USGS Geological Research Activities with U.S. Fish and Wildlife Service

Hazards projects

(Earthquake, Volcanoes, Landslides)

Landslides and their effects on salmon habitat at Hanford Reach National Monument and vicinity, southeastern Washington (Landslide Hazards)

• USFWS requested the USGS submit a research proposal aimed at providing the information needed to help determine the most effective remedial strategies for landslides along the White Bluffs at Hanford Reach. The resulting USGS proposal is a five-year program that is multidisciplinary in focus and relies on geologic understanding of landslides and hydrologic and biologic expertise. If funding becomes available, research will start in fiscal year 2005.
  
  Rex Baum, baum@usgs.gov Denver, CO

Landscape projects

(Earth Surface Dynamics, National Cooperative Geologic Mapping, and Coastal and Marine Geology)

Arctic-Alaska climate monitoring (Cryospheric Studies) - (Earth Surface Dynamics)

• USGS conducts Arctic-Alaska climate monitoring through the Global Terrestrial Network-Permafrost (GTN-P), which is part of the Global Climate Observing System (GCOS)GTN-P is a cooperative with the USFWS, NSF, and BLM. USGS is the lead agency in this effort. The data are used to:-Detect contemporary climate changes in the Arctic -Document the sensitivity of permafrost to climate change -Provide data critical for testing climate and cryosphere models -Improve the reliability of impact assessments based on these models USFWS benefits directly without payment.
  
  Gary Clow, clow@usgs.gov, Denver, CO

Western lake - catchment systems (Earth Surface Dynamics)

• Bear Lake National Wildlife Refuge, Idaho: Water resources in the Bear Lake region are being depleted by climate dynamics and human activity. USGS scientists are working to determine climate variability in the past and the affect of human activity on sediment deposition, chemistry and fauna. Scientists are focusing efforts on understanding the effects of diversion of the Bear River through Bear Lake National Wildlife Refuge wetlands into Bear Lake; the diversion is thought to be threatening wetlands in the refuge. USFWS provides in-kind services.
  
  Joseph Rosenbaum, jrosenbaum@usgs.gov, Denver, CO

Holocene climate of the Pacific coasts - Chinese mitten crab study (Earth Surface Dynamics)

• The invasive Chinese mitten crab is causing bank instability problems in the San Francisco Bay area. USFWS has partly funded a USGS study of burrowing impacts by mitten crabs in San Francisquito creek.
  
  John Barron, jbarron@usgs.gov, Menlo Park, CA

Eolian history of North America (Earth Surface Dynamics)

• The objectives of this study are to: (1) test hypotheses about the role of dust in climate change, (2) investigate records of natural climate variability in loess (dust) deposits, (3) understand the processes responsible for sand dune activity in the U.S., and (4) assess the potential for reactivation of stabilized sand dunes in the U.S. under changing conditions of climate and land use. USGS scientists have just begun to study the origin and age of stabilized sand dunes that occupy the northernmost part of the Tetlin National Wildlife Refuge in eastern Alaska. Many of the wetlands in this wildlife refuge are the result of interdune depressions or creation of small lakes as a result of dune dams. This study has important implications for management of the refuge, because reactivation of the dunes could alter the existing wetlands, which are critical for wildlife. USFWS benefits directly without payment.
  
  Daniel Muhs, dmuhs@usgs.gov, Denver, CO

Alaska Quaternary climate history (Earth Surface Dynamics)

• Project is aimed at improving understanding of the links between climate change and ecosystem changes in Alaska, using geological evidence from the late Quaternary as a means of examining past climate changes and ecosystem responses to those changes. One objective of the project is to apply new knowledge of ecosystem history and ecosystem responses to climate change to problems of land-use management, archeology, vertebrate paleontology and climate modeling. USFWS (Kenai National Wildlife Refuge) provides in-kind services.
  
  Thomas Ager, tager@usgs.gov, Denver, CO

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Global dust (Earth Surface Dynamics)

• Project scientists are studying how African and Asian global dust systems affect downstream ecosystems, particularly coral reefs, and human health. Discussions are underway with the USFWS Region 1 to use Midway Island as a sampling site. USFWS provides in-kind services.
  
