Kevin M. Befus
Daniel J. Hoover
Patrick L. Barnard
20230315
Projected water table depths along the Virginia, Georgia, and Florida coasts
GeoTiff
data release
DOI:10.5066/P9BQQTCI
Pacific Coastal and Marine Science Center Santa Cruz, California
U.S. Geological Survey
https://doi.org/10.5066/P9BQQTCI
Patrick L. Barnard
Kevin Befus
Jeffrey J. Danielson
Anita C. Engelstad
Li H. Erikson
Amy C. Foxgrover
Maya K. Hayden
Daniel J. Hoover
Tim Leijnse
Chris Massey
Robert McCall
Norberto C. Nadal-Caraballo
Kees Nederhoff
Leonard O. Ohenhen
Andrea C. O'Neill
Kai A. Parker
Manoocher Shirzaei
Xin Su
Jennifer A. Thomas
Maarten van Ormondt
Sean F. Vitousek
Kilian Vos
Madison C. Yawn
2023
Future coastal hazards along the U.S. Atlantic coast
data release
DOI: 10.5066/P9BQQTCI
Pacific Coastal and Marine Science Center, Santa Cruz, CA
U.S. Geological Survey
https://doi.org/10.5066/P9BQQTCI
To predict water table depths, seamless groundwater heads for unconfined coastal Virginia, Georgia, and Florida (Atlantic and Gulf coast south of Sarasota) groundwater systems were modeled with homogeneous, steady-state MODFLOW simulations. The geographic extent examined was limited primarily to low-elevation (land surface less than approximately 10 m above mean sea level) areas. Steady-state MODFLOW groundwater flow models were used to obtain detailed (50-meter-scale) predictions over large geographic scales (100s of kilometers) of groundwater heads for both current and future sea-level rise (SLR) scenarios (0, 0.25, 0.5, 1, 1.5, 2, 2.5, and 3 m) using 3 spatially varying hydraulic conductivities (K); one based on published K's, one with published K's reduced by a factor of 10 (K*0.1), and one with published K's increased by a factor of 10 (K*10) to assess the sensitivity of model results to K. All models had variable thicknesses corresponding to published transmissivities. The models were run with a local mean higher-high water (MHHW) marine boundary condition, and with groundwater reaching the land surface removed from the model, simulating loss via natural drainage. Modeled groundwater heads were then subtracted from high-resolution topographic digital elevation model (DEM) data to obtain the water table depths. Similar modeled data for North Carolina and South Carolina are available from Barnard and others, 2023, at https://doi.org/10.5066/P9W91314.
Projections for future sea-level rise provide emergency responders and coastal planners with critical hazards information that can be used to increase public safety, mitigate physical damages, and more effectively manage and allocate resources within complex coastal settings. These data are intended for policy makers, resource managers, science researchers, students, and the general public. These data can be used with geographic information systems or other software to identify and assess possible areas of vulnerability. These data are not intended to be used for navigation.
This data release was funded by the USGS Coastal and Marine Hazards and Resources Program. Any use of trade, product, or firm names is for descriptive purposes only and does not imply endorsement by the U.S. Government.
2001
2023
oldest dataset used through year of publication
None Planned
-82.499627
-75.203445
38.027919
25.098211
USGS Metadata Identifier
USGS:0264d98a-7339-4164-beb0-b537ae7cb577
Data Categories for Marine Planning
Physical Habitats and Geomorphology
Global Change Master Directory (GCMD)
Hazards Planning
Beaches
Sea Level Rise
Floods
Water Depth
USGS Thesaurus
Climate Change
Floods
Groundwater Flow
Sea-level Change
mathematical modeling
effects of climate change
earth sciences
ISO 19115 Topic Category
Oceans
GeoscientificInformation
InlandWaters
Marine Realms Information Bank (MRIB) keywords
sea level change
floods
None
U.S. Geological Survey
USGS
Coastal and Marine Hazards and Resources Program
CMHRP
Pacific Coastal and Marine Science Center
PCMSC
Geographic Names Information System
State of Virginia
State of Georgia
State of Florida
none
USGS-authored or produced data and information are in the public domain from the U.S. Government and are freely redistributable with proper metadata and source attribution. Please recognize and acknowledge the U.S. Geological Survey and the University of Arkansas as the originators of the dataset and in products derived from these data. This information is not intended for navigation purposes.
