Saudi Arabia water data from Food and Agricultural Organization of the United Nationshttp://www.fao.org/nr/water/aquastat/data/queryThere are too many variables in this dataset. So we have split this dataset into three files namely Demand Water Data, Supply Ground Water Data, Supply Surface Water Data.Citation: "AQUASTAT Database". Fao.org. Web. 10 Mar. 2016

Texas Department of Licensing and Regulation's (TDLR) Submitted Driller's Report Database. This database contains water well reports submitted to TDLR from February 2001 to present.

Water Data Online provides free access to nationally consistent, current and historical water information. It allows you to view and download standardised data and reports.

Watercourse level and watercourse discharge time series data from approximately 3500 water monitoring stations across Australia are available.

Water Data Online displays time series data supplied by lead water agencies from each State and Territory with updates provided to the Bureau on a daily basis.

Over time, more stations and parameters will become available and linkages to Water Data Online from the Geofabric will be implemented.

Before using data please refer to licence preferences of the supplying organisations under the Copyright tab

The USGS compiles online access to water-resources data collected at approximately 1.5 million sites in all 50 States, the District of Columbia, Puerto Rico, the Virgin Islands, Guam, American Samoa and the Commonwealth of the Northern Mariana Islands.

The National Ocean Service's (NOS) Center for Operational Oceanographic Products and Services (CO-OPS), found in the A-16 National Geospatial Data Asset Portfolio, contains the locations of present and historical stations around the U.S. and its territories that record oceanographic and meteorological observations. The layers served are datums, published benchmarks, benchmarks, sea level trends, water level constituents, extreme water levels, currents predictions, and water level predictions. Please refer to the specific layer description for more information or visit the Center for Operational Oceanographic Products and Services. The raw data has not been subjected to the National Ocean Service's quality control or quality assurance procedures and does not meet the criteria and standards of official NOS data. The data is released for limited public use as preliminary data to be used only with appropriate caution.Questions/Concerns about the service, please contact the IDP-GIS team.Thumbnail image courtesy of: Mark Goebel

The Global Groundwater Information System (GGIS) is an interactive, web-based portal to groundwater-related information and knowledge. The GGIS consists of several modules structured around various themes. Each module has its own map-based viewer with underlying database to allow storing and visualizing geospatial data in a systematic way. Data sets include global data on transboundary aquifers, global groundwater data by aquifer, and country disaggregation, global groundwater stress (based on GRACE data), global groundwater quality data. There is also specific regional/national data focusing on the following aquifers: Dinaric Karst (Balkans), Ramotswa and Stampriet aquifers (Southern Africa), Esquipulas-Ocotepeque-Citala (Central Amerca), Pretashkent Aquifer (Central Asia). It also provides access to SADC Groundwater Information Portal, and groundwater on Small Island States

This website lets water users statewide take an up-close look at the 2022 State Water Plan data and how water needs change over time by showing: projected water demands, existing water supplies, the relative severity and projected water needs (potential shortages), the water management strategies recommended to address potential shortages, and recommended capital projects and their sponsors. Development of the state water plan is central to the mission of the Texas Water Development Board. Based on 16 regional water plans, the plan addresses the needs of all water user groups in the state – municipal, irrigation, manufacturing, livestock, mining, and steam-electric power – during a repeat of the drought of record. The regional and state water plans consider a 50-year planning horizon. Contact Email: InteractiveSWP@twdb.texas.gov

The data in this interactive dashboard supports the 6th regional water planning cycle. Population projections utilize the Texas Demographic Center's 2022 county-level population projections and Regional Water Planning Groups (RWPGs) have reviewed and provided input on the utility and county-level population projections. Municipal water demand projections are a function of the population projections, baseline Gallons per Capita per Day (GPCD), and projected plumbing code savings. These projections were adopted by the Board on November 9, 2023. Historical data was developed using the TWDB's Water Use Survey and the U.S. Census Bureau county-level population estimates and counts.

