Changes of coral communities over 35 years: Integrating in situ and remote-sensing data on Saint-Leu Reef (la Reunion, Indian Ocean)

Monitoring coral reef communities at a decadal scale is necessary to understand and project their dynamics to provide a basis for reef management in light of disturbances and climate change. Complementing infrequent and localised in situ observations, time-series of aerial photographs and remotely sensed satellite images provide a means of monitoring the position and extent of reef-top coral communities, vegetation and abiotic substrata at the whole reef scale. The aim of the present study was to map such changes on Saint-Leu Reef (La Reunion) between 1973 and 2007. The period included two cyclones (1989, 2002) and one severe bleaching event (2002). Vertical images of the reef were recorded in five aerial photographs (1973, 1978, 1989, 1997, and 2003) and two Quickbird satellite images (2002, 2006) during that time. Quantitative in situ observations of parts of the reef-top were also available both to document ecological and substratum characteristics that produce the color and texture observable in the photos and satellite images. Coral communities were mapped on all images using manual delineation of polygons identified according to color and texture contrast. The 2006 Quickbird image was used as the mapping base and 15 types of coral communities were identified from a reef survey conducted in 2007. This hierarchical typology used coral growth forms, live and dead coral cover, macro-algae, substratum (sand, rubble and platform) and, to a lesser extent, coral taxonomy. The polygons at date t were over-laid onto image t - 1 across the whole series and their boundaries were manually edited to match the pattern on the earlier image. Labelling of polygons was guided by field-survey data and maps. For coral-dominated patches, six successive pairs of maps from 1973 to 2006 were compared to produce 'coral community change maps' for that period. Despite the multiple disturbance events, the coral community distribution and composition in 2006 on Saint-Leu Reef did not display major differences compared to 1973. This suggests a high degree of coral resilience at the site, led by rapid recovery of compact branching corals. The mapping techniques overcame challenges due to different image quality and the sparsity of in situ observations in time and space. Our results demonstrate the potential for further application of reef monitoring protocols based on complementary in situ and remote-sensing data to help understand the dynamics of reef-top coral reef communities and geomorphology over years to decades.

[1]  J. Connell,et al.  A 30-year study of coral abundance, recruitment, and disturbance at several scales in space and time , 1997 .

[2]  Experimental shift in benthic community structure , 1996 .

[3]  Christine Largouët,et al.  Modelling coral reef habitat trajectories: Evaluation of an integrated timed automata and remote sensing approach , 2007 .

[4]  T. Done,et al.  Quantitative video sampling of coral reef benthos: large-scale application , 1995, Coral Reefs.

[5]  K. Yamazato,et al.  Coral bleaching: the winners and the losers , 2001 .

[6]  Hiroya Yamano,et al.  21-year Changes of Backreef Coral Distribution: Causes and Significance , 2000 .

[7]  David Fisk,et al.  Decadal changes in turbid-water coral communities at Pandora Reef: loss of resilience or too soon to tell? , 2007, Coral Reefs.

[8]  T. McClanahan,et al.  Coral reefs of the Indian Ocean : their ecology and conservation , 2000 .

[9]  Len J. McKenzie,et al.  Chapter 5 – Methods for mapping seagrass distribution , 2001 .

[10]  J. Bruno,et al.  Rapid phase-shift reversal on a Jamaican coral reef , 2006, Coral Reefs.

[11]  S. Purkis,et al.  Documenting Decadal Spatial Changes in Seagrass and Acropora palmata Cover by Aerial Photography Analysis in Vieques, Puerto Rico: 1937-2000 , 2006 .

[12]  J. Lewis,et al.  Evidence from aerial photography of structural loss of coral reefs at Barbados, West Indies , 2002, Coral Reefs.

[13]  E. Brown,et al.  Twenty-five years of change in coral coverage on a hurricane impacted reef in Hawai‘i: the importance of recruitment , 2007, Coral Reefs.

[14]  R. Grosberg,et al.  Climate Change, Human Impacts, and the Resilience of Coral Reefs , 2003, Science.

