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Coral Reef Project

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By Pacific Coastal and Marine Science Center June 27, 2022

Explore the fascinating undersea world of coral reefs. Learn how we map, monitor, and model coral reefs so we can better understand, protect, and preserve our Nation's reefs.

Coral head that looks like lettuce sits on sandy bottom in clear blue water and is surrounded by brightly colored fish.
Sources/Usage: Public Domain. View Media Details
Cerulean damselfish dart around lettuce coral off the Cape Range National Park along the Ningaloo Coast in Western Australia. USGS researchers combined forces with Australian colleagues in this UNESCO World Heritage Site to conduct the most extensive study of how erosion of reefs contribute sand to the beaches—a coast’s natural armor. With the threat of a rising sea and changes to the climate, understanding this connection can tell us how resilient the coast will be.

Coral reefs are unique ecosystems of plants, animals, and their associated geological framework. Coral reefs cover less than 0.5 percent of the earth's surface, but are home to an estimated 25 percent of all marine species. Second only to tropical rainforests in size and complexity, some scientists estimate that more than one million species of plants and animals are associated with coral reefs. Coral reefs are also of great economic importance to those who live on or visit islands in the Pacific and Atlantic Oceans. Reefs shelter and provide nursery grounds for many commercially and culturally important species of fish and invertebrates, they protect the islands' harbors, beaches, and shorelines from erosion and wave damage by storms, and they are vital to the marine tourism industry. These diverse ecosystems provide valuable goods and services worth about $4 billion each year to the U.S.’s coastal communities. Yet, as important as coral reefs are, these ecosystems are being threatened worldwide.

More than 8,500 square miles (22,000 square kilometers) of coral reef habitat is found in U.S. waters. Most of these coral reefs still appear to be relatively healthy, but some areas of dead and dying coral have been found in recent years. The causes of this degradation are poorly known, but are probably in part related to human activities.

View looks across a tropical coastal area with puffy clouds, palm trees, buildings, clear ocean water, and gentle waves.
Sources/Usage: Public Domain. View Media Details
Waves breaking over the fringing coral reef that protects the shoreline of Waikīkī and infrastructure of Hawaiʻi's capital, Honolulu.

The U.S. Geological Survey (USGS), working closely with academic institutions, state, and other Federal agencies, is spearheading an effort to better understand the geologic and oceanographic controls on the structure and processes of our Nation's coral reef ecosystems.

This web site is a gateway to USGS studies of coral reefs. We focus on the geophysical processes that influence the health and sustainability of coral reefs. From this work we are gaining new insight into the structure of coral reefs, providing the basis for future monitoring, and understanding better both the influences of natural processes and impacts of human activities on coral reef health. These efforts will help to preserve and protect the biodiversity, health, and social and economic value of these remarkable habitats.

Read more coral reef facts.

Underwater view of coral in some shades of pink where it is alive, shades of brown and green where it's dying.
Sources/Usage: Public Domain. View Media Details
Underwater photograph off Molokaʻi Hawaiʻi, showing some of the impacts of land-based pollution, such as terrestrial sediment, on coral reefs: burial by sediment, algal overgrowth, and coral bleaching.

Learn about our current studies by topic.

Climate Change and Land-use Histories

We are developing new and unique oceanographic and environmental archives from coral skeleton records to better understand the compounding effects of land-use and environmental change on coral reef health.

Hydrogeology and Reef Health

We are conducting geophysical and geochemical research to address questions about coastal groundwater-to-reef flow and coral reef health, with the goal of informing management decisions related to planning and implementing activities in priority watershed-coral reef systems.

Reef Hydrodynamics and Sediment Processes

We are developing a better understanding how tides, waves, currents, and both land- and reef-derived sediment influence the development of coral reefs and their adjacent shorelines.

Role of Reefs in Coastal Protection

We are combining ocean, engineering, ecologic, social, and economic modeling to provide a high-resolution, rigorous, spatially-explicit valuation of the coastal flood protection benefits provided by coral reefs and the cost effectiveness of reef restoration for enhancing those benefits.