U.S. Geological Survey, Pacific Coastal and Marine Science Center
PCMSC Science Data Coordinator
mailing and physical
2885 Mission Street
Santa Cruz
CA
95060-5792
US
831-460-4747
831-427-4748
pcmsc_data@usgs.gov
GWHazards_WaterTabledepth_browse_graphic.png
Map showing water table depth results along the coasts of Virginia, Georgia, and Florida for the K x 1 and present-day sea-level rise (0m) scenario. Colors represent water table depth relative to the ground surface.
PNG
Patrick L. Barnard
Kevin Befus
Jeffrey J. Danielson
Anita C. Engelstad
Li H. Erikson
Amy C. Foxgrover
Matthew W. Hardy
Daniel J. Hoover
Tim Leijnse
Chris Massey
Robert McCall
Norberto C. Nadal-Caraballo
Kees Nederhoff
Leonard Ohenhen
Andrea C. O'Neill
Kai A. Parker
Manoocher Shirzaei
Xin Su
Jennifer A. Thomas
Maarten van Ormondt
Sean F. Vitousek
Kilian Vos
Madison C. Yawn
2023
Future coastal hazards along the U.S. North and South Carolina coasts
Barnard, P.L., Befus, K., Danielson, J.J., Engelstad, A.C., Erikson, L.H., Foxgrover, A.C., Hardy, M.W., Hoover, D.J., Leijnse, T., Massey, C., McCall, R., Nadal-Caraballo, N.C., Nederhoff, K., Ohenhen, L., O'Neill, A.C., Parker, K.A., Shirzaei, M., Su, X., Thomas, J.A., van Ormondt, M., Vitousek, S.F., Vos K., and Yawn, M.C., 2023, Future coastal hazards along the U.S. North and South Carolina coasts: U.S. Geological Survey data release, https://doi.org/10.5066/P9W91314.
Attribute values are model-derived water table depths for present-day and future sea-level rise conditions. The model uses parameters from calibrated and published groundwater models and is intended to show the general response of the shallow coastal water table to sea-level rise. Water table depths are calculated relative to the best-available ground surface elevations from available digital elevation models (DEMs), but DEM inaccuracies introduce additional uncertainty into calculated water table depths. Projected water tables for future sea-level rise conditions cannot be validated against observations.
Data have undergone quality checks and meet standards.
Dataset is considered complete for the information presented. Users are advised to read the metadata record carefully for additional details.
Data are concurrent with topographic digital elevation model (DEM) locations.
Model-derived head elevations are accurate within the limitations of the model. The model uses parameters from calibrated, published groundwater models, but limitations due to model resolution and uncertainty in model parameter values may significantly affect modeled head elevations. For water table depths, modeled heads are subtracted from land surface elevations from the best available digital elevation models (DEMs). DEM inaccuracy will introduce additional uncertainty into water table depth results. As a result, water table depth results are intended to show only the general response of the shallow coastal water table to sea-level rise.
