Keywords:
LANDSCAPE, WATERSHED, STRESSORS, LANDSCAPE INDICATORS, INDICATOR DEVELOPMENT, NUTRIENTS, SEDIMENTS, REGIONAL VULNERABILITY ASSESSMENT (REVA), BEST MANAGEMENT PRACTICES, IMPERVIOUS SURFACE, TMDL, NON-POINT SOURCE, WETLANDS, ISOLATED WATER BODIES,
Related Records:
THE USE OF NTM DATA FOR THE ACCURACY ASSESSMENT OF LANDSAT DERIVED LAND USE/LAND COVER MAPS
Relationship Reason:THE USE OF NTM DATA FOR THE ACCURACY ASSESSMENT OF LANDSAT DERIVED LAND USE/LAND COVER MAPS59706DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
COLLABORATIVE, MULTI-TIME PERIOD LIDAR COLLECTION AND ANALYSIS FOR RESIDENTIAL DEVELOPMENT IMPACT ASSESSMENT AND MONITORING
Relationship Reason:COLLABORATIVE, MULTI-TIME PERIOD LIDAR COLLECTION AND ANALYSIS FOR RESIDENTIAL DEVELOPMENT IMPACT ASSESSMENT AND MONITORING167104DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
WATERSHED-BASED SURVEY DESIGNS
Relationship Reason:WATERSHED-BASED SURVEY DESIGNS154614DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
ACCURACY ASSESSMENT OF THE NATIONAL LAND COVER DATABASE 2001 (NLCD 2001) IMPERVIOUSNESS DATA
Relationship Reason:ACCURACY ASSESSMENT OF THE NATIONAL LAND COVER DATABASE 2001 (NLCD 2001) IMPERVIOUSNESS DATA153083DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
COMPARISON OF ECOLOGICAL REGIONS AND LAND-COVER COMPOSITION FOR GUIDING ESTABLISHMENT OF NUTRIENT CRITERIA
Relationship Reason:COMPARISON OF ECOLOGICAL REGIONS AND LAND-COVER COMPOSITION FOR GUIDING ESTABLISHMENT OF NUTRIENT CRITERIA148464DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
LANDSCAPE ASSESSMENT TOOLS FOR WATERSHED CHARACTERIZATION
Relationship Reason:LANDSCAPE ASSESSMENT TOOLS FOR WATERSHED CHARACTERIZATION147496DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
UNCERTAINTY IN SCALING NUTRIENT EXPORT COEFFICIENTS
Relationship Reason:UNCERTAINTY IN SCALING NUTRIENT EXPORT COEFFICIENTS147043DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
DRAFT LANDSAT DATA MOSAIC: MONTGOMERY COUNTY, TEXAS; HARRIS COUNTY, TEXAS; FORT BEND COUNTY, TEXAS; BRAZORIA COUNTY, TEXAS; GALVESTON COUNTY, TEXAS
Relationship Reason:DRAFT LANDSAT DATA MOSAIC: MONTGOMERY COUNTY, TEXAS; HARRIS COUNTY, TEXAS; FORT BEND COUNTY, TEXAS; BRAZORIA COUNTY, TEXAS; GALVESTON COUNTY, TEXAS140638DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
US EPA'S LANDSCAPE ECOLOGY RESEARCH: ASSESSING TRENDS FOR WETLANDS AND SURFACE WATERS USING REMORE SENSING, GIS, AND FIELD-BASED TECHNIQUES
Relationship Reason:US EPA'S LANDSCAPE ECOLOGY RESEARCH: ASSESSING TRENDS FOR WETLANDS AND SURFACE WATERS USING REMORE SENSING, GIS, AND FIELD-BASED TECHNIQUES140627DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
WATER QUALITY VULNERABILITY IN THE OZARKS: AN ONGOING ASSESSMENT OF THE UPPER WHITE RIVER WATERSHED
Relationship Reason:WATER QUALITY VULNERABILITY IN THE OZARKS: AN ONGOING ASSESSMENT OF THE UPPER WHITE RIVER WATERSHED133010DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