Reef Resource Assessments - Planning for the Future

We are mapping and assessing all of the important geologic and oceanographic factors to identify those coral reefs most at risk and those reefs that are potentially the most resilient and the most likely to recover from natural and human-driven impacts.

Also, learn about our studies by location:

  1. Guam
  2. Hawai‛i
  3. Kaho‛olawe
  4. Kaua‛i
  5. Kwajalein Island
  6. Lāna‛i
  7. Maui
  8. Moloka‛i
  9. O‛ahu
  10. Puerto Rico
  11. Roi-Namur Island
  12. Tutuila

Please also see the associated Coral Reef Ecosystem Studies (CREST) Project website.

Our partners are numerous and include:

Learn more about our related studies, and read basic facts about corals and reefs.

Coral Reef Facts

Guam coastal imagery and waves

Aerial shot of the clear blue ocean off the coast of Guam.

View our web page that shows coastal imagery and wave characteristics near Adelup Point, Guam.

View webcam images

USGS Coral Reef Project

An underwater photograph shows a school of brightly colored fish swim over corals.
Filter Total Items: 23

Below are data releases associated with this project.

Filter Total Items: 22
No Result Found

Below are multimedia items associated with this project.

No results found.

Below is a list of our project publications.

Filter Total Items: 162

Sources and dispersal of land-based runoff from small Hawaiian drainages to a coral reef: Insights from geochemical signatures

Land-based sediment and contaminant runoff is a major threat to coral reefs, and runoff reduction efforts would benefit from knowledge of specific runoff sources. Geochemical signatures of small drainage basins were determined in the fine fraction of soil and sediment, then used in the nearshore region of a coral reef-fringed urban embayment on southeast Oahu, Hawaii, to describe sources...
Authors
Renee K. Takesue, Curt D. Storlazzi
By
Pacific Coastal and Marine Science Center

Sediment transport in the presence of large reef bottom roughness

The presence of large bottom roughness, such as that formed by benthic organisms on coral reef flats, has important implications for the size, concentration, and transport of suspended sediment in coastal environments. A 3 week field study was conducted in approximately 1.5 m water depth on the reef flat at Ningaloo Reef, Western Australia, to quantify the cross-reef hydrodynamics and...
Authors
Andrew Pomeroy, Ryan J. Lowe, Marco Ghisalberti, Curt D. Storlazzi, Graham Symonds, Dano Roelvink
By
Pacific Coastal and Marine Science Center

Rare earth element behavior during groundwater – seawater mixing along the Kona Coast of Hawaii

Groundwater and seawater samples were collected from nearshore wells and offshore along the Kona Coast of the Big Island of Hawaii to investigate rare earth element (REE) behavior in local subterranean estuaries. Previous investigations showed that submarine groundwater discharge (SGD) is the predominant flux of terrestrial waters to the coastal ocean along the arid Kona Coast of Hawaii...
Authors
Karen H. Johannesson, C. Dianne Palmore, Joseph Fackrell, Nancy G. Prouty, Peter W. Swarzenski, Darren A. Chevis, Katherine Telfeyan, Christopher D. White, David J. Burdige
By
Pacific Coastal and Marine Science Center

Identification and classification of very low frequency waves on a coral reef flat

Very low frequency (VLF, 0.001–0.005 Hz) waves are important drivers of flooding of low-lying coral reef-islands. In particular, VLF wave resonance is known to drive large wave runup and subsequent overwash. Using a 5 month data set of water levels and waves collected along a cross-reef transect on Roi-Namur Island in the Republic of the Marshall Islands, the observed VLF motions were...
Authors
Matthijs Gawehn, Ap van Dongeran, Arnold van Rooijen, Curt D. Storlazzi, Olivia Cheriton, Ad Reniers
By
Pacific Coastal and Marine Science Center

Observations of nearshore groundwater discharge: Kahekili Beach Park submarine springs, Maui, Hawaii

Study regionThe study region encompasses the nearshore, coastal waters off west Maui, Hawaii. Here abundant groundwater—that carries with it a strong land-based fingerprint—discharges into the coastal waters and over a coral reef.Study focusCoastal groundwater discharge is a ubiquitous hydrologic feature that has been shown to impact nearshore ecosystems and material budgets. A unique...
Authors
Peter W. Swarzenski, H. Dulai, K.D. Kroeger, C.G. Smith, N. Dimova, C. D. Storlazzi, N.G. Prouty, S. B. Gingerich, C. R. Glenn
By
Pacific Coastal and Marine Science Center