  Virginia Garrison (BRD) ginger_garrison@usgs.gov, St. Petersburg, FL

Atlantic estuaries (includes Blackwater National Wildlife Refuge study) -- (National Cooperative Geologic Mapping, Earth Surface Dynamics, Coastal and Marine Geology, Integrated Science)

• Eastern U.S. estuaries have common environmental problems: degraded water quality, loss of wetlands and riparian zones, sea-level rise, sedimentation, coastal erosion, declining fish and wildlife populations, loss of sub-aquatic vegetation, and increased algal blooms. Population growth, urban sprawl, intensified agriculture, and climate change exacerbate these problems. Mitigation of estuarine issues requires understanding the ecological, physical, and chemical changes due to climate variability and anthropogenic factors; the influence of regional geological framework; and the impacts of land-use changes in watersheds and coastal zones. Project scientists will provide a scientific basis for resource managers and other policy-makers to address these issues. Study of sea-level rise in the Blackwater National Wildlife Refuge is a component of this project. In fy 04, scientists will compile data from cores, bridge borings, seismic profiles, new R/V Marion Dufresne cores, earlier maps, and historical maps of coastlines and swamps to develop a DEM base map as a preliminary geologic framework for the Blackwater region. USFWS benefits directly without payment.
  
  Debra Willard, dwillard@usgs.gov, Reston, VA

Karst applied research studies through geologic mapping (National Cooperative Geologic Mapping)

• This project is producing a karst map of the United States. USFWS is interested in habitat changes in karst lands across the country. USFWS will benefit directly without payment.
  
  David Weary, dweary@usgs.gov, Reston, VA

Geologic studies of coral reefs (Coastal and Marine Geology)

• The project addresses the geological aspects of DOI's "Protecting America's Coral Reefs" report. Work is focused in three areas:
  • Thematic mapping: Mapping activities include identifying innovative mapping methodologies and conducting scientific mapping of critical coral reef environments.
  • Reef health: Applying expertise and knowledge to learn more about the conditions and processes which transport sediment, pollutants, and nutrients to the reefs, and about the impact of changes in calcification rates on reef growth and sustainability.
  • Deep corals: Learning more about conditions that allow corals to thrive in previously unsuspected environments.
  USGS scientists are studying Pulley Ridge Reef, a 75-km2 reef, 125 miles west of Key West, FL, that may be the US's deepest hermatypic (photosynthetic) coral reef. With 30 to 60% live coral cover, it appears to be one of the nation's healthiest coral reefs with little evidence of coral disease or bleaching. These deep corals may be (1) key habitats to certain commercial fisheries and (2) seed the shallower reefs in the Florida Keys. USFWS benefits indirectly without payment.
  
  Michael Field, mfield@usgs.gov, Menlo Park, CA

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North Carolina regional coastal erosion studies (Coastal and Marine Geology; Earth Surface Dynamics)

• Project members are mapping the regional coastal sedimentary system of northern North Carolina in order to understand the Quaternary evolution of the coastal system, especially coastal erosion. The study area includes Pea Island National Wildlife Refuge, Cape Hatteras National Seashore, and Cape Lookout National Seashore. Coastal erosion along the Outer Banks of North Carolina has received much engineering, scientific, and political attention during the past 30 years because the study area attracts significant tourism to its parks and beaches, contains a number of coastal communities, and the coastal ocean supports a local fishing industry; all of which are impacted by coastal change. Important issues being addressed include: coastal and estuarine shoreline erosion (controls on erosion rates, sediment transport, response of beaches and wetlands to sea level rise); sand resources (location, quality, and quantity of offshore, estuarine, or onshore sand); storm impacts (barrier island/inlet migration, estuarine water movement, relative stability of barrier island segments); sea-level change (history and potential impacts); water resources (surface and groundwater); habitat (ability to sustain uses, trends, identify threats). The project is providing a strong science foundation for management of the North Carolina coastal zone and has assisted USFWS. USFWS benefits directly without payment.
  
  Robert Thieler, rthieler@usgs.gov, Woods Hole, MA

Coastal habitats in Puget Sound (Coastal and Marine Geology)

• This new project will provide the science needed for restoration planning for the Puget Sound estuary. The project will support the work of the Puget Sound Nearshore Ecosystem Restoration (PSNER ) partnership (which consists of the U.S. Army Corps of Engineers; State natural resource agencies; Federal agencies, including USFWS; tribes; the commercial sector; NGOs ; universities; and local governments). PSNER was formed to restore and preserve the nearshore habitat, rehabilitate the health of the Puget Sound ecosystem, and prevent additional damage resulting from increased human population in the region.
  
  Guy Gelfenbaum, ggelfenbaum@usgs.gov, Menlo Park, CA

Atlantic coastal ground water systems (Coastal and Marine Geology)

• Project goals are to improve understanding of the geological framework, pathways, and role of ground-water discharge in coastal bays along the Atlantic continental margin. This information is needed for issues related to water supply, wastewater disposal, and ecosystem health. In particular, information is needed to resolve mode of entry of nitrogen nutrients into estuaries (diffuse vs. focused) and to provide data needed for improved hydrologic models. Investigations are designed to quantify the relative role of ground water in the water and nutrient budgets of several coastal areas. In fy04 the project will expand efforts from the Delmarva Peninsula to new study sites in Pamlico Sound, NC. Special emphasis will be placed on management needs of Federal DOI partners including NPS and USFWS. Project welcomes more interaction with USFWS.
  