INVENTORY AND ECOLOGICAL ASSESSMENT OF DEPRESSIONAL WETLANDS IN THE TEXAS COASTAL REGION: INTERIM RESULTS
Relationship Reason:INVENTORY AND ECOLOGICAL ASSESSMENT OF DEPRESSIONAL WETLANDS IN THE TEXAS COASTAL REGION: INTERIM RESULTS118167DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
LANDSCAPE ECOLOGY APPROACHES FOR DETECTING, MAPPING, AND ASSESSING THE VULNERABILITY OF DEPRESSIONAL WETLANDS
Relationship Reason:LANDSCAPE ECOLOGY APPROACHES FOR DETECTING, MAPPING, AND ASSESSING THE VULNERABILITY OF DEPRESSIONAL WETLANDS116485DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
CONFIRMING THE RESULTS: AN ACCURACY ASSESSMENT OF REMOTE PRODUCTS, AN EXAMPLE COMPARING MULTIPLE MID-ATLANTIC SUB-PIXEL IMPERVIOUS SURFACE MAPS
Relationship Reason:CONFIRMING THE RESULTS: AN ACCURACY ASSESSMENT OF REMOTE PRODUCTS, AN EXAMPLE COMPARING MULTIPLE MID-ATLANTIC SUB-PIXEL IMPERVIOUS SURFACE MAPS114967DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
BOOK REVIEW: WETLAND DESIGN, PRINCIPLES AND PRACTICES FOR LANDSCAPE ARCHITECTS AND LAND-USE PLANNERS
Relationship Reason:BOOK REVIEW: WETLAND DESIGN, PRINCIPLES AND PRACTICES FOR LANDSCAPE ARCHITECTS AND LAND-USE PLANNERS104644DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
CHANGES IN ANTHROPOGENIC INPERVIOUS SURFACES, PRECIPITATION AND DAILY STREAMFLOW DISCHARGE: A HISTORICAL PERSPECTIVE IN A MID-ATLANTIC SUBWATERSHED
Relationship Reason:CHANGES IN ANTHROPOGENIC INPERVIOUS SURFACES, PRECIPITATION AND DAILY STREAMFLOW DISCHARGE: A HISTORICAL PERSPECTIVE IN A MID-ATLANTIC SUBWATERSHED103951DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
AN OVERVIEW OF THE STRESSORS AND ECOLOGICAL IMPACTS ASSOCIATED WITH REGIONAL AND GLOBAL PATTERNS OF POPULATION, LAND USE, AND LAND COVER CHANGE
Relationship Reason:AN OVERVIEW OF THE STRESSORS AND ECOLOGICAL IMPACTS ASSOCIATED WITH REGIONAL AND GLOBAL PATTERNS OF POPULATION, LAND USE, AND LAND COVER CHANGE99754DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
PROBLEM FORMULATION REPORT: FOR THE ASSESSMENT OF THE CONSEQUENCES OF GLOBAL CHANGE FOR AQUATIC ECOSYSTEMS
Relationship Reason:PROBLEM FORMULATION REPORT: FOR THE ASSESSMENT OF THE CONSEQUENCES OF GLOBAL CHANGE FOR AQUATIC ECOSYSTEMS99517DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
A MODELING APPROACH FOR ESTIMATING WATERSHED IMPERVIOUS SURFACE AREA FROM NATIONAL LAND COVER DATA 92
Relationship Reason:A MODELING APPROACH FOR ESTIMATING WATERSHED IMPERVIOUS SURFACE AREA FROM NATIONAL LAND COVER DATA 9289436DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
A LANDSCAPE ECOLOGY APPROACH TO IDENTIFYING ECOLOGICAL VULNERABILITY IN GEOGRAPHICALLY ISOLATED WETLANDS
Relationship Reason:A LANDSCAPE ECOLOGY APPROACH TO IDENTIFYING ECOLOGICAL VULNERABILITY IN GEOGRAPHICALLY ISOLATED WETLANDS86038DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
COLLABORATIVE HYDROLOGIC RESEARCH IN THE CLARKSBURG SPECIAL PROTECTION AREA