Groundwater-derived nutrient and trace element transport to a nearshore Kona coral ecosystem: Experimental mixing model results

Study regionThe groundwater influenced coastal waters along the arid Kona coast of the Big Island, Hawai’i.Study focusA salinity-and phase partitioning-based mixing experiment was constructed using contrasting groundwater endmembers along the arid Konacoast of the Big Island, Hawai’i and local open seawater to better understand biogeochemical and physicochemical processes that influence...
Authors
Nancy G. Prouty, Peter W. Swarzenski, Joseph Fackrell, Karen H. Johannesson, C. Diane Palmore
By
Pacific Coastal and Marine Science Center

Changes to extreme wave climates of islands within the Western Tropical Pacific throughout the 21st century under RCP 4.5 and RCP 8.5, with implications for island vulnerability and sustainability

Waves are the dominant influence on coastal morphology and ecosystem structure of tropical Pacific islands. Wave heights, periods, and directions for the 21st century were projected using near-surface wind fields from four atmosphere-ocean coupled global climate models (GCM) under representative concentration pathways (RCP) 4.5 and 8.5. GCM-derived wind fields forced the global WAVEWATCH...
Authors
James B. Shope, Curt D. Storlazzi, Li H. Erikson, Christie Hegermiller
By
Pacific Coastal and Marine Science Center

End of the chain? Rugosity and fine-scale bathymetry from existing underwater digital imagery using structure-from-motion (SfM) technology

The rugosity or complexity of the seafloor has been shown to be an important ecological parameter for fish, algae, and corals. Historically, rugosity has been measured either using simple and subjective manual methods such as ‘chain-and-tape’ or complicated and expensive geophysical methods. Here, we demonstrate the application of structure-from-motion (SfM) photogrammetry to generate...
Authors
Curt D. Storlazzi, Peter Dartnell, Gerry Hatcher, Ann E. Gibbs
By
Pacific Coastal and Marine Science Center

Observations of wave transformation over a fringing coral reef and the importance of low-frequency waves and offshore water levels to runup, overwash, and coastal flooding

Many low-lying tropical islands are susceptible to sea level rise and often subjected to overwash and flooding during large wave events. To quantify wave dynamics and wave-driven water levels on fringing coral reefs, a 5 month deployment of wave gauges and a current meter was conducted across two shore-normal transects on Roi-Namur Island in the Republic of the Marshall Islands. These...
Authors
Olivia Cheriton, Curt D. Storlazzi, Kurt J. Rosenberger
By
Pacific Coastal and Marine Science Center

Benthic habitat map of U.S. Coral Reef Task Force Faga‘alu Bay priority study area, Tutuila, American Samoa

The coral reef in Faga‘alu Bay, Tutuila, American Samoa, has suffered numerous natural and anthropogenic stresses. Areas once dominated by live coral are now mostly rubble surfaces covered with turf or macroalgae. In an effort to improve the health and resilience of the coral reef system, the U.S. Coral Reef Task Force selected Faga‘alu Bay as a priority study area. To support these...
Authors
Susan A. Cochran, Ann E. Gibbs, Nicole L. D'Antonio, Curt D. Storlazzi
By
Pacific Coastal and Marine Science Center

Coral calcification and ocean acidification

Over 60 years ago, the discovery that light increased calcification in the coral plant-animal symbiosis triggered interest in explaining the phenomenon and understanding the mechanisms involved. Major findings along the way include the observation that carbon fixed by photosynthesis in the zooxanthellae is translocated to animal cells throughout the colony and that corals can therefore...
Authors
Paul L. Jokiel, Christopher P. Jury, Ilsa B. Kuffner
By
Coastal and Marine Hazards and Resources Program, St. Petersburg Coastal and Marine Science Center

Reconstructing surface ocean circulation with 129I time series records from corals

