The Experts below are selected from a list of 1053 Experts worldwide ranked by ideXlab platform
Susan A. Cochran - One of the best experts on this subject based on the ideXlab platform.
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Benthic habitat map of U.S. Coral Reef Task Force Faga‘alu Bay priority study area, Tutuila, American Samoa
Open-File Report, 2016Co-Authors: Susan A. Cochran, Ann E. Gibbs, Nicole L. D'antonio, Curt D. StorlazziAbstract:A benthic habitat polygon coverage has been created of the coral reef ecosystem within the U.S. Coral Reef Task Force Watershed Partnership Initiative Faga'alu Bay priority study area, Tutuila, American Samoa. Polygons were hand-digitized from visual interpretation of WorldView-2 satellite imagery and satellite-derived pseudobathymetry. We also utilized in situ knowledge from Underwater Photography and videography.
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Benthic habitat map of the U.S. Coral Reef Task Force Watershed Partnership Initiative Kā'anapali priority study area and the State of Hawai'i Kahekili Herbivore Fisheries Management Area, west-central Maui, Hawai'i
Open-File Report, 2014Co-Authors: Susan A. Cochran, Ann E. Gibbs, Darla J. WhiteAbstract:A benthic habitat polygon coverage has been created of the coral reef ecosystem within the U.S. Coral Reef Task Force Watershed Partnership Initiative Kaanapali priority study area and the State of Hawaii Kahekili Herbivore Fisheries Management Area, West-Central Maui, Hawaii. Polygons were hand-digitized from visual interpretation of QuickBird-2 satellite imagery (2005), and SHOALS bathymetry data. We also utilized in situ knowledge from Underwater Photography and videography (2002-2011), side-scan sonar data, and diver and snorkeler observations. The polygons have attributes for Main Structure/Substrate, Dominant Structure/Substrate, Major Biological Cover, Percent of Major Biological Cover, Reef Zone, Unique ID, and measurements of Area (in square meters) of each polygon.
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Benthic habitats of the coral reef ecosystem off the coast of Pu'uhonua O Honaunau (PUHO) National Historical Park
2007Co-Authors: Susan A. CochranAbstract:A benthic habitat polygon coverage has been created of the coral reef ecosystem off the coast of Pu'uhonua O Honaunau (PUHO) National Historical Park on the Kona Coast of Hawai'i. Polygons were hand-digitized from visual interpretation of aerial Photography and SHOALS bathymetry data. We also utilized in situ knowledge from towed instruments, Underwater Photography and videography, and diver and snorkeler observations. The polygons have attributes for Main Structure/Substrate, Dominant Structure/Substrate, Major Biological Cover, Percent of Major Biological Cover, Reef Zone, Unique ID, and measurements of area (m2) of each polygon.
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Benthic habitats of the coral reef ecosystem off the coast of Pu'ukohola Heiau (PUHE) National Historic Site
2007Co-Authors: Susan A. CochranAbstract:A benthic habitat polygon coverage has been created of the coral reef ecosystem off the coast of Pu'ukohola Heiau (PUHE) National Historic Site on the Kona Coast of Hawai'i. Polygons were hand-digitized from visual interpretation of aerial Photography and SHOALS bathymetry data. We also utilized in situ knowledge from towed instruments, Underwater Photography and videography, and diver and snorkeler observations. The polygons have attributes for Main Structure/Substrate, Dominant Structure/Substrate, Major Biological Cover, Percent of Major Biological Cover, Reef Zone, and Unique ID, and measurements of area (m2) of each polygon.
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Benthic habitats of the coral reef ecosystem on the south shore of Moloka'i
downloadable data, 2005Co-Authors: Susan A. CochranAbstract:A benthic habitat polygon coverage has been created of the coral reef ecosystem on the south shore of Moloka'i. Polygons were hand-digitized from visual interpretation of aerial Photography and SHOALS bathymetry data. We also utilized in situ knowledge from towed instruments, Underwater Photography and videography, and diver and snorkeler observations. The polygons have attributes for Main Structure/Substrate, Dominant Structure/Substrate, Major Biological Cover, Percent of Major Biological Cover, Reef Zone, and Unique ID, and measurements of acreage, area (m2) and perimeter (m) of each polygon.
