Virginia Beach city-owned property designated to be under the management of the Parks & Recreation Department. This layer includes all the city's parks, facility properties, open spaces, golf courses, etc. The layer includes the park name and site ID, the park type, the address, and site area. For more information on Virginia Beach Parks & Recreation Department parks, programs, and services, please visit the official website.This is the View layer used by both internal and external users.

Attachment regarding a Legislative public hearing for a request by Vickers Bennett Group, LLC to amend the language in the Subdivision Regulations, Section 7.7, to add MU-CD-CR.

Attachment regarding a Legislative public hearing for a request by Vickers Bennett Group, LLC to amend the language in the Zoning Ordinance, Sections 5.2, 7.2, 10.12 to accommodate language for Conditional District Mixed Use Cluster Residential (CD-MU-CR).

High spatial resolution topographic data is essential in assisting volcanic field work, for volcano morphology analyses, and for hazard modeling of volcanic flow processes. The stereoscopic capability of ASTER data provides the opportunity to derive DEMs at a spatial resolution of 15m for the many regions lacking accurate topographic maps. For visualization, a three dimensional model DEM of the geothermal field with the directional wells and other geographical phenomena were incorporated into the GIS program. The three dimensional model viewers were used with directional geothermal well featuring in the Greater Olkaria geothermal field. The three dimensional modeling of geothermal wells was done using the deviation surveys data by linear referencing. The tool was developed in an Excel-based program developed using a Visual Basic for Application (VBA) procedures (macros) which is the Excel visual Basic Editor (VBE). Geographic Information System (GIS) technology was used to model geothermal well directional survey data. This aids in visualizations suggesting inter-relationships between well bore productivity. By running the data through a model in ArcGIS, 3D maps can be created showing where well bores corkscrew their way down through the earths crust. This phenomenon is difficult to see on a two-dimensional map or cross-sectional view. The 3D map is more intuitive to the KenGen team in exploration and production who are accustomed to thinking in three dimensions. This model is of interest to potential drillers because it shows the way through which a well bore goes down. With respect to this model, geological rock units can be incorporated in the model to show the rock unit penetrated by a particular geothermal well bore.

Attachment regarding a Legislative public hearing for a request by Vickers Bennett Group, LLC to amend the language in the Subdivision Regulations, Section 7.7, to add MU-CD-CR.

Attachment regarding a Legislative public hearing for a request by Vickers Bennett Group, LLC to amend the language in the Zoning Ordinance, Sections 5.2, 7.2, 10.12 to accommodate language for Conditional District Mixed Use Cluster Residential (CD-MU-CR).

Coğrafi bilgi sistemi CBS Dünya üzerindeki karmaşık sosyal ekonomik çevresel vb sorunların çözümüne yönelik mekana konum

Geomorphology maps characterize aquatic reaches (approximately 1,000 meters in stream length) within wadeable streams at NEON aquatic sites. Raw survey data is collected with high-resolution total station survey equipment at each NEON wadeable stream site. Survey maps and channel metrics are produced and calculated using raw survey data geo-referenced to a global coordinate system. Geomorphology surveys are conducted at each site once every five years or immediately following a storm event deemed to have significantly altered stream morphology within the aquatic reach. Geomorphology surveys conducted immediately after a stochastic event will assess event magnitude by quantifying changes in channel geometry, bed composition, and biological habitat.Download these data from the NEON data portal.

Linked between DPU Hansen Database and DPW Paving Schedule based on Compkey and Code values.

Geomorphology maps characterize aquatic reaches (approximately 1,000 meters in stream length) within wadeable streams at NEON aquatic sites. Raw survey data is collected with high-resolution total station survey equipment at each NEON wadeable stream site. Survey maps and channel metrics are produced and calculated using raw survey data geo-referenced to a global coordinate system. Geomorphology surveys are conducted at each site once every five years or immediately following a storm event deemed to have significantly altered stream morphology within the aquatic reach. Geomorphology surveys conducted immediately after a stochastic event will assess event magnitude by quantifying changes in channel geometry, bed composition, and biological habitat.Download these data from the NEON data portal.

Geomorphology maps characterize aquatic reaches (approximately 1,000 meters in stream length) within wadeable streams at NEON aquatic sites. Raw survey data is collected with high-resolution total station survey equipment at each NEON wadeable stream site. Survey maps and channel metrics are produced and calculated using raw survey data geo-referenced to a global coordinate system. Geomorphology surveys are conducted at each site once every five years or immediately following a storm event deemed to have significantly altered stream morphology within the aquatic reach. Geomorphology surveys conducted immediately after a stochastic event will assess event magnitude by quantifying changes in channel geometry, bed composition, and biological habitat.Download these data from the NEON data portal.