The long-lived radionuclide 129I (half-life: 15.7 × 106 yr) is well-known as a useful environmental tracer. At present, the global 129I in surface water is about 1–2 orders of magnitude higher than pre-1960 levels. Since the 1990s, anthropogenic 129I produced from industrial nuclear fuels reprocessing plants has been the primary source of 129I in marine surface waters of the Atlantic and...
Authors
Ching-Chih Chang, George S. Burr, A. J. Timothy Jull, Joellen L. Russell, Dana Biddulph, Lara White, Nancy G. Prouty, Yue-Gau Chen, Chuan-Chou Shen, Weijian Zhou, Doan Dinh Lam
By
Pacific Coastal and Marine Science Center

Below are news stories associated with this project.

Filter Total Items: 17

USGS Investigations of coral reefs are cooperative efforts, and our scientists are working in partnership and cooperation with the following organizations.

U.S. Coral Reef Task Force (USCRTF)

Filter Total Items: 22

American Samoa Department of Marine and Wildlife Resources

Commonwealth of the Northern Mariana Islands - Department of Land and Natural Resources

Delft University of Technology Department of Hydraulic Engineering

Deltares

Florida Department of Environmental Protection (DEP)

Guam Division of Aquatic and Wildlife Resources

Hawaiʻi Institute of Marine Biology, University of Hawaiʻi

National Oceanic and Atmospheric Administration (NOAA)

Puerto Rico Department of Natural and Environmental Resources

Queen's University Department of Civil Engineering

The Nature Conservancy

The University of Western Australia Oceans Institute

U.S. Department of Agriculture (USDA)

U.S. Department of the Interior (DOI) - Office of Insular Affairs

U.S. Environmental Protection Agency (EPA)

U.S. Fish and Wildlife Service

U.S. National Park Service

U.S. Virgin Islands Department of Planning and Natural Resources

University of California Santa Cruz - Institute of Marine Sciences

University of Cantabria - Department of Sciences and Techniques in Water and Environment

University of Puerto Rico at Mayaguez Center for Applied Ocean Science & Engineering

Woods Hole Oceanographic Institution, Department of Geology and Geophysics

Explore the fascinating undersea world of coral reefs. Learn how we map, monitor, and model coral reefs so we can better understand, protect, and preserve our Nation's reefs.

Coral head that looks like lettuce sits on sandy bottom in clear blue water and is surrounded by brightly colored fish.
Sources/Usage: Public Domain. View Media Details
Cerulean damselfish dart around lettuce coral off the Cape Range National Park along the Ningaloo Coast in Western Australia. USGS researchers combined forces with Australian colleagues in this UNESCO World Heritage Site to conduct the most extensive study of how erosion of reefs contribute sand to the beaches—a coast’s natural armor. With the threat of a rising sea and changes to the climate, understanding this connection can tell us how resilient the coast will be.

Coral reefs are unique ecosystems of plants, animals, and their associated geological framework. Coral reefs cover less than 0.5 percent of the earth's surface, but are home to an estimated 25 percent of all marine species. Second only to tropical rainforests in size and complexity, some scientists estimate that more than one million species of plants and animals are associated with coral reefs. Coral reefs are also of great economic importance to those who live on or visit islands in the Pacific and Atlantic Oceans. Reefs shelter and provide nursery grounds for many commercially and culturally important species of fish and invertebrates, they protect the islands' harbors, beaches, and shorelines from erosion and wave damage by storms, and they are vital to the marine tourism industry. These diverse ecosystems provide valuable goods and services worth about $4 billion each year to the U.S.’s coastal communities. Yet, as important as coral reefs are, these ecosystems are being threatened worldwide.

More than 8,500 square miles (22,000 square kilometers) of coral reef habitat is found in U.S. waters. Most of these coral reefs still appear to be relatively healthy, but some areas of dead and dying coral have been found in recent years. The causes of this degradation are poorly known, but are probably in part related to human activities.

View looks across a tropical coastal area with puffy clouds, palm trees, buildings, clear ocean water, and gentle waves.
Sources/Usage: Public Domain. View Media Details
Waves breaking over the fringing coral reef that protects the shoreline of Waikīkī and infrastructure of Hawaiʻi's capital, Honolulu.

