Along-Track Reef Imaging System (ATRIS) Completed
ATRIS is a benthic-survey tool that simultaneously acquires geo-located, color, digital images with corresponding water depths.
Mapping the Seafloor with ATRIS
ATRIS (Along-Track Reef Imaging System) is an effective tool for rapidly mapping the seafloor over large areas. For example, during a 2011 study in Dry Tortugas National Park, over 258,000 color digital images were acquired along 79 km of transect lines in just 26 hours of operation. The system has 3 possible configurations: "Shallow," "Deep," and "Drift." Shallow and Deep ATRIS are typically deployed from a 25-foot boat.
Past uses of ATRIS include habitat mapping in support of sea turtle research within Dry Tortugas National Park and surveying the patch reefs off of Marathon, Florida, after a 2011 coral-bleaching event.
Shallow ATRIS
Shallow ATRIS is a boat-mounted system with the camera, transducer, laser pointers, and GPS antenna all mounted to a movable pole. Maximum pole length is ~4 m, making this configuration suitable for water depths up to 10 m under ideal conditions. be suspended in the water column as the boat drifts over a region of interest. Both Deep & Drift ATRIS can accommodate additional sensors, depending on size and power requirements.
Deep ATRIS
Deep ATRIS is based on a light-weight, computer-controlled, towed vehicle that is capable of following a programmed diving profile. The vehicle is 1.3 m long with a 63-cm wing span and can carry a wide variety of research instruments, including CTDs, fluorometers, transmissometers, and cameras. Deep ATRIS is currently equipped with a high-speed (20 frames per sec.) digital camera, light-emitting-diode (LED) lights, a compass, a 3-axis orientation sensor, and both a downward- and forward-looking altimeters. The latter is part of an obstacle-avoidance system. The vehicle dynamically adjusts its altitude to maintain a fixed height above the seafloor. The camera has a 29° x 22° field-of-view and captures color images that are 1360 x 1024 pixels in size. GPS coordinates are recorded for each image. A gigabit ethernet connection enables the images to be displayed and archived in real time on the surface computer. Deep ATRIS has a maximum tow speed of 2.6 m/sec and a theoretical operating tow-depth limit of 27 m. The operating depth could be extended to 90 m by replacing the data-transmission wires with fiber optics. Mosaicked images illustrate the high-quality imagery that can be obtained with this system. The images also reveal the potential for unobtrusive animal observations; fish and sea turtles are unperturbed by the presence of Deep ATRIS.
Drift ATRIS
For Drift ATRIS, all of the instrumentation is mounted to a frame that can be lowered to 95 m. As the name implies, it is designed to be suspended in the water column as the boat drifts over a region of interest. Both Deep & Drift ATRIS can accommodate additional sensors, depending on size and power requirements.
Below are other science projects associated with this research.
Advanced Remote Sensing Methods for Coastal Science and Management
Fine-scale Benthic Habitat Mapping
Modeling Seafloor Structural Complexity
Applications of Coral Fluorescence
Below are publications associated with this project.
Possible return of Acropora cervicornis at Pulaski Shoal, Dry Tortugas National Park, Florida
Habitat use of breeding green turtles Chelonia mydas tagged in Dry Tortugas National Park: Making use of local and regional MPAs
Benthic habitat classification in Lignumvitae Key Basin, Florida Bay, using the U.S. Geological Survey Along-Track Reef Imaging System (ATRIS)
Inter-nesting habitat-use patterns of loggerhead sea turtles: Enhancing satellite tracking with benthic mapping
Detailed seafloor habitat mapping to enhance marine-resource management
A new towed platform for the unobtrusive surveying of benthic habitats and organisms
Along-Track Reef Imaging System (ATRIS)
- Overview
ATRIS is a benthic-survey tool that simultaneously acquires geo-located, color, digital images with corresponding water depths.
Mapping the Seafloor with ATRIS
ATRIS (Along-Track Reef Imaging System) is an effective tool for rapidly mapping the seafloor over large areas. For example, during a 2011 study in Dry Tortugas National Park, over 258,000 color digital images were acquired along 79 km of transect lines in just 26 hours of operation. The system has 3 possible configurations: "Shallow," "Deep," and "Drift." Shallow and Deep ATRIS are typically deployed from a 25-foot boat.
Past uses of ATRIS include habitat mapping in support of sea turtle research within Dry Tortugas National Park and surveying the patch reefs off of Marathon, Florida, after a 2011 coral-bleaching event.
Shallow ATRIS
Shallow ATRIS is a boat-mounted system with the camera, transducer, laser pointers, and GPS antenna all mounted to a movable pole. Maximum pole length is ~4 m, making this configuration suitable for water depths up to 10 m under ideal conditions. be suspended in the water column as the boat drifts over a region of interest. Both Deep & Drift ATRIS can accommodate additional sensors, depending on size and power requirements.