Water Data Online provides free access to nationally consistent, current and historical water data (and related information) that is collected by the Bureau of Meteorology under the Water Regulations (2008). It allows users to view and download standardised data and reports.

Watercourse level and discharge (Water Regulations, Category 1) time series data collected from approximately 3500 measurement stations across Australia is currently available on Water Data Online. This data has generally been supplied by lead water agencies.

The Bureau will continue to work to expand the number of water information categories and water monitoring stations presented. For more information refer to the Water Data Online information sheet

The time period over which data is available varies according to how long the stations have been operating. The period of record for some locations starts in the late 19th century. Water Data Online does not display near real time, or flood data. Water Data Online also contains historical data from some stations that are no longer being operated. Such data can provide valuable insight into environmental changes and help build a more comprehensive national picture of our water resources.

The Surface Water Data Viewer (SWDV) is a Wisconsin DNR data delivery system that provides interactive web mapping tools for a wide variety of datasets including chemistry (water, sediment), physical, and biological (macroinvertebrate and fish) data.

Drinking-water quality and potential exposures to per- and poly-fluoroalkyl substances (PFAS) at the point-of-use (tapwater) are a rising concern in the United States (US). To understand potential exposures to PFAS at the point-of-use, 716 locations (269 private-well; 447 public supply) were sampled across the US between 2016 and 2021. Results from this national reconnaissance, including data on potential PFAS sources, are compiled and displayed in this interactive dashboard.

The Groundwater Conservation Districts (GCD) interactive online map allows users to view GCD boundaries within the State of Texas. This web map application displays the Texas Commission on Environmental Quality (TCEQ) Priority Groundwater Management Area (PGMA), an area designated and delineated by the TCEQ that is experiencing or is expected to experience, within the immediately following 50-year period, critical groundwater problems including shortages of surface water or groundwater, land subsidence resulting from groundwater withdrawal, and contamination of groundwater supplies.

The Surface Water Data Viewer (SWDV) is a DNR data delivery system that provides interactive web mapping tools for a wide variety of datasets including chemistry (water, sediment), physical and biological (macro-invertebrate, fish) data.Contact information for help with the Surface Water Data Viewer, email:DNRSWDV@wisconsin.gov

The Water Data Explorer was developed by the British Geological Survey in collaboration with Imperial College London, The University of Oxford and UCL as part of the CAMELLIA project, and in partnership with a broad range of stakeholders. CAMELLIA has been funded by the UKRI's Natural Environment Research Council. The Water Data Explorer Hub Site is a website which brings together spatial visualisation maps and interactive applications about London’s water environment. As part of the CAMELLIA project this site brings together many of the applications prepared by the CAMELLIA project team and other stakeholders in the following themes: Water Resources, Water Quality, Flooding, Green Infrastructure and SuDS, Socio-Economic Data and Citizen Science.

The U.S. Geological Survey in cooperation with the Harris‐Galveston Subsidence District, City of Houston, Fort Bend Subsidence District, and Lone Star Groundwater Conservation District has produced this dataset of water‐level altitudes and water‐level changes in the Chicot, Evangeline, and Jasper aquifers in the Houston‐Galveston region, Texas.This dataset shows current‐year (2015-2016) water‐level altitudes for each aquifer, 5‐year (2011‐16) water‐level changes for each aquifer, long‐term (1990‐2016 and 1977‐2016) water‐level changes for the Chicot and Evangeline aquifers, and long‐term (2000‐2016) water‐level change for the Jasper aquifer. For the 1‐year (2015-16) water‐level changes, data were computed as the difference in water‐level altitude at each point (well) for which a water‐level measurement was made in 2015 and 2016. Five‐year (2011‐16) water‐level changes were computed the same as for the 1‐year water-level changes; the difference in water‐level altitude at each point for which a water‐level measurement was made in 2011 and 2016. The water‐level measurements in the dataset are built upon and stored in the National Water Information System: Web Interface, groundwater information, field measurements website located here: http://dx.doi.org/10.5066/F7P55KJN This site is a publicly available, searchable, online database of water information.

