Hanaizumi, H, Akiba, M, Yamano, H & Matsunaga, T 2008, 4
pan-sharpening method for satellite image-based coral reef
monitoring with higher accuracy, Proceedings of the 11th
International Coral Reef Symposium, Ft. Lauderdale, Florida,
7-11 July 2008, vol. 1, pp. 633-637 (Session number 17)
Hochberg, E, Andrefouet, S & Tyler, M 2003, Sea surface
correction of high spatial resolution Ikonos images to improve
bottom mapping in nearshore environments, JEEE Trans on
Geosci and Rem Sens, vol. 41, no. 7, pp. 1724-1729
Holden, H & LeDrew, E 1998, The scientific issues surrounding
remote detection of submerged coral ecosystems, Progress in
Physical Geographyvol. 22, no. 2, pp. 190-221
Johannes, R E & Riepen, M 1995, Environmental, economic and
social implications of the live reef fish trade in Asia and the
western Pacific, Report to the Nature Conservancy and the
South Pacific Forum Fisheries Agency, pp. 80.
Kerr, J 2010, Worldview 2 offer new capabilities for monitoring of
threatened coral reefs, Nova Southeastern University,
National Coral Reef Institute
Kutser, T, Miller, I, & Jupp, D L B 2006, Mapping coral reef
benthic substrates using hyperspectral space-borne images
and spectral libraries. Estuarine, Coastal and Shelf Science,
vol. 70, pp. 449—460
Knowlton, N & Jackson, B C J 2008, Shifting Baseline, Local
Impacts, and Global Change on Coral Reefs, PLOS Biology,
vol. 6, no. 2
Kuwait Diving Team (KDT) 2009, Kuwait Diving Team's Report
of Coral Bleaching in the Reefs of the State of Kuwait,
viewed 25 June 2011, =
http://coralwatch.org/c/document library/get file?uuid=0786
36be-d7f6-4c15-9cd8-dda01d201253&groupId=10136>
Lee, Z, Carder, K, Mobley, C, Steward, R & Patch, J 1999,
Hyperspectral remote sensing for shallow waters: 2. Deriving
bottom depths and water properties by optimization, Applied
Optics, Vol.38, No. 18, Optical Society of America
Ling, Y., M. Ehlers, et al 2008, Effects of spatial resolution ratio
in image fusion, International Journal of Remote Sensing,
Vol.29, No.7, pp. 2157-2167
Lyzenga, R D 1978, Passive remote sensing techniques for
mapping water depth and bottom features, Applied Optics,
vol. 17, No. 3, , Optical Society of America
Maeder, J, Narumalani, S, Rundquist, D, Perk, R, Schalles, J,
Hutchins, K & Keck, J 2002, Classifying and Mapping
General Coral-Reef Structure Using Ikonos Data,
Photogrammetric Engineering & Remote Sensing, vol. 68, no.
12, pp. 1297-1305
Mitchell, H 2010, /mage Fusion: Theories, Techniques and
Application, Springer-Verlag Berlin Heidelberg
Moberg, F & Folke, C 1999, Ecological Goods and Services of
Coral Reef Ecosystems, Ecological Economics, vol. 29, no. 2,
pp. 215-233
Mumby, P J & Edwards, A J 2002, Mapping marine environments
with IKONOS imagery: Enhanced spatial resolution can
deliver greater thematic accuracy. Remote Sensing of
Environment, vol. 82, pp. 248—257
Mumby, P, Green, E, Edwards, A & Clark, C 1999, The cost-
effectiveness of remote sensing for tropical coastal resources
assessment and management, Journal of Environmental
Management, vol. 55, pp. 157-166
International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Volume XXXIX-B3, 2012
XXII ISPRS Congress, 25 August — 01 September 2012, Melbourne, Australia
Mumby, P, Clark, C, Green, E & Edwards, A 1998, The practical
benefits of water column correction and contextual editing for
mapping coral reefs,/nternational Journal of Remote Sensing,
vol. 19, no.1, pp. 203-210
Mumby, P, Green, E, Edwards, A & Clark, C 1997, Coral reef
habitat mapping: how much detail can remote sensing
provide?, Marine Biology, Vol. 130, no. 2, pp. 193-202
NASA 201la, Remote sensing of coral reefs: Overview of
integrated collaborations, projects and products, viewed 24
June 2011, <http://jsc.nasa.gov/reefs/>
NASA 201lb, Aqua Project Science, viewed 11
2011,<http://aqua.nasa.gov/about/instrument modis.php>
NASA n.d, Quicklook: Landsat 4, 5, viewed 9 July 2011,
<http://space.jpl.nasa.gov/msl/quicklooks/landsat4q|.html>
NASA 1999, Landsat 7: Supplying data users worldwide with low
cost, multi-purpose, land remote sensing data into the next
century, viewed 9 July 2011,
<Thttp://geo.arc.nasa.gov/sge/landsat/17.html>
Nurlidiasari, M 2004, The Application of QuickBird and Multi-
temporal Landsat TM Data for Coral Reef Habitat Mapping;
Case study: Derawan Island, East Kalimantan Indonesia,
International Institute for Geo-Information Science and Earth
Observation, Enschede, The Netherlands
Palandro, D, Andréfouët, S, Dustan, P & Muller-Karger F 2003,
Change detection in coral reef communities using Ikonos
satellite imagery and historic aerial photographs, Int J Remote
Sens, vol. 24, pp. 873-878
Peng, Y, Wang, J, Wang, C 2010, Polygonal Objects Fusion in
Spatial Databases, International Conference on Electrical and
Control Engineering, IEEE
Porter, J W & Tougas, J I 2001, Reef ecosystems: Threats to their
biodiversity, in Encyclopedia of Biodiversity, S.A.Levin, ed.,
Academic Press, San Diego, CA, pp. 73-95
Satellite Imaging Corporation (SIC), 2010, SPOT-S Satellite
Imagery and Sensor Characteristics, viewed 11 July
2011,<Shttp://Www.satimagingcorp.com/satellite-
sensors/spot-5.html>
Scopélitis, J, Andréfouét, S, Phinn, S, Arroyo, L, Dalleau, M,
Cros , A, Chabanet, P 2010, The next step in shallow coral
reef monitoring: Combining remote sensing and in situ
approaches, Marine Pollution Bulletin, vol. 60, pp. 1956-
1968
Sterckx, S, Debruyn, W, Van Der Straete, T, Goossens, R & Van
Der Heijden, P 2005, Hyperspectral data for coral reef
monitoring, A case study: Fordate, Tanimbar, Indonesia. In
EARSeL eProceedings, vol. 4, pp. 18-25, viewed 19 July
2011: <las.physik.unioldenburg.de/eProceedings/>
USGS 2010, Sensors — Hyperion, viewed 15 July 2011,
<http://edcsns17.cr.usgs.gov/eol/sensors/hyperion>
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