Kevin M. Befus
Daniel J. Hoover
Patrick L. Barnard
2023
Projected groundwater head along the Virginia, Georgia, and Florida coasts
GeoTIFF
online
U.S. Geological Survey
https://doi.org/10.5066/P9BQQTCI
digital dataset
1985
2023
oldest dataset used through year of publication
groundwater head
used to calculate water table depths
U.S. Geological Survey
2020
Coastal National Elevation Database (CoNED) Project - Topobathymetric Digital Elevation Model (TBDEM) for Southeast Atlantic Coast
raster
online
U.S. Geological Survey
https://topotools.cr.usgs.gov/topobathy_viewer
online
20210405
Date accessed
TBDEM
Topobathymetric Digital Elevation Model (TBDEM) data for Virginia (Chesapeake Bay) and Georgia. See metadata for each area and read carefully
Cooperative Institute for Research in Environmental Sciences (CIRES) at the University of Colorado, Boulder
2014
Continuously Updated Digital Elevation Model (CUDEM) - 1/9 Arc-Second Resolution Bathymetric-Topographic Tiles. All Florida subsets
raster
online
NOAA National Centers for Environmental Information
https://doi.org/10.25921/ds9v-ky35
online
20210405
Date accessed
CUDEM
Digital elevation data used for model input in Florida. The most recent data covering Eastern, Southern, and Western (south of Sarasota) Florida under 15m elevation NAVD88 at the time of access were used. Users are advised to read the metadata for this source dataset carefully.
U.S. Geological Survey
2018
USGS one meter for Florida
raster
online
USGS
https://rockyweb.usgs.gov/vdelivery/Datasets/Staged/Elevation/1m/Projects/FL_Southeast_B1_2018/
digital dataset
20210405
Date accessed
FL one-meter DEM
Digital elevation data used for model input in Florida. The most recent data covering Eastern and Southern Florida under 15 m elevation NAVD88 at the time of access were used to fill gaps/bad areas of CUDEM. Users are advised to read the metadata for this source dataset carefully.
NOAA National Geophysical Data Center
2001
U.S. Coastal Relief Model Vol.3 - Florida and East Gulf of Mexico
raster
online
NOAA National Centers for Environmental Information
https://doi.org/10.7289/V5W66HPP
online
20210405
Date accessed
CRM
Digital elevation data used for model input in Florida. The most recent data covering Eastern and Southern Florida under 15 m elevation NAVD88 at the time of access were used to fill gaps/bad areas of FL one-meter DEM. Users are advised to read the metadata for this source dataset carefully.
Calculated water table depths by subtracting modeled 50-m-resolution groundwater heads from 10-m-resolution digital elevation data (TBDEM, CUDEM, FL one-meter DEM, CRM). Where FL DEMs (CUDEM, FL one-meter DEM, CRM) overlapped, DEMs were used preferentially in the order listed.
groundwater head, TBDEM, CUDEM, FL one-meter DEM, CRM
20220405
Edits were made to correct spelling in author name. No data were changed. The metadata available from a harvester may supersede metadata bundled within a download file. Users are advised to compare the metadata date of this file to any similar file to ensure they are using the most recent version. (scochran@usgs.gov)
20230516
Raster
pixel
Universal Transverse Mercator
17
0.999600
-81.000000
0.000000
500000.000000
0.000000
row and column
10.000000
10.000000
meters
GCS WGS 1984
Geodetic Reference System 80
6378137.000000
298.257224
NAVD88
0.001
meters
Implicit coordinate
projected water table depths
Geotiffs of projected water table depths for the State, SLR, and K case specified
originators at United States Geological Survey, Pacific Coastal and Marine Science Center
Projection of water table depths for given State, SLR, and K case specified
water table depth
producer defined
-41.590
50.763
meters
0.001
U.S. Geological Survey - CMGDS
mailing and physical
2885 Mission Street
