The AQUASTAT portal enables users to access the core database of country statistics, focused on water resources, water uses and agricultural water management. Along with it, other water information in the form of complementary databases, such as the irrigated crop calendars and the sub-national irrigation areas databases, the detailed database on dams and reservoirs and the water-and agriculture-related institutions database are available. The glossary is also an important component of AQUASTAT, offering multilingual definitions of 500+ water-related terms and key indicators, including detailed reference sources and links to related terms.
This is benchmark model for wastewater treatment using an activated sludge process. The activated sludge process is a means of treating both municipal and industrial wastewater. The activated sludge process is a multi-chamber reactor unit that uses highly concentrated microorganisms to degrade organics and remove nutrients from wastewater, producing quality effluent. This model provides pollutant concentrations, mass balance, electricity requirements, and treatment costs. This model will be continuously updated based on the latest data.
SARS-CoV-2 RNA (N1 and N2 genes) and PMMoV RNA concentrations in primary effluent from the ARA Werdhölzli were determined for the period of September 2020-January 2021. COVID-19 cases in the catchment area are also reported for comparison of RNA concentrations to clinical case data. Data are included in an analysis of COVID-19 disease trajectory overtime.
The City Water Map (CWM), version 2.2, contains information on the water sources for cities internationally. For surface or alluvial groundwater sources, the upstream contributing area is defined. To ease use of the database, information on the spatial locations of the cities shown is also provided. For some cities, information is also available on how wastewater is treated and released, although this part of the database has not been fully developed. The CWM was used as part of a SNAPP working group on Latin America water security. It was also used as part of the Urban Water Blueprint analysis.
This data was collected in June 2019 from 799 residents aged 18+ in the Greater Melbourne Region to capture and monitor: -Community perceptions and concerns about water in Melbourne-Awareness and attitudes toward water sources-Attitude towards water conservation and restrictions-Water literacy in the community-Perceptions of Melbourne Water’s brand and industry performance-Exposure to flood and understanding of flood management and responsible authorities.NOTE: Whilst every effort has been taken in collecting, validating and providing the attached data, Melbourne Water Corporation makes no representations or guarantees as to the accuracy or completeness of this data. Any person or group that uses this data does so at its own risk and should make their own assessment and investigations as to the suitability and/or application of the data. Melbourne Water Corporation shall not be liable in any way to any person or group for loss of any kind including damages, costs, interest, loss of profits or special loss or damage, arising from any use, error, inaccuracy, incompleteness or other defect in this data.
This is the dataset for the research article "A Risk-Based Evaluation of Onsite, Non-Potable Reuse Systems Developed in Compliance with Conventional Water Quality Measures". It compiles the risk results for various reuse configurations and treatment levels that are described in the text. This dataset is associated with the following publication: Schoen, M., M. Jahne, and J. Garland. A Risk-Based Evaluation of Onsite, Non-Potable Reuse Systems Developed in Compliance with Conventional Water Quality Measures. JOURNAL OF WATER AND HEALTH. IWA Publishing, London, UK, 18(3): 331-334, (2020).
This package contains the data and code necessary to run the experiments for our paper "The Value of Human Data Annotation for Machine Learning1based Anomaly Detection in Environmental Systems".
Wastewater treatment plants (WWTPs) are implicated as hotspots for the dissemination of antibacterial resistance into the environment. However, the in situ processes governing removal, persistence, and evolution of resistance genes during wastewater treatment remain poorly understood. Here, we used quantitative metagenomic and metatranscriptomic approaches to achieve a broad-spectrum view of the flow and expression of genes related to antibacterial resistance to over 20 classes of antibiotics, 65 biocides, and 22 metals. All compartments of 12 WWTPs share persistent resistance genes with detectable transcriptional activities that were comparatively higher in the secondary effluent, where mobility genes also show higher relative abundance and expression ratios. The richness and abundance of resistance genes vary greatly across metagenomes from different treatment compartments, and their relative and absolute abundances correlate with bacterial community composition and biomass concentration. No strong drivers of resistome composition could be identified among the chemical stressors analyzed, although the sub-inhibitory concentration (hundreds of ng/L) of macrolide antibiotics in wastewater correlates with macrolide and vancomycin resistance genes. Contig-based analysis shows considerable co-localization between resistance and mobility genes and implies a history of substantial horizontal resistance transfer involving human bacterial pathogens. Based on these findings, we propose future inclusion of mobility incidence (M%) and host pathogenicity of antibiotic resistance genes in their quantitative health risk ranking models with an ultimate goal to assess the biological significance of wastewater resistomes with regard to disease control in humans or domestic livestock.
