A sample of some of the tools and technologies that will be employed during this mission. Click image for larger view and image credit.
View a Bonaire 2008 slideshow of the exploration maps and AUV images.
Bonaire 2008: Exploring Coral Reef Sustainability with New Technologies
January 7 - 30, 2008
Bonaire, Netherlands Antilles (Figure 1), is arguably the most pristine coral reef environment in the Caribbean. Percent coral cover is the highest and percent algal cover the lowest compared to other Caribbean reefs and thus its reef environment represents a baseline against which we can compare other coral reefs. Bonaire’s economy depends heavily on diving tourism, with over 31,000 SCUBA divers entering its waters annually. The Bonaire Marine Park Authority oversees the administration and protection of this unique underwater resource with help from STINAPA, a management advisory body. Although the shallow leeward environment near Bonaire between 0-12 m was mapped in the 80’s by a Dutch scientist, Dr. Fleur van Duyl, little to no survey work has been conducted on the deeper reef (60-100 m) on into deeper water (100-300 m). The shallow water survey (van Duyl 1985) provides a rich database (Figure 2) against which to assess decadal changes. A recent meeting of the International Coral Reef Initiative, an effort of the United Nations Environmental Program, identified mapping the reefs of Bonaire a top priority in a regional context, and the territorial government of Bonaire has indicated strong support for our mapping project. Bonaire, Curacao, Las Aves, and Los Roques have recently been proposed for United Nations World Heritage Status given the pristine marine environments and high degree of endemic species which are those found nowhere else on the planet.
The goal of the Bonaire expedition is to survey this unique environment over a greater depth range than can be reached with compressed air SCUBA, using 3 Autonomous Underwater Vehicles (AUVs) (Figure 4), technical diving, and in a future year, a manned submersible. Scientists from the College of William & Mary’s Virginia Institute of Marine Science, the University of Delaware, and the Scripps Institution of Oceanography are leading the expedition. We also have help from the Island Government of Bonaire, scientists at the National Oceanography Centre, United Kingdom, and two makers of underwater technology, Hafmynd and GeoAcoustics. This unique mapping of the biological and physical environment will document patterns of biodiversity in shallow and deep parts of the reef. We may discover new species. Because AUVs can fly in close proximity to the bottom in terrain-following mode, the AUVs will provide a superior method of imaging the bottom using such sensors as side scan sonar, multibeam sonar, and digital video (Figure 5), compared to towing these sensors over the reef on a sled, or using a boat at the surface. The AUVs can also simultaneously measure water currents near the bottom, dissolved oxygen, chlorophyll, pH, conductivity, and temperature. We will also be deploying fixed bottom instruments to measure temperature fluctuations and water currents. Because the AUVs can work 6-12 hours/day depending on survey speeds, we should also be able to map several square kilometers per day. This robot mapping effort will be ground-truthed at select spots by compressed air and trimix SCUBA divers using underwater video. This re-mapping of the shallow reefs of Bonaire using new tools, and the explorations into deeper water using AUV technology, will provide an important resource for this island territory in the form of a detailed snapshot of shallow and deep reefs. The shallow reef mapping will be compared to the 1985 snapshot taken by van Duyl, as well as other limited surveys by other scientists. The deeper reef mapping will serve as a new snapshot against which future explorations can compare. This reef mapping expedition, with the GIS database on bottom type, species composition, and overlying water quality, will help the Island Government of Bonaire continue to protect this unique ecosystem and help guide efforts to manage Fishing Protected Areas and marine reserves.
You can access the Ocean Explorer Bonaire 2008: Exploring Coral Reef Sustainability with New Technologies News feed here: 
Updates & Logs
Click images or links below for detailed mission logs and updates.
Mission Summary Chief Scientist Mark Patterson provides a mission summary, highlighting why they decided to come to Bonaire's pristine environment for scientific research and why they are seeing some troubling factors regarding the health of the coral reefs.
January 27 The team overcame the challenge of mapping underwater 'microbialites' - calcium carbonate mounds that result from the presence of a microbial community.
January 26 How do you feed and support a large mission like NOAA Bonaire 2008?
January 25 What can you learn on a multidisciplinary expedition like Bonaire 2008? Find out as the students reflect on the experience. Part 2 of 2.
January 24 The Study Abroad students have their say and reveal what it was like to be on the Bonaire expedition. Part 1 of 2.
January 23 How is the Bonaire 2008 Expedition different from many of Ocean Explorer's other missions?
January 22 Elkhorn coral, once prevalent around the island’s leeward coast, can now only be found in a few areas.
January 21 The Fetch and Gavia AUV's are simultaneously conducting survey missions utilizing side scan sonar, some water quality sensors, and color video cameras at various dive sites. 
Includes Video
January 20 Sixteen students, mostly upperclassmen pursuing degrees in biology, geology and environmental sciences, have come to Bonaire through the University of Delaware’s Caribbean Study Abroad Program.
January 19 Learn why the scientific dive team is navigating by GPS along a predetermined heading conducting video transects of coral cover.
January 17 The survey data collected by the GeoSwath sonar on the Gavia AUV provides a high-resolution side-scan sonar mosaic.
January 16 The bathymetric sonar onboard the Gavia AUV provides an incredibly dense map of the reef structure including the overhanging coral on the crest of the reef. Includes Video
January 15 Deploying the 165-foot-long BOA temperature array of sensors with data loggers and heavy concrete anchors was quite a project.
January 14 A recent inductee in the Explorers Club of New York is carrying a flag that has been on expeditions since 1934.
January 13 Students from the University of Delaware got their feet wet as they helped launch the Gavia AUVs.
January 12 The Gavia AUV team bound for a day of field operations are loaded up with their two robots and support equipment. Includes Video
January 10 The scientists are hard at work assembling and testing gear in preparation for deployment.
January 8 The mission receives invaluable help from Ramón de Leon and Frank van Slobbe, from the government of Bonaire.
January 7 The science team prepares to scout out the island and the reefs of Bonaire and learn why they always have to be ready to improvise and adapt.
Bonaire W08 Blog
, an account of the adventures of the Caribbean Winter 2008 Study Abroad Program in Geology and Field Biology from the University of Delaware College of Marine and Earth Studies to Bonaire.