The U.S. Geological Survey (USGS), working closely with academic institutions, state, and other Federal agencies, is spearheading an effort to better understand the geologic and oceanographic controls on the structure and processes of our Nation's coral reef ecosystems.

This web site is a gateway to USGS studies of coral reefs. We focus on the geophysical processes that influence the health and sustainability of coral reefs. From this work we are gaining new insight into the structure of coral reefs, providing the basis for future monitoring, and understanding better both the influences of natural processes and impacts of human activities on coral reef health. These efforts will help to preserve and protect the biodiversity, health, and social and economic value of these remarkable habitats.

Read more coral reef facts.

Underwater view of coral in some shades of pink where it is alive, shades of brown and green where it's dying.
Sources/Usage: Public Domain. View Media Details
Underwater photograph off Molokaʻi Hawaiʻi, showing some of the impacts of land-based pollution, such as terrestrial sediment, on coral reefs: burial by sediment, algal overgrowth, and coral bleaching.

Learn about our current studies by topic.

Climate Change and Land-use Histories

We are developing new and unique oceanographic and environmental archives from coral skeleton records to better understand the compounding effects of land-use and environmental change on coral reef health.

Hydrogeology and Reef Health

We are conducting geophysical and geochemical research to address questions about coastal groundwater-to-reef flow and coral reef health, with the goal of informing management decisions related to planning and implementing activities in priority watershed-coral reef systems.

Reef Hydrodynamics and Sediment Processes

We are developing a better understanding how tides, waves, currents, and both land- and reef-derived sediment influence the development of coral reefs and their adjacent shorelines.

Role of Reefs in Coastal Protection

We are combining ocean, engineering, ecologic, social, and economic modeling to provide a high-resolution, rigorous, spatially-explicit valuation of the coastal flood protection benefits provided by coral reefs and the cost effectiveness of reef restoration for enhancing those benefits.

Reef Resource Assessments - Planning for the Future

We are mapping and assessing all of the important geologic and oceanographic factors to identify those coral reefs most at risk and those reefs that are potentially the most resilient and the most likely to recover from natural and human-driven impacts.

Also, learn about our studies by location:

  1. Guam
  2. Hawai‛i
  3. Kaho‛olawe
  4. Kaua‛i
  5. Kwajalein Island
  6. Lāna‛i
  7. Maui
  8. Moloka‛i
  9. O‛ahu
  10. Puerto Rico
  11. Roi-Namur Island
  12. Tutuila

Please also see the associated Coral Reef Ecosystem Studies (CREST) Project website.

Our partners are numerous and include:

Learn more about our related studies, and read basic facts about corals and reefs.

Coral Reef Facts

Guam coastal imagery and waves

Aerial shot of the clear blue ocean off the coast of Guam.

View our web page that shows coastal imagery and wave characteristics near Adelup Point, Guam.

View webcam images

USGS Coral Reef Project

An underwater photograph shows a school of brightly colored fish swim over corals.
Filter Total Items: 23

Below are data releases associated with this project.

Filter Total Items: 22
No Result Found

Below are multimedia items associated with this project.

No results found.

Below is a list of our project publications.

Filter Total Items: 162

Sources and dispersal of land-based runoff from small Hawaiian drainages to a coral reef: Insights from geochemical signatures

Land-based sediment and contaminant runoff is a major threat to coral reefs, and runoff reduction efforts would benefit from knowledge of specific runoff sources. Geochemical signatures of small drainage basins were determined in the fine fraction of soil and sediment, then used in the nearshore region of a coral reef-fringed urban embayment on southeast Oahu, Hawaii, to describe sources...
Authors
Renee K. Takesue, Curt D. Storlazzi
By
Pacific Coastal and Marine Science Center

Sediment transport in the presence of large reef bottom roughness

The presence of large bottom roughness, such as that formed by benthic organisms on coral reef flats, has important implications for the size, concentration, and transport of suspended sediment in coastal environments. A 3 week field study was conducted in approximately 1.5 m water depth on the reef flat at Ningaloo Reef, Western Australia, to quantify the cross-reef hydrodynamics and...
Authors
Andrew Pomeroy, Ryan J. Lowe, Marco Ghisalberti, Curt D. Storlazzi, Graham Symonds, Dano Roelvink
By
Pacific Coastal and Marine Science Center