Deep ATRIS
Deep ATRIS is based on a light-weight, computer-controlled, towed vehicle that is capable of following a programmed diving profile. The vehicle is 1.3 m long with a 63-cm wing span and can carry a wide variety of research instruments, including CTDs, fluorometers, transmissometers, and cameras. Deep ATRIS is currently equipped with a high-speed (20 frames per sec.) digital camera, light-emitting-diode (LED) lights, a compass, a 3-axis orientation sensor, and both a downward- and forward-looking altimeters. The latter is part of an obstacle-avoidance system. The vehicle dynamically adjusts its altitude to maintain a fixed height above the seafloor. The camera has a 29° x 22° field-of-view and captures color images that are 1360 x 1024 pixels in size. GPS coordinates are recorded for each image. A gigabit ethernet connection enables the images to be displayed and archived in real time on the surface computer. Deep ATRIS has a maximum tow speed of 2.6 m/sec and a theoretical operating tow-depth limit of 27 m. The operating depth could be extended to 90 m by replacing the data-transmission wires with fiber optics. Mosaicked images illustrate the high-quality imagery that can be obtained with this system. The images also reveal the potential for unobtrusive animal observations; fish and sea turtles are unperturbed by the presence of Deep ATRIS.
Drift ATRIS
For Drift ATRIS, all of the instrumentation is mounted to a frame that can be lowered to 95 m. As the name implies, it is designed to be suspended in the water column as the boat drifts over a region of interest. Both Deep & Drift ATRIS can accommodate additional sensors, depending on size and power requirements.
- Science
Below are other science projects associated with this research.
Advanced Remote Sensing Methods for Coastal Science and Management
This project focused on developing algorithms for quantifying benthic habitat complexity from images, modeling the structural complexity of the seafloor, and using fluorescence signatures to classify coral reef habitats.Fine-scale Benthic Habitat Mapping
Both ATRIS configurations were deployed in Dry Tortugas National Park (DRTO) to fill information gaps in the spatial coverage of existing habitat maps.Modeling Seafloor Structural Complexity
This effort focused on understanding the patterns and scalability of roughness and topographic complexity of marine habitats, such as coral reefs.Applications of Coral Fluorescence
Fluorescence is an often overlooked property of reef-building corals that can improve the classification of reef habitats from imagery and provide diagnostic information on corals. - Publications
Below are publications associated with this project.
Possible return of Acropora cervicornis at Pulaski Shoal, Dry Tortugas National Park, Florida
Seabed classification is essential to assessing environmental associations and physical status in coral reef ecosystems. At Pulaski Shoal in Dry Tortugas National Park, Florida, nearly continuous underwater-image coverage was acquired in 15.5 hours in 2009 along 70.2 km of transect lines spanning ~0.2 km2. The Along-Track Reef-Imaging System (ATRIS), a boat-based, high-speed, digital imaging systeAuthorsBarbara H. Lidz, David G. ZawadaHabitat use of breeding green turtles Chelonia mydas tagged in Dry Tortugas National Park: Making use of local and regional MPAs
Use of existing marine protected areas (MPAs) by far-ranging marine turtles can be determined using satellite telemetry. Because of a lack of information on MPA use by marine turtles in the Gulf of Mexico, we used satellite transmitters in 2010 and 2011 to track movements of 11 adult female breeding green turtles (Chelonia mydas) tagged in Dry Tortugas National Park (DRTO), in the Gulf of Mexico,AuthorsKristen Hart, David G. Zawada, Ikuko Fujisaki, Barbara H. LidzBenthic habitat classification in Lignumvitae Key Basin, Florida Bay, using the U.S. Geological Survey Along-Track Reef Imaging System (ATRIS)
The Comprehensive Everglades Restoration Plan (CERP) funded in partnership between the U.S. Army Corps of Engineers, South Florida Water Management District, and other Federal, local and Tribal members has in its mandate a guideline to protect and restore freshwater flows to coastal environments to pre-1940s conditions (CERP, 1999). Historic salinity data are sparse for Florida Bay, so it is diffiAuthorsC. D. Reich, D.G. Zawada, P.R. Thompson, C.E. Reynolds, A.H. Spear, D.K. Umberger, R. Z. PooreInter-nesting habitat-use patterns of loggerhead sea turtles: Enhancing satellite tracking with benthic mapping
The loggerhead sea turtle Caretta caretta faces declining nest numbers and bycatches from commercial longline fishing in the southeastern USA. Understanding spatial and temporal habitat-use patterns of these turtles, especially reproductive females in the neritic zone, is critical for guiding management decisions. To assess marine turtle habitat use within the Dry Tortugas National Park (DRTO), weAuthorsKristen M. Hart, David G. Zawada, Ikuko Fujisaki, Barbara H. LidzDetailed seafloor habitat mapping to enhance marine-resource management
Pictures of the seafloor capture important information about the sediments, exposed geologic features, submerged aquatic vegetation, and animals found in a given habitat. With the emergence of marine protected areas (MPAs) as a favored tactic for preserving coral reef resources, knowledge of essential habitat components is paramount to designing effective management strategies. Surprisingly, detaiAuthorsDavid G. Zawada, Kristen M. HartA new towed platform for the unobtrusive surveying of benthic habitats and organisms
Maps of coral ecosystems are needed to support many conservation and management objectives, as well as research activities. Examples include ground-truthing aerial and satellite imagery, characterizing essential habitat, assessing changes, and monitoring the progress of restoration efforts. To address some of these needs, the U.S. Geological Survey developed the Along-Track Reef-Imaging System (ATAuthorsDavid G. Zawada, P.R. Thompson, J. ButcherAlong-Track Reef Imaging System (ATRIS)
"Along-Track Reef Imaging System (ATRIS)" describes the U.S. Geological Survey's Along-Track Reef Imaging System, a boat-based sensor package for rapidly mapping shallow water benthic environments. ATRIS acquires high resolution, color digital images that are accurately geo-located in real-time.AuthorsJohn Brock, Dave Zawada