Bogorodsky Sergey - One of the best experts on this subject based on the ideXlab platform.
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Figure 3 from: Fernandez-Silva I, Randall JE, Golani D, Bogorodsky SV (2016) Mulloidichthys flavolineatus flavicaudus Fernandez-Silva & Randall (Perciformes, Mullidae), a new subspecies of goatfish from the Red Sea and Arabian Sea. ZooKeys 605: 131-1
2016Co-Authors: Fernandez-silva Iria, Randall, John E., Golani Daniel, Bogorodsky SergeyAbstract:Figure 3 - Underwater Photography of Mulloidichthys flavolineatus flavolineatus from O'ahu, Hawai'i. Photo by John E. Randall
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Figure 8 from: Fernandez-Silva I, Randall JE, Golani D, Bogorodsky SV (2016) Mulloidichthys flavolineatus flavicaudus Fernandez-Silva & Randall (Perciformes, Mullidae), a new subspecies of goatfish from the Red Sea and Arabian Sea. ZooKeys 605: 131-1
2016Co-Authors: Fernandez-silva Iria, Randall, John E., Golani Daniel, Bogorodsky SergeyAbstract:Figure 8 - Underwater Photography of two Mulloidichthys flavolineatus flavicaudus subsp. n. and one Mulloidichthys vanicolensis (left) in the Saudi Red Sea off Jeddah. Photo by Hagen Schmid
Te Lewis - One of the best experts on this subject based on the ideXlab platform.
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in situ quantification of fish cage fouling by Underwater Photography and image analysis
Biofouling, 1995Co-Authors: Stephen L Hodson, Christopher M. Burke, Te LewisAbstract:Close‐up Underwater Photography and image analysis were used to quantify mesh occlusion by biofouling of salmon‐cage netting. This technique allows fast, non‐destructive sampling of cages in situ for the determination of temporal and spatial changes in fouling. The area of net blockage can be easily determined, allowing rapid evaluation of cleaning or antifouling performance.
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In situ quantification of fish‐cage fouling by Underwater Photography and image analysis
Biofouling, 1995Co-Authors: Stephen L Hodson, Christopher M. Burke, Te LewisAbstract:Close‐up Underwater Photography and image analysis were used to quantify mesh occlusion by biofouling of salmon‐cage netting. This technique allows fast, non‐destructive sampling of cages in situ for the determination of temporal and spatial changes in fouling. The area of net blockage can be easily determined, allowing rapid evaluation of cleaning or antifouling performance.
Ann E. Gibbs - One of the best experts on this subject based on the ideXlab platform.
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Benthic habitat map of U.S. Coral Reef Task Force Faga‘alu Bay priority study area, Tutuila, American Samoa
Open-File Report, 2016Co-Authors: Susan A. Cochran, Ann E. Gibbs, Nicole L. D'antonio, Curt D. StorlazziAbstract:A benthic habitat polygon coverage has been created of the coral reef ecosystem within the U.S. Coral Reef Task Force Watershed Partnership Initiative Faga'alu Bay priority study area, Tutuila, American Samoa. Polygons were hand-digitized from visual interpretation of WorldView-2 satellite imagery and satellite-derived pseudobathymetry. We also utilized in situ knowledge from Underwater Photography and videography.
