity and population structure in a reef-building coral, Acropora cervicornis: Self-recognition analysis and demographic interpretation. Evolution 37:437–453

    Article  Google Scholar 

  • Pandolfi JM (2002) Coral community dynamics at multiple scales. Coral Reefs 21:13–23

    Google Scholar 

  • Purkis SJ, Myint SW, Riegl BM (2006) Enhanced detection of the coral Acropora cervicornis from satellite imagery using a textural operator. Remote Sens Environ 101:82–94

    Article  Google Scholar 

  • Shinn E (1976) Coral reef recovery in Florida and the Persian Gulf. Environ Geol 1:241–254

    Google Scholar 

  • Tunnicliffe V (1981) Breakage and propagation of the stony coral Acropora cervicornis. Proc Natl Acad Sci USA 78:2427–2431

    Article  PubMed  CAS  Google Scholar 

  • Vargas-Ángel B, Thomas J (2002) Sexual reproduction of Acropora cervicornis in nearshore waters off Fort Lauderdale, Florida, USA. Coral Reefs 21:25–26

    Google Scholar 

  • Vargas-Ángel B, Thomas JD, Hoke SM (2003) High-latitude Acropora cervicornis thickets off Fort Lauderdale, Florida, USA. Coral Reefs 22:465–473

    Article  Google Scholar 

  • Vargas-Ángel B, Colley S, Hoke S, Thomas J (2006) The reproductive seasonality and gametogenic cycle of Acropora cervicornis off Broward County, Florida, USA. Coral Reefs 25:110–122

    Article  Google Scholar 

  • Wallace C (1999) Staghorn corals of the world—A revision of the genus Acropora. CSIRO Publishing, Melbourne

    Google Scholar 

  • Webster T, Cardina J (1997) Accuracy of global positioning system (GPS) for weed mapping. Weed Technol 11:782–786

    Google Scholar 

  • Williams D, Miller M (2006) Morphology offers no clues to asexual vs. sexual origin of small Acropora cervicornis (Scleractinia: Acroporidae) colonies. Rev Biol Trop 54:145–151

    Google Scholar 

  • Williams DE, Miller MW, Kramer KL (2006) Demographic monitoring protocols for threatened Caribbean Acropora spp. corals. NOAA Technical Memorandum NMFS-SEFSC-543, Miami, FL, 91

  • 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

    Article  PubMed  CAS  Google Scholar 

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Acknowledgments

This manuscript is a result of research partially funded by the National Oceanic and Atmospheric Administration Coastal Ocean Program under award NA03NOS4260046 to Nova Southeastern University for the National Coral Reef Institute. Thanks to Allison Brownlee, Stephanie Bush, Paola Espitia-Hecht, Daniel Fahy, Mauricio Lopez Padierna, Jennifer Mellein, Zachary Ostroff, Adam St. Gelais, and Charles Walton for their data-collecting assistance. This is NCRI contribution 139.

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Authors and Affiliations

  1. National Coral Reef Institute, Nova Southeastern University Oceanographic Center, 8000 North Ocean Drive, Dania Beach, FL, 33004, USA

    B. K. Walker, E. A. Larson, A. L. Moulding & D. S. Gilliam

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  1. B. K. Walker
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  2. E. A. Larson
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  3. A. L. Moulding
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  4. D. S. Gilliam
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Correspondence to B. K. Walker.

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Communicated by Ecology Editor Prof. Mark Hay

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Walker, B.K., Larson, E.A., Moulding, A.L. et al. Small-scale mapping of indeterminate arborescent acroporid coral (Acropora cervicornis) patches. Coral Reefs 31, 885–894 (2012). https://doi.org/10.1007/s00338-012-0910-3

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  • DOI: https://doi.org/10.1007/s00338-012-0910-3

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