Santa Cruz
CA
95060
USA
831-427-4747
pcmsc_data@usgs.gov
Zip files (GWHazards_WaterTableDepth_VA_SLR0.ZIP, GWHazards_WaterTableDepth_VA_SLR0p25.ZIP, GWHazards_WaterTableDepth_VA_SLR0p5.ZIP, GWHazards_WaterTableDepth_VA_SLR1p0.ZIP, GWHazards_WaterTableDepth_VA_SLR1p5.ZIP, GWHazards_WaterTableDepth_VA_SLR2p0.ZIP, GWHazards_WaterTableDepth_VA_SLR2p5.ZIP, GWHazards_WaterTableDepth_VA_SLR3p0.ZIP, GWHazards_WaterTableDepth_GA_SLR0.ZIP, GWHazards_WaterTableDepth_GA_SLR0p25.ZIP, GWHazards_WaterTableDepth_GA_SLR0p5.ZIP, GWHazards_WaterTableDepth_GA_SLR1p0.ZIP, GWHazards_WaterTableDepth_GA_SLR1p5.ZIP, GWHazards_WaterTableDepth_GA_SLR2p0.ZIP, GWHazards_WaterTableDepth_GA_SLR2p5.ZIP, GWHazards_WaterTableDepth_GA_SLR3p0.ZIP) contain water table depth projections for all 3 K cases for the State and sea-level rise (SLR) indicated. When unzipped, individual water table depth files have filenames with the structure"(St_abbrev)_Kzell(K#)_slr(SLR#)m_10m_wt_depth.tif", where St_abbrev is the abbreviated State name (VA, GA), K# is 0p1, 1, or 10, and SLR# is 0p00, 0p25, 0p50, 1p00, 1p50, 2p00, 2p50, or 3p00. . The"p" in file names is being used in place of a decimal point. File sizes are in MB. Files"FL_Kzell(K#)_slr(SLR#)m_10m_wt_depth.tif" contain single TIFF files for the Florida K and slr case specified.
Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The .zip file (GWHazards_WaterTableDepth_VA_SLR0.zip) includes 3 GeoTIFF files for the State of Virginia, SLR 0m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020) (Kx1), and for the same K's multiplied by 0.1 (Kx0p1), and by 10 (Kx10).
WinZip
4800
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The .zip file (GWHazards_WaterTableDepth_VA_SLR0p25.zip) includes 3 GeoTIFF files for the State of Virginia, SLR 0.25m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020) (Kx1), and for the same K's multiplied by 0.1 (Kx0p1), and by 10 (Kx10).
WinZip
4800
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The .zip file (GWHazards_WaterTableDepth_VA_SLR0p5.zip) includes 3 GeoTIFF files for the State of Virginia, SLR 0.5m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020) (Kx1), and for the same K's multiplied by 0.1 (Kx0p1), and by 10 (Kx10).
WinZip
4800
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The .zip file (GWHazards_WaterTableDepth_VA_SLR1p0.zip) includes 3 GeoTIFF files for the State of Virginia, SLR 1.0m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020) (Kx1), and for the same K's multiplied by 0.1 (Kx0p1), and by 10 (Kx10).
WinZip
4800
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The .zip file (GWHazards_WaterTableDepth_VA_SLR1p5.zip) includes 3 GeoTIFF files for the State of Virginia, SLR 1.5m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020) (Kx1), and for the same K's multiplied by 0.1 (Kx0p1), and by 10 (Kx10).
WinZip
4800
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The .zip file (GWHazards_WaterTableDepth_VA_SLR2p0.zip) includes 3 GeoTIFF files for the State of Virginia, SLR 2.0m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020) (Kx1), and for the same K's multiplied by 0.1 (Kx0p1), and by 10 (Kx10).
WinZip
4800
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The .zip file (GWHazards_WaterTableDepth_VA_SLR2p5.zip) includes 3 GeoTIFF files for the State of Virginia, SLR 2.5m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020) (Kx1), and for the same K's multiplied by 0.1 (Kx0p1), and by 10 (Kx10).
WinZip
4800
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The .zip file (GWHazards_WaterTableDepth_VA_SLR3p0.zip) includes 3 GeoTIFF files for the State of Virginia, SLR 3.0m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020) (Kx1), and for the same K's multiplied by 0.1 (Kx0p1), and by 10 (Kx10).