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Benthic habitat map of the U.S. Coral Reef Task Force Watershed Partnership Initiative Kā'anapali priority study area and the State of Hawai'i Kahekili Herbivore Fisheries Management Area, west-central Maui, Hawai'i
Open-File Report, 2014Co-Authors: Susan A. Cochran, Ann E. Gibbs, Darla J. WhiteAbstract:A benthic habitat polygon coverage has been created of the coral reef ecosystem within the U.S. Coral Reef Task Force Watershed Partnership Initiative Kaanapali priority study area and the State of Hawaii Kahekili Herbivore Fisheries Management Area, West-Central Maui, Hawaii. Polygons were hand-digitized from visual interpretation of QuickBird-2 satellite imagery (2005), and SHOALS bathymetry data. We also utilized in situ knowledge from Underwater Photography and videography (2002-2011), side-scan sonar data, and diver and snorkeler observations. The polygons have attributes for Main Structure/Substrate, Dominant Structure/Substrate, Major Biological Cover, Percent of Major Biological Cover, Reef Zone, Unique ID, and measurements of Area (in square meters) of each polygon.
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KAHO_BenthicHabitats - Benthic habitat of the coral reef ecosystem within and adjacent to Kaloko-Honokohau National Historical Park (KAHO) on the Kona Coast of Hawaii.
downloadable data, 2007Co-Authors: Ann E. GibbsAbstract:A benthic habitat polygon coverage has been created of the coral reef ecosystem within and adjacent to Kaloko-Honokohau National Historical Park (KAHO) on the Kona Coast of Hawai'i. Polygons were hand-digitized from visual interpretation of aerial Photography and SHOALS bathymetry data. We also utilized in situ knowledge from towed instruments, Underwater Photography and videography, and diver and snorkeler observations. The polygons have attributes for Main Structure/Substrate, Dominant Structure/Substrate, Major Biological Cover, Percent of Major Biological Cover, Reef Zone, Unique ID, and measurements of Area (m2) of each polygon.
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Benthic habitats of the coral reef ecosystem off the coast of Kaloko-Honokohau (KAHO) National Historical Park
2007Co-Authors: Ann E. GibbsAbstract:A benthic habitat polygon coverage has been created of the coral reef ecosystem within and adjacent to Kaloko-Honokohau (KAHO) National Historical Park on the Kona Coast of Hawai'i. Polygons were hand-digitized from visual interpretation of aerial Photography and SHOALS bathymetry data. We also utilized in situ knowledge from towed instruments, Underwater Photography and videography, and diver and snorkeler observations. The polygons have attributes for Main Structure/Substrate, Dominant Structure/Substrate, Major Biological Cover, Percent of Major Biological Cover, Reef Zone, Unique ID, and measurements of Area (m2) of each polygon.
Fernandez-silva Iria - One of the best experts on this subject based on the ideXlab platform.
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Figure 3 from: Fernandez-Silva I, Randall JE, Golani D, Bogorodsky SV (2016) Mulloidichthys flavolineatus flavicaudus Fernandez-Silva & Randall (Perciformes, Mullidae), a new subspecies of goatfish from the Red Sea and Arabian Sea. ZooKeys 605: 131-1
2016Co-Authors: Fernandez-silva Iria, Randall, John E., Golani Daniel, Bogorodsky SergeyAbstract:Figure 3 - Underwater Photography of Mulloidichthys flavolineatus flavolineatus from O'ahu, Hawai'i. Photo by John E. Randall
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Figure 8 from: Fernandez-Silva I, Randall JE, Golani D, Bogorodsky SV (2016) Mulloidichthys flavolineatus flavicaudus Fernandez-Silva & Randall (Perciformes, Mullidae), a new subspecies of goatfish from the Red Sea and Arabian Sea. ZooKeys 605: 131-1
2016Co-Authors: Fernandez-silva Iria, Randall, John E., Golani Daniel, Bogorodsky SergeyAbstract:Figure 8 - Underwater Photography of two Mulloidichthys flavolineatus flavicaudus subsp. n. and one Mulloidichthys vanicolensis (left) in the Saudi Red Sea off Jeddah. Photo by Hagen Schmid