Relationship Reason:COLLABORATIVE HYDROLOGIC RESEARCH IN THE CLARKSBURG SPECIAL PROTECTION AREA86012DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
A TECHNIQUE FOR ASSESSING THE ACCURACY OF SUB-PIXEL IMPERVIOUS SURFACE ESTIMATES DERIVED FROM LANDSAT TM IMAGERY
Relationship Reason:A TECHNIQUE FOR ASSESSING THE ACCURACY OF SUB-PIXEL IMPERVIOUS SURFACE ESTIMATES DERIVED FROM LANDSAT TM IMAGERY84929DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
MULTI-SCALE REMOTE SENSING MAPPING OF ANTHROPOGENIC IMPERVIOUS SURFACES: SPATIAL AND TEMPORAL SCALING ISSUES RELATED TO ECOLOGICAL AND HYDROLOGICAL LANDSCAPE ANALYSES
Relationship Reason:MULTI-SCALE REMOTE SENSING MAPPING OF ANTHROPOGENIC IMPERVIOUS SURFACES: SPATIAL AND TEMPORAL SCALING ISSUES RELATED TO ECOLOGICAL AND HYDROLOGICAL LANDSCAPE ANALYSES81213DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
AN ACCURACY ASSESSMENT OF MULTIPLE MID-ATLANTIC SUB-PIXEL IMPERVIOUS SURFACE MAPS
Relationship Reason:AN ACCURACY ASSESSMENT OF MULTIPLE MID-ATLANTIC SUB-PIXEL IMPERVIOUS SURFACE MAPS81157DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
MICROTOPOGRAPHY AND GRAZING IN DESERT RANGE LAND: A LESSON IN STATISTICS VERSUS REALITY IN THE FIELD
Relationship Reason:MICROTOPOGRAPHY AND GRAZING IN DESERT RANGE LAND: A LESSON IN STATISTICS VERSUS REALITY IN THE FIELD74946DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
CHANGES IN ANTHROPOGENIC IMPERVIOUS SURFACES, PRECIPITATION AND DAILY STREAMFLOW DISCHARGE: A HISTORICAL PERSPECTIVE IN A MID-ATLANTIC SUB-WATERSHED
Relationship Reason:CHANGES IN ANTHROPOGENIC IMPERVIOUS SURFACES, PRECIPITATION AND DAILY STREAMFLOW DISCHARGE: A HISTORICAL PERSPECTIVE IN A MID-ATLANTIC SUB-WATERSHED65154DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
USE OF LIDAR TO MAP STREAM MORPHOLOGY AND MONITOR CHANGES DUE TO URBANIZATION OF A SMALL SUBURBAN WATERSHED
Relationship Reason:USE OF LIDAR TO MAP STREAM MORPHOLOGY AND MONITOR CHANGES DUE TO URBANIZATION OF A SMALL SUBURBAN WATERSHED62916DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
QUANTIFYING THE RELATIONSHIPS BETWEEN LANDSCAPE IMPERVIOUSNESS AND AQUATIC BIOLOGICAL COMMUNITY RESPONSE
Relationship Reason:QUANTIFYING THE RELATIONSHIPS BETWEEN LANDSCAPE IMPERVIOUSNESS AND AQUATIC BIOLOGICAL COMMUNITY RESPONSE62608DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
A SUB-PIXEL COEFFICIENT MODEL TO FORM AGGREGATE IMPERVIOUUS SURFACE ESTIMATES FROM NATIONAL LAND COVER DATA
Relationship Reason:A SUB-PIXEL COEFFICIENT MODEL TO FORM AGGREGATE IMPERVIOUUS SURFACE ESTIMATES FROM NATIONAL LAND COVER DATA62336DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
ADDING THE THIRD DIMENSION TO LANDSCAPE ECOLOGY
Relationship Reason:ADDING THE THIRD DIMENSION TO LANDSCAPE ECOLOGY61865DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
A SUB-PIXEL ACCURACY ASSESSMENT FRAMEWORK FOR DETERMINING LANDSAT TM DERIVED IMPERVIOUS SURFACE ESTIMATES.
