The geologic map database in this data release is a reproduction of the U.S. Geological Survey Professional Paper 1762: Volcanic Processes and Geology of Augustine Volcano, Alaska, Waitt and Begét (2009). The database consists of a geologic map and one structural cross section that conform to the National Geologic Map Schema (GeMS). These data supersede USGS Data Series 677: Database for Volcanic Processes and Geology of Augustine Volcano, Alaska, McIntire and others, 2012. Augustine Island (volcano) in lower Cook Inlet, Alaska, has erupted repeatedly in late-Holocene and historical times. Eruptions typically beget high-energy volcanic processes. Most notable are bouldery debris avalanches containing immense angular clasts shed from summit domes. Coarse deposits of these avalanches form much of Augustine's lower flanks. This geologic map, at 1:25,000, show the distribution and relations of volcanic units at Augustine Volcano. This database does not reproduce all elements of the original publication. Omissions include the chart and figures showing the measured sections on Augustine Island and Shuyak Island, Alaska, and the chart and diagram for the correlation of map units. Versions of these data are provided in open-access formats that are compatible with a broad range of geospatial applications. The open-access data is derived from the file geodatabase using a python script downloadable at https://github.com/doi-usgs/gems-tools-pro. Vector data are provided as shapefiles and tabular data are provided in .txt and .csv formats. Any shapefiles derived from the geodatabase may have prefixes of GM_[filename] and CS_[filename] indicating features are part of the geologic map or a structural cross section, respectively. Attribute table field names may be automatically abbreviated or shortened to 10 characters to conform with the shapefile format. The annotation feature class (a native format of the Esri file geodatabase) for the structural cross section is omitted because there is no equivalent open file type. Symbology layer files (*.lyrx) are provided for symbolizing the map using the intended symbols, lines, fills and patterns and a copy of the database. We recommend Esri software users set the display reference scale between 1:10,000 and 1:24,000 for optimal display of symbology, and enable the Maplex labeling engine for optimal display of labels. Users of this database are highly encouraged to cross reference this database with the original publication.

These data are used to display the public recreational facilities at all Colorado Parks and Wildlife owned properties. The original intent of these data were to show facilities at a park level scale. Over time, this has evolved to be a more comprehensive collection of all recreation facilities - as GIS technology has advanced to allow improved labelling / display of features. Data is being compiled at CPW Area offices in consultation with local Property Technicians and Field Ops staff using high resolution aerial photography (NAIP05, NAIP09) as a reference and at a scale where structures could be visually identified by Chris Johnson. These data were originally combined from individual park shapefiles in 2010 by Bill Gaertner, under the direction of Matt Schulz, Parks GIS Coordinator. Since then, Eric Drummond, temp Trails GIS Specialist, vastly improved upon the ability to use a unique CPW font and the Maplex label engine to have dynamic labelling of standard recreation facility symbols.

In 2013, the Esri Hydro Team worked with Cartographer Wes Jones to make improvements to the design of the World Hydro Basemap, resulting in a cleaner and more polished basemap that is also updated with the NHDPlusV2 data! The new map can be found in the same location as the old one, on AGOL.The basemap redesign included updating data, feature generalization, labeling updates, new symbology, added contextual information, and adjusting the feature density.Rivers and lakes in the small scales were generalized, resulting in smoother, more polished lines.We used a new font for river labels, and adjusted the Maplex label settings allowing for better label placement and denser labeling on the map. The river and lake colors were revised, rivers were layered under lakes. The result is more defined lake edges, allowing them to stand out. Also, we generalized the lakes at more scales, smoothing the lake edges making small lakes easier to see. The wetland/swamp symbology was also revised, achieving a cleaner and more legible map. In addition, the administrative boundary symbology was improved, and we removed roads and road labels, which allows the map reader to focus on the drainage pattern instead of a web of linear content. The new administrative boundaries fall into the background, and allow the streams and lakes to get pushed to the foreground.The reason we had the roads in the map in the first place was to provide context to the map reader. When we removed the roads, we had to bring back some of that context, so we added physiographic features to the map. Now, you will find labels on mountain ranges, national and state forests, and other physiographic features. City symbology was revised to show the extent of the city, also adding more context to the map.

Fatturato per gli ultimi anni, elenco utili/perdita, costo dipendenti, soci esponenti e contatti per MAPLEX S.R.L. in San Gillio (TO)

Fatturato per gli ultimi anni, elenco utili/perdita, costo dipendenti, soci esponenti e contatti per MAPLEX S.R.L. in MILANO (MI)

Fatturato per gli ultimi anni, elenco utili/perdita, costo dipendenti, soci esponenti e contatti per MAGLIFICIO MAPLEX DI PIERRI MASSIMO in UGENTO (LE)