Dataset Identification:
Resource Abstract:
- description: This is the 1st release of the fourth version of an Everglades Depth Estimation Network (EDEN) digital elevation
model (DEM) generated from certified airborne height finder (AHF) and airboat collected ground surface elevations for the
Greater Everglades Region. Collectively, these data are referred to as "High Accuracy Elevation Data" (HAED). This
version differs from the previous elevation model (EDEN_EM_OCT07) in several ways. First, the kriging algorithm applied to
newly modeled subareas was changed from ordinary to universal kriging - resulting in slightly lower errors during cross-validation
and accuracy assessment. Second, to increase accuracy in Water Conservation Area 1 (WCA1), the most challenging EDEN subarea
from an elevation modeling standpoint, the Conservation area is subdivided into 3 zones (North, Central, South). Boundaries
between the North, Central and South zones are based upon landscape units defined in the CERP Monitoring and Assessment Plan,
Part 1, Figure 3-20 on p. 3-38 (p. 36 in the pdf file)) at http://www.evergladesplan.org/pm/recover/recover_docs/map/MAP_3.1_GE.pdf.
The South landscape unit (representing approximately the southern third of WCA1) was further divided into two zones (east
and west, termed "Southeast" and "Southwest") based on marked changes in slope and aspect data generated
from a DEM of the South landscape unit as a whole. Division of WCA1 into 4 zones reduces errors estimated by comparing DEM
modeled water depths with those measured by EDEN Principal Investigators in the field. Subdivision of the South landscape
unit into east and west zones resulted in lower error estimates for the Southeast zone without significantly affecting (i.e.,
improving or degrading) the quality of the Southwest zone - an area where DEM modeling is most challenging. To reduce artificial
breaks in elevation along WCA1 subarea boundaries, models were overlapped by 1 cell at these boundaries and, for the North,
Central and South zone boundaries, overlapping model values were averaged. For the boundaries between the Southwest and Southeast
zones, cell values were "blended" based on weighted distance from the boundary edge. Finally, points along the North
/ Central and Central / South zone edges were subjectively selected and changed by adding or subtracting 0.03 meters (3 cm)
to particular cells based on nearby cell values. This slightly reduces apparent artifacts without drastically affecting the
integrity of the model. The EDEN offers a consistent and documented dataset that can be used to guide large-scale field operations,
to integrate hydrologic and ecological responses, and to support biological and ecological assessments that measure ecosystem
responses to the Comprehensive Everglades Restoration Plan. To produce historic and near-real time maps of water depths, the
EDEN requires a system-wide DEM of the ground surface. This file is intended specifically for use in the EDEN applications
software. Therefore, it is a modification of the eden DEM released in January of 2010 (i.e., eden_em_ja10). The released January
2010 data was modified in two ways. First, elevation values have been converted from meters (m) to centimeters (cm). Second,
data have been removed from the southern Big Cypress National Preserve and northwestern Everglades National Park area so that
this DEM boundary matches the EDEN boundary still in use in EDEN applications software. Aside from this difference in horizontal
units and area of coverage, the following data documentation applies.; abstract: This is the 1st release of the fourth version
of an Everglades Depth Estimation Network (EDEN) digital elevation model (DEM) generated from certified airborne height finder
(AHF) and airboat collected ground surface elevations for the Greater Everglades Region. Collectively, these data are referred
to as "High Accuracy Elevation Data" (HAED). This version differs from the previous elevation model (EDEN_EM_OCT07)
in several ways. First, the kriging algorithm applied to newly modeled subareas was changed from ordinary to universal kriging
- resulting in slightly lower errors during cross-validation and accuracy assessment. Second, to increase accuracy in Water
Conservation Area 1 (WCA1), the most challenging EDEN subarea from an elevation modeling standpoint, the Conservation area
is subdivided into 3 zones (North, Central, South). Boundaries between the North, Central and South zones are based upon landscape
units defined in the CERP Monitoring and Assessment Plan, Part 1, Figure 3-20 on p. 3-38 (p. 36 in the pdf file)) at http://www.evergladesplan.org/pm/recover/recover_docs/map/MAP_3.1_GE.pdf.
The South landscape unit (representing approximately the southern third of WCA1) was further divided into two zones (east
and west, termed "Southeast" and "Southwest") based on marked changes in slope and aspect data generated
from a DEM of the South landscape unit as a whole. Division of WCA1 into 4 zones reduces errors estimated by comparing DEM
modeled water depths with those measured by EDEN Principal Investigators in the field. Subdivision of the South landscape
unit into east and west zones resulted in lower error estimates for the Southeast zone without significantly affecting (i.e.,
improving or degrading) the quality of the Southwest zone - an area where DEM modeling is most challenging. To reduce artificial
breaks in elevation along WCA1 subarea boundaries, models were overlapped by 1 cell at these boundaries and, for the North,
Central and South zone boundaries, overlapping model values were averaged. For the boundaries between the Southwest and Southeast
zones, cell values were "blended" based on weighted distance from the boundary edge. Finally, points along the North
/ Central and Central / South zone edges were subjectively selected and changed by adding or subtracting 0.03 meters (3 cm)
to particular cells based on nearby cell values. This slightly reduces apparent artifacts without drastically affecting the
integrity of the model. The EDEN offers a consistent and documented dataset that can be used to guide large-scale field operations,
to integrate hydrologic and ecological responses, and to support biological and ecological assessments that measure ecosystem
responses to the Comprehensive Everglades Restoration Plan. To produce historic and near-real time maps of water depths, the
EDEN requires a system-wide DEM of the ground surface. This file is intended specifically for use in the EDEN applications
software. Therefore, it is a modification of the eden DEM released in January of 2010 (i.e., eden_em_ja10). The released January
2010 data was modified in two ways. First, elevation values have been converted from meters (m) to centimeters (cm). Second,
data have been removed from the southern Big Cypress National Preserve and northwestern Everglades National Park area so that
this DEM boundary matches the EDEN boundary still in use in EDEN applications software. Aside from this difference in horizontal
units and area of coverage, the following data documentation applies.
Citation
- Title Everglades Depth Estimation Network (EDEN) January 2010 Digital Elevation Model for use with EDENapps.
-
- creation Date
2018-05-20T00:37:57.419538
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Metadata data stamp:
2018-08-07T01:11:27Z
Resource Maintenance Information
- maintenance or update frequency:
- notes: This metadata record was generated by an xslt transformation from a dc metadata record; Transform by Stephen M. Richard, based
on a transform by Damian Ulbricht. Run on 2018-08-07T01:11:27Z
Metadata contact
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pointOfContact
- organisation Name
CINERGI Metadata catalog
-
- Contact information
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-
- Address
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- electronic Mail Address cinergi@sdsc.edu
Metadata language
eng
Metadata character set encoding:
utf8
Metadata standard for this record:
ISO 19139 Geographic Information - Metadata - Implementation Specification
standard version:
2007
Metadata record identifier:
urn:dciso:metadataabout:1802a93c-6718-4f3e-baf7-0c233fe31a97
Metadata record format is ISO19139 XML (MD_Metadata)