Relationship Reason:A SUB-PIXEL ACCURACY ASSESSMENT FRAMEWORK FOR DETERMINING LANDSAT TM DERIVED IMPERVIOUS SURFACE ESTIMATES.61414DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
USE OF NATIONAL TECHNICAL MEANS FOR INTERNATIONAL EMERGENCY RESPONSE
Relationship Reason:USE OF NATIONAL TECHNICAL MEANS FOR INTERNATIONAL EMERGENCY RESPONSE61274DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
IMPERVIOUS SURFACES AND STREAMFLOW DISCHARGE: A HISTORICAL REMOTE SENSING PERSPECTIVE IN A MID-ATLANTIC SUB-WATERSHED
Relationship Reason:IMPERVIOUS SURFACES AND STREAMFLOW DISCHARGE: A HISTORICAL REMOTE SENSING PERSPECTIVE IN A MID-ATLANTIC SUB-WATERSHED61070DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
ARE LAKES GETTING WARMER? REMOTE SENSING OF LARGE LAKE TEMPERATURES
Relationship Reason:ARE LAKES GETTING WARMER? REMOTE SENSING OF LARGE LAKE TEMPERATURES60987DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
IMPERVIOUS SURFACES AND STREAMFLOW DISCHARGE: A HISTORICAL REMOTE SENSING PERSPECTIVE IN A NORTHERN VIRGINIA SUBWATERSHED
Relationship Reason:IMPERVIOUS SURFACES AND STREAMFLOW DISCHARGE: A HISTORICAL REMOTE SENSING PERSPECTIVE IN A NORTHERN VIRGINIA SUBWATERSHED60912DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
USING GIS AND AERIAL PHOTOGRAPHY TO DETERMINE A HISTORICAL IMPERVIOUS SURFACE/STREAMFLOW RELATIONSHIP
Relationship Reason:USING GIS AND AERIAL PHOTOGRAPHY TO DETERMINE A HISTORICAL IMPERVIOUS SURFACE/STREAMFLOW RELATIONSHIP60836DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
INTERACTIONS BETWEEN BYTHOTREPHES CEDERSTROEMI AND LEPTODORA KINDTII INFERRED FROM SEASONAL POPULATION ABUNDANCE PATTERNS IN LAKE MICHIGAMME, MICHIGAN, USA
Relationship Reason:INTERACTIONS BETWEEN BYTHOTREPHES CEDERSTROEMI AND LEPTODORA KINDTII INFERRED FROM SEASONAL POPULATION ABUNDANCE PATTERNS IN LAKE MICHIGAMME, MICHIGAN, USA60751DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
DIGITAL IMAGE ANALYSIS REPORTS: THE CONVERSION OF EPIC'S TRADITIONAL SITE CHARACTERIZATION PRODUCT
Relationship Reason:DIGITAL IMAGE ANALYSIS REPORTS: THE CONVERSION OF EPIC'S TRADITIONAL SITE CHARACTERIZATION PRODUCT60214DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
HISTORICAL SNOW AMOUNTS IN THE LAKE EFFECT REGION OF LAKE SUPERIOR: EVIDENCE OF CLIMATE CHANGE IN THE GREAT LAKES
Relationship Reason:HISTORICAL SNOW AMOUNTS IN THE LAKE EFFECT REGION OF LAKE SUPERIOR: EVIDENCE OF CLIMATE CHANGE IN THE GREAT LAKES60034DOCUMENT1.0A PRODUCT OF THE PROJECTREVIEWEDPUBLICORDNERL
Acronyms:
Title
:LANDSCAPE INDICATORS OF SURFACE WATER CONDITIONS
Version
:1.0
Acronym
:REVA
Acronym Meaning
:REgional Vulnerability Assessment
Project Information:
Progress
:Subtask 1 - Impervious Surface Evaluation
In FY03, results of the pilot project were published as journal article in Landscape Ecology (Jennings and Jarnagin, 2002). A book chapter (Jarnagin et al., 2003) based on the presentation at the the AA conference in FY02 was accepted for publication. A presentation detailing the AA protocol was delivered at a meeting on impervious surfaces at the Chesapeake Bay Foundation in Annapolis, Maryland. This presentation, in April, 2003, was the impetus for a USGS internal prospectus investigating the accuracy of various sub-pixel impervious surface datasets derived for the Mid-Atlantic/Chesapeake Bay region. The investigators on this subtask will be collaborators on the USGS AA prospectus.
Work also progressed on the acquisition and processing of mid-Atlantic historical streamflow and precipitation data into spreadsheet format and on the acquisition and mapping of historical aerial photographs for selected watersheds.
Initial contacts and discussions for the impervious surface work in the CSPA (Montgomery County, Maryland) were begun. A poster presentation detailing the overarching design of the CSPA research was delivered at the USEPA/ORD science forum in Washington D.C.
Activity to date in FY04, results of the NLCD92 coefficient model were accepted by the journal Photogrammetric Engineering and Remote Sensing(Jennings et al., in press). Work will progress on the mapping of impervious surfaces from historical aerial photographs for given watersheds and in the integration of streamflow and precipitation in the mid-Atlantic.
In FY05, the following activities will be continued: 1) the impervious surface mapping research plan will be finalized; 2) The production of vector truth impervious surface data products from historical aerial photographs will continue; 3) precipitation records will be spatially linked to streamflow station records and streamflow/precipitation daily data pairs will be developed for the historical stations; 4) high spatial resolution vector maps of impervious surfaces will be used to assess the accuracy and appropriate spatial scale for application of various sub-pixel impervious surface estimators currently being developed by academic and governmental organizations, which entails collaboration with Federal (USGS), NGO (Chesapeake Bay Foundation) and academic (University of Maryland, College Park, Towson University) partners; 5) stream gauges and a precipitation gauge will be installed in the Clarksburg Special Protection Area (CSPA) in Montgomery County, Maryland and the streamflow data collected will be made publically available on the USGS National Water Information System (NWIS). Biological stream survey data, GIS planimetric data and ortho-imagery of the CSPA will be obtained from the Montgomery County Department of Environmental Protection (DEP).