Rare earth element behavior during groundwater – seawater mixing along the Kona Coast of Hawaii

Groundwater and seawater samples were collected from nearshore wells and offshore along the Kona Coast of the Big Island of Hawaii to investigate rare earth element (REE) behavior in local subterranean estuaries. Previous investigations showed that submarine groundwater discharge (SGD) is the predominant flux of terrestrial waters to the coastal ocean along the arid Kona Coast of Hawaii...
Authors
Karen H. Johannesson, C. Dianne Palmore, Joseph Fackrell, Nancy G. Prouty, Peter W. Swarzenski, Darren A. Chevis, Katherine Telfeyan, Christopher D. White, David J. Burdige
By
Pacific Coastal and Marine Science Center

Identification and classification of very low frequency waves on a coral reef flat

Very low frequency (VLF, 0.001–0.005 Hz) waves are important drivers of flooding of low-lying coral reef-islands. In particular, VLF wave resonance is known to drive large wave runup and subsequent overwash. Using a 5 month data set of water levels and waves collected along a cross-reef transect on Roi-Namur Island in the Republic of the Marshall Islands, the observed VLF motions were...
Authors
Matthijs Gawehn, Ap van Dongeran, Arnold van Rooijen, Curt D. Storlazzi, Olivia Cheriton, Ad Reniers
By
Pacific Coastal and Marine Science Center

Observations of nearshore groundwater discharge: Kahekili Beach Park submarine springs, Maui, Hawaii

Study regionThe study region encompasses the nearshore, coastal waters off west Maui, Hawaii. Here abundant groundwater—that carries with it a strong land-based fingerprint—discharges into the coastal waters and over a coral reef.Study focusCoastal groundwater discharge is a ubiquitous hydrologic feature that has been shown to impact nearshore ecosystems and material budgets. A unique...
Authors
Peter W. Swarzenski, H. Dulai, K.D. Kroeger, C.G. Smith, N. Dimova, C. D. Storlazzi, N.G. Prouty, S. B. Gingerich, C. R. Glenn
By
Pacific Coastal and Marine Science Center

Groundwater-derived nutrient and trace element transport to a nearshore Kona coral ecosystem: Experimental mixing model results

Study regionThe groundwater influenced coastal waters along the arid Kona coast of the Big Island, Hawai’i.Study focusA salinity-and phase partitioning-based mixing experiment was constructed using contrasting groundwater endmembers along the arid Konacoast of the Big Island, Hawai’i and local open seawater to better understand biogeochemical and physicochemical processes that influence...
Authors
Nancy G. Prouty, Peter W. Swarzenski, Joseph Fackrell, Karen H. Johannesson, C. Diane Palmore
By
Pacific Coastal and Marine Science Center

Changes to extreme wave climates of islands within the Western Tropical Pacific throughout the 21st century under RCP 4.5 and RCP 8.5, with implications for island vulnerability and sustainability

Waves are the dominant influence on coastal morphology and ecosystem structure of tropical Pacific islands. Wave heights, periods, and directions for the 21st century were projected using near-surface wind fields from four atmosphere-ocean coupled global climate models (GCM) under representative concentration pathways (RCP) 4.5 and 8.5. GCM-derived wind fields forced the global WAVEWATCH...
Authors
James B. Shope, Curt D. Storlazzi, Li H. Erikson, Christie Hegermiller
By
Pacific Coastal and Marine Science Center

End of the chain? Rugosity and fine-scale bathymetry from existing underwater digital imagery using structure-from-motion (SfM) technology

The rugosity or complexity of the seafloor has been shown to be an important ecological parameter for fish, algae, and corals. Historically, rugosity has been measured either using simple and subjective manual methods such as ‘chain-and-tape’ or complicated and expensive geophysical methods. Here, we demonstrate the application of structure-from-motion (SfM) photogrammetry to generate...
Authors
Curt D. Storlazzi, Peter Dartnell, Gerry Hatcher, Ann E. Gibbs
By
Pacific Coastal and Marine Science Center