  John Bratton, jbratton@usgs.gov, Woods Hole, MA

Advanced methods for coastal science applications of temporal waveform-resolving airborne lidar (Coastal and Marine Geology)

• Temporal waveform-resolving lidar has the potential to provide fundamental information for studies of coastal erosion and change, modeling or assessment of extreme storm and tsunami impacts, and the fine scale, vertically resolved discrimination of subaerial and shallow submarine benthic habitats. The objectives of the project are to develop and test methods to incorporate NASA Experimental Advanced Airborne Research Lidar (EAARL) into subaerial and shallow submarine studies. Application of EAARL data to rugosity measurements may prove to be extremely useful in quantitatively describing reef viability. There is no current method to estimate rugosity on an appropriate scale. Application of remote sensing techniques to this long-standing problem will help ecologists and resource mangers. Federal agencies (USFWS, NPS, State and Territory governments are very concerned about habitat degradation, specifically coral reef decline. A model resulting from linking lidar data with data comprehensively describing the benthos will be a huge step toward the meaningful application of the new lidar technology to tracking habitat condition. Project welcomes more interaction with USFWS.
  
  John Brock, jbrock@usgs.gov, St. Petersburg, FL

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National benthic habitat studies: Atlantic (Coastal and Marine Geology)

• Project scientists will conduct:
  • Habitat classification and process studies of New England benthic habitats·
  • Geologic and biologic studies of Georges Bank, New England Shelf, and New Jersey Shelf benthic habitats·
  • Geologic studies of shelf-edge habitats of the northern Gulf of Mexico
  • Shelf-edge micropaleontological framework studies of the Gulf Coast, and will produce
  • Seafloor geologic maps of the Gulf of Maine

These regions have been identified as high priority through discussions with DOI agencies (USFWS, MMS, NPS); NOAA agencies (NMFS, NMSS, NOS, NURP); the nation's regional Fishery Management Councils; and, in regions of common interest, the Geological Survey of Canada and Department of Fisheries and Oceans of Canada

Page Valentine, pvalentine@usgs.gov, Woods Hole, MA

National benthic habitat studies: Pacific (Coastal and Marine Geology)

• USGS scientists address habitat issues in high-priority areas identified through discussions with DOI (MMS, USFWS, NPS), NOAA (NMFS, NMS), and the nation's regional Fishery Management Councils. Project scientists are producing habitat maps that are useful for fisheries science and management. They utilize traditional data collected by the USGS Coastal and Marine Geology Program including sampling, bottom video, sidescan sonar, and multibeam sonar data, to produce interpretive maps showing the distribution of seabed materials, seabed dynamics, and biologic habitats. Partnerships are with NOAA, NPS, EPA, DOE , DOD , and other Federal and State agencies. In addition to habitat mapping on the Pacific coast, habitat mapping in Northern Lake Michigan, related to trout fisheries, will be of interest to USFWS.
  
  Guy Cochrane, gcochrane@usgs.gov, Menlo Park, CA

Coastal watershed restoration (Coastal and Marine Geology)

• This project has two objectives:
  1. Advise managers on specific watershed issues related to human activities such as impact of dams or dam removal on downstream river and marine environments and habitats.
  2. Use dams, artificial floods, and other human activities to conduct large-scale sediment transport experiments to better predict sediment transport within river systems and downstream marine settings.
  USFWS benefits directly without payment.
  
  David Rubin, drubin@usgs.gov, Menlo Park, CA

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Resource Projects

Geochemical landscapes (Mineral Resources)

• This project is beginning a pilot study to determine methodology. The long-term objective of the project is to design and carry out a new national-scale soil geochemical survey in collaboration with NRCS and other Federal and State agencies as well as the academic community. This survey will include: a complete suite of inorganic analyses by total extraction of the sample, determination of "geoavailable" and "bioavailable" fractions of the soil by partial extraction methods, measurement of selected organic contaminants, characterization of the soil microbial communities, and determination of specific pathogens in the soil. The national effort will require working closely with others, including USFWS, to complete the survey.
  
