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#Portal 1 map names install#
For this reason the database cannot be used for site-specific geologic evaluations, although it can be used to plan and guide investigations at the site-specific level.Raster Analytics (Tasks) Add Image Aggregate Multidimensional Raster Analyze Change Using CCDC Analyze Changes Using LandTrendr Build Multidimensional Transpose Calculate Density Calculate Distance Calculate Travel Cost Classify Classify Objects Using Deep Learning Classify Pixels Using Deep Learning Compute Accuracy For Object Detection Compute Change Raster Convert Feature to Raster Convert Raster Function Template Convert Raster to Feature Copy Raster Cost Path As Polyline Create Image Collection Create Viewshed Delete Image Delete Image Collection Detect Change Using Change Analysis Raster Detect Objects Using Deep Learning Determine Optimum Travel Cost Network Determine Travel Cost Path as Polyline Determine Travel Cost Paths to Destinations Distance Accumulation Distance Allocation Download Raster Export Training Data For Deep Learning Fill Find Argument Statistics Flow Accumulation Flow Direction Flow Distance Generate Multidimensional Anomaly Generate Raster Generate Trend Raster Install Deep Learning Model Interpolate Points Linear Spectral Unmixing List Deep Learning Models Manage Multidimensional Raster Merge Multidimensional Rasters Nibble Optimal Path As Line Optimal Path As Raster Optimal Region Connections Predict Using Trend Raster Publish Deep Learning Model Query Deep Learning Model Info Sample Segment Stream Link Subset Multidimensional Raster Summarize Raster Within Train Classifier Train Deep Learning Model Uninstall Deep Learning Model Watershed Zonal Statistics As Table However, no single feature class has enough information to definitively characterize its properties and origin. The term "generalpurpose" means that all geologic-feature classes have minimal information content adequate to characterize their general geologic characteristics and to interpret their general geologic history. Geologic information contained in the Yucaipa database is general-purpose data that is applicable to land-related investigations in the earth and biological sciences. These materials and the structures that deform them provide the geologic framework for investigations of geologic hazards and ground-water recharge and subsurface flow. Stratigraphic and structural elements include: (1) strands of the San Andreas Fault that bound far-traveled terranes of crystalline and sedimentary rock (2) Mesozoic crystalline rocks that form lower and upper plates of the regionwide Vincent-Orocopia Thrust system and (3) late Tertiary and Quaternary sedimentary materials and geologic structures that formed during the last million years or so and that record complex geologic interactions within the San Andreas Fault system.
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The Yucaipa 7.5' quadrangle contains materials and structures that provide unique insight into the Mesozoic and Cenozoic geologic evolution of southern California. The database and map provide information about earth materials and geologic structures, including faults and folds that have developed in the quadrangle due to complexities in the San Andreas Fault system. The database was developed as a contribution to the National Cooperative Geologic Mapping Program's National Geologic Map Database, and is intended to provide a general geologic setting of the Yucaipa quadrangle. Geological Survey and the California Geological Survey.
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This geologic database of the Yucaipa 7.5' quadrangle was prepared by the Southern California Areal Mapping Project (SCAMP), a regional geologic-mapping project sponsored jointly by the U.S.