Observations of wave transformation over a fringing coral reef and the importance of low-frequency waves and offshore water levels to runup, overwash, and coastal flooding

Many low-lying tropical islands are susceptible to sea level rise and often subjected to overwash and flooding during large wave events. To quantify wave dynamics and wave-driven water levels on fringing coral reefs, a 5 month deployment of wave gauges and a current meter was conducted across two shore-normal transects on Roi-Namur Island in the Republic of the Marshall Islands. These...
Authors
Olivia Cheriton, Curt D. Storlazzi, Kurt J. Rosenberger
By
Pacific Coastal and Marine Science Center

Benthic habitat map of U.S. Coral Reef Task Force Faga‘alu Bay priority study area, Tutuila, American Samoa

The coral reef in Faga‘alu Bay, Tutuila, American Samoa, has suffered numerous natural and anthropogenic stresses. Areas once dominated by live coral are now mostly rubble surfaces covered with turf or macroalgae. In an effort to improve the health and resilience of the coral reef system, the U.S. Coral Reef Task Force selected Faga‘alu Bay as a priority study area. To support these...
Authors
Susan A. Cochran, Ann E. Gibbs, Nicole L. D'Antonio, Curt D. Storlazzi
By
Pacific Coastal and Marine Science Center

Coral calcification and ocean acidification

Over 60 years ago, the discovery that light increased calcification in the coral plant-animal symbiosis triggered interest in explaining the phenomenon and understanding the mechanisms involved. Major findings along the way include the observation that carbon fixed by photosynthesis in the zooxanthellae is translocated to animal cells throughout the colony and that corals can therefore...
Authors
Paul L. Jokiel, Christopher P. Jury, Ilsa B. Kuffner
By
Coastal and Marine Hazards and Resources Program, St. Petersburg Coastal and Marine Science Center

Reconstructing surface ocean circulation with 129I time series records from corals

The long-lived radionuclide 129I (half-life: 15.7 × 106 yr) is well-known as a useful environmental tracer. At present, the global 129I in surface water is about 1–2 orders of magnitude higher than pre-1960 levels. Since the 1990s, anthropogenic 129I produced from industrial nuclear fuels reprocessing plants has been the primary source of 129I in marine surface waters of the Atlantic and...
Authors
Ching-Chih Chang, George S. Burr, A. J. Timothy Jull, Joellen L. Russell, Dana Biddulph, Lara White, Nancy G. Prouty, Yue-Gau Chen, Chuan-Chou Shen, Weijian Zhou, Doan Dinh Lam
By
Pacific Coastal and Marine Science Center

Below are news stories associated with this project.

Filter Total Items: 17

USGS Investigations of coral reefs are cooperative efforts, and our scientists are working in partnership and cooperation with the following organizations.

U.S. Coral Reef Task Force (USCRTF)

Filter Total Items: 22

American Samoa Department of Marine and Wildlife Resources

Commonwealth of the Northern Mariana Islands - Department of Land and Natural Resources

Delft University of Technology Department of Hydraulic Engineering

Deltares

Florida Department of Environmental Protection (DEP)

Guam Division of Aquatic and Wildlife Resources

Hawaiʻi Institute of Marine Biology, University of Hawaiʻi

National Oceanic and Atmospheric Administration (NOAA)

Puerto Rico Department of Natural and Environmental Resources

Queen's University Department of Civil Engineering

The Nature Conservancy

The University of Western Australia Oceans Institute

U.S. Department of Agriculture (USDA)

U.S. Department of the Interior (DOI) - Office of Insular Affairs

U.S. Environmental Protection Agency (EPA)

U.S. Fish and Wildlife Service

U.S. National Park Service

U.S. Virgin Islands Department of Planning and Natural Resources

University of California Santa Cruz - Institute of Marine Sciences

University of Cantabria - Department of Sciences and Techniques in Water and Environment

University of Puerto Rico at Mayaguez Center for Applied Ocean Science & Engineering

Woods Hole Oceanographic Institution, Department of Geology and Geophysics

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