D04CUPE_geomorph_transects_20170810

Geomorphology maps characterize aquatic reaches (approximately 1,000 meters in stream length) within wadeable streams at NEON aquatic sites. Raw survey data is collected with high-resolution total station survey equipment at each NEON wadeable stream site. Survey maps and channel metrics are produced and calculated using raw survey data geo-referenced to a global coordinate system. Geomorphology surveys are conducted at each site once every five years or immediately following a storm event deemed to have significantly altered stream morphology within the aquatic reach. Geomorphology surveys conducted immediately after a stochastic event will assess event magnitude by quantifying changes in channel geometry, bed composition, and biological habitat.Download these data from the NEON data portal.

Geomorphology maps characterize aquatic reaches (approximately 1,000 meters in stream length) within wadeable streams at NEON aquatic sites. Raw survey data is collected with high-resolution total station survey equipment at each NEON wadeable stream site. Survey maps and channel metrics are produced and calculated using raw survey data geo-referenced to a global coordinate system. Geomorphology surveys are conducted at each site once every five years or immediately following a storm event deemed to have significantly altered stream morphology within the aquatic reach. Geomorphology surveys conducted immediately after a stochastic event will assess event magnitude by quantifying changes in channel geometry, bed composition, and biological habitat.Download these data from the NEON data portal.

D04GUIL_geomorph_geomorphicFeaturePoints_20170825

Geomorphology maps characterize aquatic reaches (approximately 1,000 meters in stream length) within wadeable streams at NEON aquatic sites. Raw survey data is collected with high-resolution total station survey equipment at each NEON wadeable stream site. Survey maps and channel metrics are produced and calculated using raw survey data geo-referenced to a global coordinate system. Geomorphology surveys are conducted at each site once every five years or immediately following a storm event deemed to have significantly altered stream morphology within the aquatic reach. Geomorphology surveys conducted immediately after a stochastic event will assess event magnitude by quantifying changes in channel geometry, bed composition, and biological habitat.Download these data from the NEON data portal.

D04CUPE_geomorph_thalweg_20170810

D04GUIL_geomorph_transects_20170825

El mapa Los climas del mundo y de España es una composición cartográfica formada por los siguientes elementos:Mapa base: mapa topográfico de ArcGIS Online.Las capas que forman parte de este mapa son:Corrientes fríasCorrientes cálidasClimas de EspañaClimogramasPrincipales meridianos y paralelos:http://services.arcgis.com/BG6nSlhZSAWtExvp/arcgis/rest/services/geogrid/FeatureServer/0Climas del mundoTemperatura media anual:http://tiles.arcgis.com/tiles/P8Cok4qAP1sTVE59/arcgis/rest/services/Annual_Temp/MapServerPrecipitación total anual:http://tiles.arcgis.com/tiles/P8Cok4qAP1sTVE59/arcgis/rest/services/TotalAnnualPrecipitation/MapServerTopographic:http://services.arcgisonline.com/ArcGIS/rest/services/World_Topo_Map/MapServerSistema de referencia: WGS84 Web MercatorPendiente de redacción definitiva

The Wildlife Connectivity Map has been created using Omniscape.jl:Landau, V.A., V.B. Shah, R. Anantharaman, and K.R. Hall. 2021. Omniscape.jl: Software to compute omnidirectional landscape connectivity. Journal of Open Source Software, 6(57), 2829.McRae, B. H., K. Popper, A. Jones, M. Schindel, S. Buttrick, K. R. Hall, R. S. Unnasch, and J. Platt. 2016. Conserving Nature’s Stage: Mapping Omnidirectional Connectivity for Resilient Terrestrial Landscapes in the Pacific Northwest. The Nature Conservancy, Portland, Oregon.Input data into the model includes:Habitat Land Cover Map of Scotland 2022: Available under the Open Government Licence v3.0 https://www.nationalarchives.gov.uk/doc/open-government-licence/version/3/ Maps and data created by Space Intelligence with input and support from NatureScot , © SNHOS OpenRoads: Available under the Open Government Licence v3.0 https://www.nationalarchives.gov.uk/doc/open-government-licence/version/3/OS Open Rivers: Available under the Open Government Licence v3.0 https://www.nationalarchives.gov.uk/doc/open-government-licence/version/3/OS Terrain 50: Available under the Open Government Licence v3.0 https://www.nationalarchives.gov.uk/doc/open-government-licence/version/3/Resistance and habitat values have chosen using expert Ecologists within AECOM