  David Smith, dsmith@usgs.gov, Denver, CO

Mancos Shale landscapes: science and management of black shale terrains (a regional partnership project)
(Priority Ecosystem Science; Mineral Resources, Water Resources Research Act, Geographic Analysis and Monitoring, National Cooperative Geologic Mapping, Energy Resources, Invasive Species)

• Mancos Shale landscapes of the western United States, especially in the upper Colorado River basin, have become a focal point for the need for scientific information to support sound land-use policies. The broad objectives of this project are to:
  1. Use science to help define some of the issues requiring the attention of science, resource, and land-use managers who deal with black shale terrains
  2. Provide applicable, scientifically valid, information that can be used to formulate resource and land-use management policies for Mancos Shale landscapes
  3. Assure that the information provided is transportable/applicable to black-shale landscapes that are not specifically studied. In the long-term, the project will contribute to the development of predictive models that can be used to evaluate black-shale landscapes in terms of their economic resource potential and their environmental sensitivity.
  USFWS benefits directly without payment.
  
  Richard Grauch, rgrauch@usgs.gov, Denver, CO

Pathways of metal transfer from mineralized sources to bioreceptors (Mineral Resources)

• Project scientists are synthesizing vast amounts of information into dynamic models to assist the USFWS and EPA in further defining links between physical and biogeochemical processes and health impacts in the Coeur d'Alene River basin. The models will result in a deeper understanding of the processes that affect how zinc and lead move and are transformed between dissolved and particulate phases. The models will identify dominant processes and, thereby, assist in targeting remediation and management activities in this complex system.
  
  Laurie Balistrieri, balistri@usgs.gov, Seattle, WA

National Gas & Oil Assessment (Energy Resources)

Alaska petroleum studies (Energy Resources)

• Project provides up-to-date assessments of Alaska's energy resource potential. In 1998, the USGS updated its oil and gas assessment of the ANWR 1002 area. This year, it will begin to examine the region between ANWR and NPRA.
  
  Kenneth Bird, kbird@usgs.gov, Menlo Park, CA

Subsidence and fault activation related to fluid energy production, Gulf Coast Basin (Energy Resources, Coastal and Marine Geology;Status and Trends)

• The Gulf Coast basin is a region where subsidence and fault activation are common around large, mature oil and gas fields even though moderately deep hydrocarbon production has generally been disregarded as the primary cause. Project scientists are investigating the magnitudes of environmental impacts, estimating rates of deformation, identifying reservoir parameters that are indicators of subsidence potential, and evaluating geophysical methods for regional subsidence detection and monitoring. Federal and State agencies in Louisiana and Texas are particularly interested in this research because the results will provide a basis for designing marsh and barrier-island restoration projects, planning hurricane levees, and managing oil and gas production. Measurements from sedimentation-erosion tables (SET) will be made at the McFaddin National Wildlife Refuge. Geodetic-quality GPS surveys of benchmarks and historical releveling surveys will be used to analyze short-term changes in surface elevation near producing fields and faults. USFWS benefits directly without payment.
  
  Robert Morton, rmorton@usgs.gov, St. Petersburg, FL

Geophysical processing & NERSL (Energy Resources)

• The primary objectives of this project are to maintain state-of-the-art seismic reflection data processing, interpretation, visualization, and data management facilities and to provide expert personnel to science projects knowledgeable and experienced in all aspects of seismic reflection data technology. The project has completed cataloging and archiving data and creating a database of all of the 2-D seismic reflection and support data from the Arctic National Wildlife Refuge (ANWR). These are the only seismic reflection data currently available from the ANWR. The digital archive is stored at the BLM in Alaska and the USGS in Denver.
  
  David Taylor, taylor@usgs.gov, Denver, CO

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Geology-based priority ecosystem science projects

Integrated biogeochemical studies in the Everglades (Priority Ecosystem Science)

• The major objectives of this project are to use an integrated biogeochemical approach to examine:
  1. anthropogenic induced changes in the water chemistry (quality) of the Everglades ecosystem
  2. biogeochemical processes within the ecosystem affecting water chemistry
  3. predicted impacts of restoration efforts on water chemistry. Field areas include Water Conservation Areas 1 (Loxahatchee NWR), 2, and 3 USFWS (Loxahatchee National Wildlife Refuge) provides in-kind services.
  
  William Oren, borem@usgs.gov, Reston, VA
  
  

Development and stability of Everglades tree islands, ridge and slough, and marl prairies (Priority Ecosystem Science)

• This project is designed to document temporal and spatial changes in plant communities from predrainage time through the 20th century, evaluate the stability of the systems in light of natural and anthropogenic changes, and examine other parameters of interest to the resource management community, such as sediment accretion rates. This information is to support the Comprehensive Everglades Restoration plan. USFWS (Loxahatchee National Wildlife Refuge) benefits indirectly without payment.
  
  Debra Willard, dwillard@usgs.gov, Reston, VA

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