751 to 760 of 789 Results
Jun 8, 2020 -
Environmental Variables Used in Spatial Analysis
Shapefile as ZIP Archive - 9.8 MB -
MD5: cf5dbd2aa6bb00e91e7ba6adc145a876
Consists of four classes that represent levels informed by elevation values taken from topography featured in Castillo et.al. (under review). Classification is based on expert review. Only those elevation values within the model evaluation domain are used. |
Jun 8, 2020 -
Environmental Variables Used in Spatial Analysis
Shapefile as ZIP Archive - 1.7 MB -
MD5: 29036afce9d53b7d3916dfb6d4b51856
Vegetation community and soil type are derived from polygon geometries that represent patches from the Ecological Modeling Systems of Texas (Elliott et.al. 2014). Each patch is assigned a vegetation community and soil type classification are based on the CommonName and EcoName fi... |
Jun 8, 2020 -
Environmental Variables Used in Spatial Analysis
Shapefile as ZIP Archive - 2.2 MB -
MD5: bcc65403593eb55054d70ceae4914972
Consists of three classes that represent levels informed by the inundation probability within the Mission River Floodplain. Inundation probability was based on mean daily discharge record (1939-2016) using inundation extents from Castillo et.al. (under review) as indexes. All ind... |
Jun 8, 2020 -
Environmental Variables Used in Spatial Analysis
Shapefile as ZIP Archive - 1.1 MB -
MD5: ded915aa43a5616590528ffc4a92a87c
Polygon shapefile that consists of four classes that represent levels informed by the generalized slope within the Mission River Floodplain. The generalized slope raster map is derived from resampled elevation values at a resolution of 10m using bilinear interpolation. Then, we u... |
ZIP Archive - 413.3 MB -
MD5: a7b5e614246f8eb859cc6394cb036597
Euclidean distance (in meters) from the main river channel and major tributaries is calculated with the Euclidean Distance algorithm in ArcGIS Desktop® 10.5. Only those distance values within the model evaluation domain are used. |
ZIP Archive - 314.1 MB -
MD5: fae27aed541194dbb3778e8bc6d648f8
Elevation values taken from topography featured in Castillo et.al. (under review). Only those elevation values within the model evaluation domain are used. |
ZIP Archive - 34.3 MB -
MD5: 0e27c4894b9c37b0e0f9e5a34139f11c
Derived from resampled elevation values at a resolution of 20m using bilinear interpolation. Then, we use the Zevenbergen and Thorne (1987) slope approach in QGIS Desktop 3.4 to calculate slope values as degrees with a resolution of 20m. The raster map is then upsampled back to 1... |
ZIP Archive - 5.9 MB -
MD5: c12f5ef9c22b4f20bf912851ae24dbcb
Calculated inundation probability within the Mission River Floodplain. Inundation probability was based on mean daily discharge record (1939-2016) using inundation extents from Castillo et.al. (under review) as indexes. All indices (as raster maps of inundation extent) are sorted... |
ZIP Archive - 783.0 KB -
MD5: 1200a0ae831ca4b35ff44947f67dcfd7
Raster maps representing soil type is derived from polygon geometries that represent patches from the Ecological Modeling Systems of Texas (Elliott et.al. 2014). Each patch is assigned a soil type classification are based on the EcoName fields within this dataset, respectively. O... |
ZIP Archive - 1.6 MB -
MD5: 1e6f76fdf7012966cc702c301b3e04eb
Raster map representing vegetation community is derived from polygon geometries that represent patches from the Ecological Modeling Systems of Texas (Elliott et.al. 2014). Each patch is assigned a vegetation community classification is based on the CommonName fields within this d... |