Subtask 2 - Landscape Assessments and Evaluations of Best Management Practices: Watershed Demonstrations
Project has just been initiated in this fiscal year (FY05). The 30-50 watersheds have been delivered to the contractor from the Region III NPS coordinater. Searches for available aerial photography are underway. Contact with the state NPS coordinators for acquisition of pre- and post-monitoring data for objective 3 have been initiated.
Subtask 3 - TMDL Non-point Source Assessment Tool
In FY04, a GIS program was written to (1) identify watershed areas or catchments of individual stream segments, (2) allow for selection of one to several (up to a Region) stream segments to be analyzed by the user, and (3) to color-code watersheds based on results of model runs. In FY04 the goal is to complete the prototype.
Subtask 4 - Mapping and Functional Assessment of Isolated Waters and Depressional Wetlands
In FY04, searches and acquisition of remote sensing and ancillary GIS data were completed (see A under Objective). Pre-processing of all rem
Relevance
:Subtask 1 - Impervious Surface Evaluation
The stakeholders who will realize benefits from in this project include the EPA Offices of Water and Research and Development, local units of government and private industry involved in the implementation and monitoring of best management practices to minimize the impacts of urbanization, and the general scientific community interested in the evaluation of impervious surfaces and their impact upon water resources.
Subtask 2 - Landscape Assessments and Evaluations of Best Management Practices: Watershed Demonstrations
Effectiveness of BMPs is an emerging issue in EPA. This research will demonstrate the ability of aerial photography to document the existance of BMPs. Existance is the most basic measure of effectiveness, since planned BMPs cannot be effective if they are not implemented. Additionally, results from this research will support inclusion of BMP geographic coordinates in EPA's Grants Reporting and Tracking System (GRTS), which is the database used to monitor and track BMPs. Geographic coordinates are currently lacking in GRTS. The third objective will address BMP effectiveness from a environmental perspective. Data from OW's 20-site national BMP network have not been rigorously examined to determine if implemented BMPs have reduced nutrient input. We will examine the data for 5-6 of the sites where data collection has been completed.
Subtask 3 - TMDL Non-point Source Assessment Tool
The EPA and States need comprehensive methods and tools for evaluating risks of surface waters to potential impairment due to non-point source pollution. Moreover, States need comprehensive and scientifically defensible methods and tools to evaluate and nominate water bodies that exceed thresholds for a number of TMDL parameters. Such an approach is necessary because not all water bodies can be sampled.
Subtask 4 - Mapping and Functional Assessment of Isolated Waters and Depressional Wetlands
ORD proposes using a landscape approach to assess the ecological/hydrologic functions and related human values of depressional wetlands along coastal Texas, considered to be vulnerable to human disturbance. Many of those wetlands may be at high risk because of recent court rulings (including the 2001 "SWANCC" ruling by the U.S. Supreme Court) and associated jurisdictional interpretations by the U.S. Army Corps of Engineers. As a result of these rulings and interpretations, the Galveston District of the Army Corps of Engineers is currently asserting Clean Water Act jurisdiction over a dramatically reduced area of freshwater depressional wetlands within the District. The total amount of wetlands impacted by this situation is unclear and rough estimates range from 300,000 to as much as 1,000,000 acres. The Galveston District has taken the position that these wetlands are isolated on the landscape. It is EPA's opinion that the general nature of the landscape is such that these wetlands are hydrologically connected via shallow ground swales which provide concentrated directional flow during rainfall events, thereby connecting these depressional wetlands directly to the tributary system and making them subject to protection under the Clean Water Act. Both EPA Region 6 and the headquarters Office of Water need a better understanding of the extent of such depressional wetlands nationally and in key areas such as the Texas coast in order to inform policy discussions between federal agencies with joint jurisdiction on this issue of extreme legal, policy, and regulatory significance.
Clients
:Chuck Sutfin, Laura Gabanski, Doug Norton, Office of Water; Mike McDonald, Gil Veith, NHEERL; Richard Batiuk, Carin Bisland, Chesapeake Bay Program Office; Tom DeMoss, Ron Landy, Region 3; Janis Hastings, Region 10; CENR; and various county and state
Project IDs:
ID Code
:5451
Project type
:OMIS