No single mapping approach is effective for evaluating the overall health of a reef or to determine the cause of its demise. It is only through combining techniques that scientists can establish the most complete view of a reef, one that can be used for evaluating current reef health and providing a baseline to detect future change.
This study is part of the USGS Coral Reef Project.
The Problem
One of the strategic goals of the USGS Pacific Coral Reefs Project is to assist land-use managers in their protection efforts by establishing the geologic framework for ecosystem structure and function. Mapping of coral reefs provides important information about a number of reef characteristics, such as overall structure and morphology, abundance and distribution of living coral, and distribution and types of sediment.
To document evidence of change in any ecosystem, one must first have a starting point—a "baseline" inventory of resources. Thematic maps providing this baseline inventory are an important tool for assessing changes in coral reef ecosystems, allowing scientists to spatially document changes in coral location, percentage of cover, and relative overall health of the system. In the past two decades, scientists and managers have recognized the lack of thematic maps for coral reefs worldwide.
No single mapping approach is effective for evaluating the overall health of a reef or to determine the cause of its demise. It is only through combining techniques that scientists can establish the most complete view of a reef, one that can be used for evaluating current reef health and providing a baseline to detect future change.
The Approach
We first aim to identify innovative mapping methodologies to find the most efficient methods of mapping and remote sensing that can be used to address coral reef issues of distribution, morphology, benthic cover, and history of existing U.S. coral reef systems in the Pacific Basin. We then conduct scientific mapping of critical coral reef environments, including pristine reefs, sediment- or pollutant-impacted reefs, or those of special significance and concern such as reefs in State or National Parks, National Wildlife Refuges, or National Marine Sanctuaries. Our goals are to determine the spatial variability of the following parameters at high resolution:
1. Reef tract structure, including overall morphology, rugosity, and complexity
2. Benthic habitat, including bottom type (for example, limestone or volcanic pavement, sand, mud), bottom cover (for example, coral, algae, macroalgae), and biodiversity
3. Transitions between colonized coral reef habitat and adjacent depauperate environments
The approach to these efforts relies on a combination of field measurements and laboratory studies in order to characterize coral reef habitats. We use a wide range of tools, including in-water observations made by scuba divers, high-resolution bathymetry from airborne LIDAR (LIght Detecting And Ranging, e.g., laser range-finding), airborne and space-based multispectral remote sensing imagery, underwater towed digital photo/video mapping systems, and swath acoustic seabed mapping systems.
Below are publications associated with this project.
Benthic habitats and offshore geological resources of Kaloko-Honokohau National Historical Park, Hawai‘i
Geologic resource evaluation of Pu‘uhonua O Hōnaunau National Historical Park, Hawai‘i. Part II: Benthic habitat mapping
Geologic resource evaluation of Pu‘ukoholā Heiau National Historic Site, Hawai‘i, part II: Benthic habitat mapping
Optimizing remote sensing and GIS tools for mapping and managing the distribution of an invasive mangrove (Rhizophora mangle) on South Molokai, Hawaii
Shelf stratigraphy and the influence of antecedent substrate on Holocene reef development, south Oahu, Hawaii
Summary and preliminary interpretations of USGS cruise A-2-02-HW: Underwater video surveys collected off of Oahu, Molokai, and Maui, Hawaii, June-July 2002
Coastal change rates and patterns: Kaloko-Honokohau National Historical Park, Hawai'i
Biological survey in support of the USGS turbidity and sediment baseline survey on South Moloka’i reef flat, April 2005
Possible modes of coral-reef development at Molokai, Hawaii, inferred from seismic-reflection profiling
Quantitative morphology of a fringing reef tract from high-resolution laser bathymetry: Southern Molokai, Hawaii
Moloka'i fieldtrip guidebook: Selected aspects of the geology, geography, and coral reefs of Moloka'i
No single mapping approach is effective for evaluating the overall health of a reef or to determine the cause of its demise. It is only through combining techniques that scientists can establish the most complete view of a reef, one that can be used for evaluating current reef health and providing a baseline to detect future change.
This study is part of the USGS Coral Reef Project.
The Problem
One of the strategic goals of the USGS Pacific Coral Reefs Project is to assist land-use managers in their protection efforts by establishing the geologic framework for ecosystem structure and function. Mapping of coral reefs provides important information about a number of reef characteristics, such as overall structure and morphology, abundance and distribution of living coral, and distribution and types of sediment.
To document evidence of change in any ecosystem, one must first have a starting point—a "baseline" inventory of resources. Thematic maps providing this baseline inventory are an important tool for assessing changes in coral reef ecosystems, allowing scientists to spatially document changes in coral location, percentage of cover, and relative overall health of the system. In the past two decades, scientists and managers have recognized the lack of thematic maps for coral reefs worldwide.
No single mapping approach is effective for evaluating the overall health of a reef or to determine the cause of its demise. It is only through combining techniques that scientists can establish the most complete view of a reef, one that can be used for evaluating current reef health and providing a baseline to detect future change.
The Approach
We first aim to identify innovative mapping methodologies to find the most efficient methods of mapping and remote sensing that can be used to address coral reef issues of distribution, morphology, benthic cover, and history of existing U.S. coral reef systems in the Pacific Basin. We then conduct scientific mapping of critical coral reef environments, including pristine reefs, sediment- or pollutant-impacted reefs, or those of special significance and concern such as reefs in State or National Parks, National Wildlife Refuges, or National Marine Sanctuaries. Our goals are to determine the spatial variability of the following parameters at high resolution:
1. Reef tract structure, including overall morphology, rugosity, and complexity
2. Benthic habitat, including bottom type (for example, limestone or volcanic pavement, sand, mud), bottom cover (for example, coral, algae, macroalgae), and biodiversity
3. Transitions between colonized coral reef habitat and adjacent depauperate environments
The approach to these efforts relies on a combination of field measurements and laboratory studies in order to characterize coral reef habitats. We use a wide range of tools, including in-water observations made by scuba divers, high-resolution bathymetry from airborne LIDAR (LIght Detecting And Ranging, e.g., laser range-finding), airborne and space-based multispectral remote sensing imagery, underwater towed digital photo/video mapping systems, and swath acoustic seabed mapping systems.
Below are publications associated with this project.