WinZip
4800
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The .zip file (GWHazards_WaterTableDepth_GA_SLR0.zip) includes 3 GeoTIFF files for the State of Georgia, SLR 0m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020) (Kx1), and for the same K's multiplied by 0.1 (Kx0p1), and by 10 (Kx10).
WinZip
3000
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The .zip file (GWHazards_WaterTableDepth_GA_SLR0p25.zip) includes 3 GeoTIFF files for the State of Georgia, SLR 0.25m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020) (Kx1), and for the same K's multiplied by 0.1 (Kx0p1), and by 10 (Kx10).
WinZip
3000
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The .zip file (GWHazards_WaterTableDepth_GA_SLR0p5.zip) includes 3 GeoTIFF files for the State of Georgia, SLR 0.5m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020) (Kx1), and for the same K's multiplied by 0.1 (Kx0p1), and by 10 (Kx10).
WinZip
2900
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The .zip file (GWHazards_WaterTableDepth_GA_SLR1p0.zip) includes 3 GeoTIFF files for the State of Georgia, SLR 1.0m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020) (Kx1), and for the same K's multiplied by 0.1 (Kx0p1), and by 10 (Kx10).
WinZip
2900
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The .zip file (GWHazards_WaterTableDepth_GA_SLR1p5.zip) includes 3 GeoTIFF files for the State of Georgia, SLR 1.5m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020) (Kx1), and for the same K's multiplied by 0.1 (Kx0p1), and by 10 (Kx10).
WinZip
2900
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The .zip file (GWHazards_WaterTableDepth_GA_SLR2p0.zip) includes 3 GeoTIFF files for the State of Georgia, SLR 2.0m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020) (Kx1), and for the same K's multiplied by 0.1 (Kx0p1), and by 10 (Kx10).
WinZip
2900
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The .zip file (GWHazards_WaterTableDepth_GA_SLR2p5.zip) includes 3 GeoTIFF files for the State of Georgia, SLR 2.5m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020) (Kx1), and for the same K's multiplied by 0.1 (Kx0p1), and by 10 (Kx10).
WinZip
2900
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The .zip file (GWHazards_WaterTableDepth_GA_SLR3p0.zip) includes 3 GeoTIFF files for the State of Georgia, SLR 3.0m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020) (Kx1), and for the same K's multiplied by 0.1 (Kx0p1), and by 10 (Kx10).
WinZip
2900
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The file FL_Kzell0p1_slr0p00m_10m_wt_depth.tif is a GeoTIFF files of coastal water table depths for the State of Florida, SLR 0m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020) multiplied by 0.1.
5500
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The file FL_Kzell1_slr0p00m_10m_wt_depth.tif is a GeoTIFF files of coastal water table depths for the State of Florida, SLR 0m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020).
5500
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The file FL_Kzell10_slr0p00m_10m_wt_depth.tif is a GeoTIFF files of coastal water table depths for the State of Florida, SLR 0m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020) multiplied by 10.
5500
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The file FL_Kzell0p1_slr0p25m_10m_wt_depth.tif is a GeoTIFF files of coastal water table depths for the State of Florida, SLR 0.25m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020) multiplied by 0.1.
5500
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The file FL_Kzell1_slr0p25m_10m_wt_depth.tif is a GeoTIFF files of coastal water table depths for the State of Florida, SLR 0.25m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020).
5500
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The file FL_Kzell10_slr0p25m_10m_wt_depth.tif is a GeoTIFF files of coastal water table depths for the State of Florida, SLR 0.25m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020) multiplied by 10.
5500
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The file FL_Kzell0p1_slr0p50m_10m_wt_depth.tif is a GeoTIFF files of coastal water table depths for the State of Florida, SLR 0.50m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020) multiplied by 0.1.
5400
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The file FL_Kzell1_slr0p50m_10m_wt_depth.tif is a GeoTIFF files of coastal water table depths for the State of Florida, SLR 0.50m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020).