This e-book is a quick primer on earth observation of water resources and has been developed jointly by the World Bank and NASA. It provides a basic introduction to hydrologic processes and the types of in-situ and earth observation monitoring approaches to gain a global perspective to help address problems in the real world such as floods, droughts, cyclones, and forecasting for agriculture and water-related disease management applications. It provides a primer for accessing useful NASA data, modeling tools, related interactive viewers and useful links in this regard, that showcase interactive maps to visualize precipitation and even groundwater data and trends and near-real time flood potential from space. This e-book provides an illustrative overview of the use of increasingly powerful free data from satellites that can be critical for monitoring and managing watersheds and aquifers around the world.

An interactive map of data maintained by the NM Bureau of Geology. Displays geographic, geologic, water, energy, mineral, and recreational resources.

The Water Quality Portal (WQP) is a cooperative service sponsored by the United States Geological Survey (USGS), the Environmental Protection Agency (EPA), and the National Water Quality Monitoring Council (NWQMC). It serves data collected by over 400 state, federal, tribal, and local agencies. Water quality data can be downloaded in Excel, CSV, TSV, and KML formats. Fourteen site types are found in the WQP: aggregate groundwater use, aggregate surface water use, atmosphere, estuary, facility, glacier, lake, land, ocean, spring, stream, subsurface, well, and wetland. Water quality characteristic groups include physical conditions, chemical and bacteriological water analyses, chemical analyses of fish tissue, taxon abundance data, toxicity data, habitat assessment scores, and biological index scores, among others. Within these groups, thousands of water quality variables registered in the EPA Substance Registry Service (https://iaspub.epa.gov/sor_internet/registry/substreg/home/overview/home.do) and the Integrated Taxonomic Information System (https://www.itis.gov/) are represented. Across all site types, physical characteristics (e.g., temperature and water level) are the most common water quality result type in the system. The Water Quality Exchange data model (WQX; http://www.exchangenetwork.net/data-exchange/wqx/), initially developed by the Environmental Information Exchange Network, was adapted by EPA to support submission of water quality records to the EPA STORET Data Warehouse [USEPA, 2016], and has subsequently become the standard data model for the WQP. Contributing organizations:

ACWI

The Advisory Committee on Water Information (ACWI) represents the interests of water information users and professionals in advising the federal government on federal water information programs and their effectiveness in meeting the nation's water information needs.

ARS

The Agricultural Research Service (ARS) is the U.S. Department of Agriculture's chief in-house scientific research agency, whose job is finding solutions to agricultural problems that affect Americans every day, from field to table. ARS conducts research to develop and transfer solutions to agricultural problems of high national priority and provide information access and dissemination to, among other topics, enhance the natural resource base and the environment. Water quality data from STEWARDS, the primary database for the USDA/ARS Conservation Effects Assessment Project (CEAP) are ingested into WQP via a web service.

EPA

The Environmental Protection Agency (EPA) gathers and distributes water quality monitoring data collected by states, tribes, watershed groups, other federal agencies, volunteer groups, and universities through the Water Quality Exchange framework in the STORET Warehouse.

NWQMC

The National Water Quality Monitoring Council (NWQMC) provides a national forum for coordination of comparable and scientifically defensible methods and strategies to improve water quality monitoring, assessment, and reporting. It also promotes partnerships to foster collaboration, advance the science, and improve management within all elements of the water quality monitoring community.

USGS

The United States Geological Survey (USGS) investigates the occurrence, quantity, quality, distribution, and movement of surface waters and ground waters and disseminates the data to the public, state, and local governments, public and private utilities, and other federal agencies involved with managing the United States' water resources. Resources in this dataset:Resource Title: Website Pointer for Water Quality Portal. File Name: Web Page, url: https://www.waterqualitydata.us/ The Water Quality Portal (WQP) is a cooperative service sponsored by the United States Geological Survey (USGS), the Environmental Protection Agency (EPA), and the National Water Quality Monitoring Council (NWQMC). It serves data collected by over 400 state, federal, tribal, and local agencies. Links to Download Data, User Guide, Contributing Organizations, National coverage by state.