[15]  S. Andréfouët,et al.  Quantification of two decades of shallow-water coral reef habitat decline in the Florida Keys National Marine Sanctuary using Landsat data (1984-2002) , 2008 .

[16]  Pierre Legendre,et al.  Medium scale approach (MSA) for improved assessment of coral reef fish habitat , 2006 .

[17]  R. W. Buddemeier,et al.  The future of coral reefs in an age of global change , 2001 .

[18]  Christopher D. Elvidge,et al.  Satellite observation of Keppel Islands (Great Barrier Reef) 2002 coral bleaching using IKONOS data , 2004, Coral Reefs.

[19]  T. Spencer,et al.  Carbonate budgets and reef production states: a geomorphic perspective on the ecological phase-shift concept , 2008, Coral Reefs.

[20]  K. Bjorndal,et al.  Global Trajectories of the Long-Term Decline of Coral Reef Ecosystems , 2003, Science.

[21]  Bernhard Riegl,et al.  Holocene coral reef rubble and its binding agents , 2002, Coral Reefs.

[22]  A. Condal,et al.  Mapping of shallow coral reefs by colour aerial photography , 2002 .

[23]  D. Rundquist,et al.  Benthic Habitat Mapping in Tropical Marine Environments Using QuickBird Multispectral Data , 2006 .

[24]  John R. Jensen Introductory Digital Image Processing , 2004 .

[25]  N. Knowlton Who are the players on coral reefs and does it matter? The importance of coral taxonomy for coral reef management , 2001 .

[26]  J. Bruno,et al.  Regional Decline of Coral Cover in the Indo-Pacific: Timing, Extent, and Subregional Comparisons , 2007, PloS one.

[27]  T. Done,et al.  Ecological criteria for evaluating coral reefs and their implications for managers and researchers , 1995, Coral Reefs.

[28]  T. Done,et al.  Regional and local variability in recovery of shallow coral communities: Moorea, French Polynesia and central Great Barrier Reef , 2004, Coral Reefs.

[29]  S. Andréfouët,et al.  Remote sensing: a key tool for interdisciplinary assessment of coral reef processes , 2004, Coral Reefs.

[30]  H. Fox,et al.  Recovery in rubble fields: long-term impacts of blast fishing. , 2003, Marine pollution bulletin.

[31]  M. Nyström,et al.  Capturing the cornerstones of coral reef resilience: linking theory to practice , 2008, Coral Reefs.

[32]  A. Grant,et al.  HURRICANES AND CARIBBEAN CORAL REEFS: IMPACTS, RECOVERY PATTERNS, AND ROLE IN LONG‐TERM DECLINE , 2005 .

[33]  T. Hughes,et al.  RECRUITMENT FAILURE, LIFE HISTORIES, AND LONG‐TERM DECLINE OF CARIBBEAN CORALS , 2000 .

[34]  F. Short,et al.  Global seagrass research methods , 2001 .

[35]  J. Stimson,et al.  Potential reversal of a phase shift: the rapid decrease in the cover of the invasive green macroalga Dictyosphaeria cavernosa Forsskål on coral reefs in Kāne‘ohe Bay, Oahu, Hawai‘i , 2008, Coral Reefs.

[36]  R. Woesik,et al.  Coral recovery from the 1998 bleaching event is facilitated in Stegastes (Pisces: Pomacentridae) territories, Okinawa, Japan , 2001, Coral Reefs.

[37]  John R. Jensen,et al.  Introductory Digital Image Processing: A Remote Sensing Perspective , 1986 .

[38]  S. Andréfouët,et al.  Change detection in coral reef communities using Ikonos satellite sensor imagery and historic aerial photographs , 2003 .

[39]  T. McClanahan,et al.  Resilience of coral reefs , 2002 .

[40]  Samuel J. Purkis,et al.  Spatial and temporal dynamics of Arabian Gulf coral assemblages quantified from remote-sensing and in situ monitoring data , 2005 .

[41]  T. Done,et al.  Regeneration of a reef flat ten years after the impact of the cyclone Firinga (Reunion, SW Indian ocean) , 2000 .