5500
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The file FL_Kzell10_slr0p50m_10m_wt_depth.tif is a GeoTIFF files of coastal water table depths for the State of Florida, SLR 0.50m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020) multiplied by 10.
5500
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The file FL_Kzell0p1_slr1p00m_10m_wt_depth.tif is a GeoTIFF files of coastal water table depths for the State of Florida, SLR 1.00m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020) multiplied by 0.1.
5400
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The file FL_Kzell1_slr1p00m_10m_wt_depth.tif is a GeoTIFF files of coastal water table depths for the State of Florida, SLR 1.00m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020).
5500
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The file FL_Kzell10_slr1p00m_10m_wt_depth.tif is a GeoTIFF files of coastal water table depths for the State of Florida, SLR 1.00m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020) multiplied by 10.
5500
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The file FL_Kzell0p1_slr1p50m_10m_wt_depth.tif is a GeoTIFF files of coastal water table depths for the State of Florida, SLR 1.50m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020) multiplied by 0.1.
5400
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The file FL_Kzell1_slr1p50m_10m_wt_depth.tif is a GeoTIFF files of coastal water table depths for the State of Florida, SLR 1.50m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020).
5400
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The file FL_Kzell10_slr1p50m_10m_wt_depth.tif is a GeoTIFF files of coastal water table depths for the State of Florida, SLR 1.50m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020) multiplied by 10.
5500
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The file FL_Kzell0p1_slr2p00m_10m_wt_depth.tif is a GeoTIFF files of coastal water table depths for the State of Florida, SLR 2.00m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020) multiplied by 0.1.
5400
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The file FL_Kzell1_slr2p00m_10m_wt_depth.tif is a GeoTIFF files of coastal water table depths for the State of Florida, SLR 2.00m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020).
5500
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The file FL_Kzell10_slr2p00m_10m_wt_depth.tif is a GeoTIFF files of coastal water table depths for the State of Florida, SLR 2.00m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020) multiplied by 10.
5500
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The file FL_Kzell0p1_slr2p50m_10m_wt_depth.tif is a GeoTIFF files of coastal water table depths for the State of Florida, SLR 2.50m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020) multiplied by 0.1.
5300
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The file FL_Kzell1_slr2p50m_10m_wt_depth.tif is a GeoTIFF files of coastal water table depths for the State of Florida, SLR 2.50m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020).
5400
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The file FL_Kzell10_slr2p50m_10m_wt_depth.tif is a GeoTIFF files of coastal water table depths for the State of Florida, SLR 2.50m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020) multiplied by 10.
5400
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The file FL_Kzell0p1_slr3p00m_10m_wt_depth.tif is a GeoTIFF files of coastal water table depths for the State of Florida, SLR 3.00m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020) multiplied by 0.1.
5300
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The file FL_Kzell1_slr3p00m_10m_wt_depth.tif is a GeoTIFF files of coastal water table depths for the State of Florida, SLR 3.00m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020).
5400
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
GeoTIFF
ArcGIS 10.5
Features are GeoTIFF format and are projected in UTM Zone 17 coordinates, with horizontal datum WGS84 and vertical datum NAVD88.
The file FL_Kzell10_slr3p00m_10m_wt_depth.tif is a GeoTIFF files of coastal water table depths for the State of Florida, SLR 3.00m, for spatially varying hydraulic conductivities (K's) from Zell and Sanford (2020) multiplied by 10.
5400
https://doi.org/10.5066/P9BQQTCI
Data can be downloaded using the Network_Resource_Name link then scrolling down to the Simulation Data section.
none
20230516
U.S. Geological Survey, Pacific Coastal and Marine Science Center
PCMSC Science Data Coordinator
mailing and physical
2885 Mission Street
Santa Cruz
CA
95060-5792
US
831-460-4747
831-427-4748
pcmsc_data@usgs.gov
Content Standard for Digital Geospatial Metadata
FGDC-STD-001-1998