River Reach Habitat Quality (RFC 2008)

This layer was digitized in 2015 for the HRS Board using data from the 2008 State of the Watershed Report. This layer shows the quality of habitat surveyed by Delia Malone on selected reaches in the Roaring Fork Watershed. This data is intended as a reference for future research and planning, site specific conditions may vary. Strahler Steam Order numbers are also given for each river reach.

River Watch Sites

This layer was digitized in 2015 for the HRS Board using data from the Roaring Fork Conservancy. The layer shows River Watch sites where the RFC and partner organizations monitor stream health indicators. Active sites are marked with an “x” in the popup. To access the data please visit http://cpw.state.co.us/aboutus/Pages/RW-DataSheets.aspx and search for the river and monitoring site of interest. For more information about the program and additional summery data please contact the RFC www.roaringfork.org

Surface Water Realtime (USGS, CDSS)

This layer shows realtime telemetry gauges maintained by the United States Geological Survey and the Colorado Decision Support System. Click on the icon and then click on “more info” to link to the gauge website. This layer can be used to monitor stream flows and diversion tunnel flows (cfs). Please see the USGS and CDSS websites for more information.

Parcel Boundary (Pitkin County GIS 2015)

This layer identifies property boundaries in Pitkin County. The Parcel geometry is created by reading legal descriptions through Plats, Surveys, Deeds, and CAD drawing files. Approximately 15% of land in Pitkin County is privately held, which is represented in this layer. Federal lands are shown in the Forest Lands layer. Please see http://www.pitkincounty.com/458/GIS-Mapping for more information.

Recreation Easement (Pitkin County GIS 2015)

This layer contains recreation easements throughout Pitkin County with attributes that include the easement type, common name and establishment information. Please see http://www.pitkincounty.com/458/GIS-Mapping or Pitkin County Open Spaces and Trails for more information.

Federal Land Boundary (Pitkin County GIS 2015)The parcel layer and Forest (or Federal Land) layer are independently maintained layers. The Forest layer included lands owned by U.S. Forest Service (USFS), Bureau of Land Management (BLM), and the State of Colorado (State of CO). Approximately 85% of the land area in Pitkin County is Federal Land. Please see http://www.pitkincounty.com/458/GIS-Mapping for more information.SNOTEL Sites From NRCSThese files are updated daily around 7:30 am and 12:30 Pacific Time with midnight summaries of the previous day's data. The symbols are color-coded by the current snow water equivalent as a percent of the 1981-2010 normal on this date. Clicking on a symbol will reveal additional information, including a photo of the site, more real-time data, and links to charts and additional reports. Please visit http://www.wcc.nrcs.usda.gov/snotel/ for more information.

New York State registered water well drillers are required to submit completion reports documenting where wells have been drilled, the specifications of those wells, and any subsequent work performed on those wells. Data regarding water wells has been collected since April 2000 as required by ECL 15-1525. Completion reports for the wells are added as they become available. Historical wells are added as the wells are mapped. Well locations are generally accurate to the parcel scale but may not represent the exact location on the property.Service layer is updated annually, and last updated 02/18/2025.For more information see https://dec.ny.gov/environmental-protection/water/water-quantity/water-well-contractor-program1. The NYS DEC asks to be credited in derived products.2. Secondary Distribution of the data is not allowed.3. Any documentation provided is an integral part of the data set. Failure to use the documentation in conjunction with the digital data constitutes misuse of the data.4. Although every effort has been made to ensure the accuracy of information, errors may be reflected in the data supplied. The user must be aware of data conditions and bear responsibility for the appropriate use of the information with respect to possible errors, original map scale, collection methodology, currency of data, and other conditions.