Spatially explicit global database, termed HydroWASTE, containing 58 502 WWTPs and their characteristics.
Somatic coliphages are alternative indicators of fecal pollution and are attractive surrogate for viral pathogens. Here we report the draft genome sequences of three replicate plaques from a novel myoviridae bacteriophage isolated from raw wastewater. Genomes were similar to felix01virus phage and are predicted to contain up to 159 protein coding genes. This dataset is associated with the following publication: Keely, S., M. Herrmann, A. Korajkic, N. Brinkman, B. McMinn, S. Fout, and E. Villegas. Genome Sequences of Escherichia Bacteriophages Isolated from Raw Wastewater. Microbiology Resource Announcements. American Society for Microbiology, Washington, DC, USA, 8(26): e00135-19, (2019).
Eastern Treatment Plant (ETP) is a wastewater treatment facility. Non-potable water, known as 4W, is generated and used onsite. This layer contains the 4W Effluent pipeline centrelines and associated details. Includes sewer name, description, asset section (for As Constructed drawings) and key attributes. This layer supports Melbourne Water to communicate high level data in regards to the existence and indicative location of assets within its responsibility to ensure they are protected throughout the assets life.This layer is updated when new information is received from completed projects and updated from certified survey plans. NOTE: Whilst every effort has been taken in collecting, validating and providing the attached data, Melbourne Water Corporation makes no representations or guarantees as to the accuracy or completeness of this data. Any person or group that uses this data does so at its own risk and should make their own assessment and investigations as to the suitability and/or application of the data. Melbourne Water Corporation shall not be liable in any way to any person or group for loss of any kind including damages, costs, interest, loss of profits or special loss or damage, arising from any use, error, inaccuracy, incompleteness or other defect in this data.
Eastern Treatment Plant is a wastewater treatment facility. This layer contains the Eastern Treatment Plant Digester Sludge pipeline centre lines and associated details. Includes sewer name, description, asset section (for As Constructed drawings) and key attributes. This layer supports Melbourne Water to communicate the existence and indicative location of sewer assets within its responsibility; to ensure they are protected throughout asset life. This layer is intended to be used for asset management, buildover (Dial-Before-You-Dig) and operational / maintenance purposes. This layer is updated when new information is received from completed projects and updated from certified survey plans.NOTE: Whilst every effort has been taken in collecting, validating and providing the attached data, Melbourne Water Corporation makes no representations or guarantees as to the accuracy or completeness of this data. Any person or group that uses this data does so at its own risk and should make their own assessment and investigations as to the suitability and/or application of the data. Melbourne Water Corporation shall not be liable in any way to any person or group for loss of any kind including damages, costs, interest, loss of profits or special loss or damage, arising from any use, error, inaccuracy, incompleteness or other defect in this data.
Eastern Treatment Plant (ETP) is a wastewater treatment facility. This layer contains the ETP supernatant pipeline centrelines and associated details. Includes sewer name, description, asset section (for As Constructed drawings) and key attributes. This layer supports Melbourne Water to communicate the existence and indicative location of sewer assets within its responsibility; to ensure they are protected throughout asset life. This layer is intended to be used for asset management, buildover (Dial-Before-You-Dig) and operational / maintenance purposes. This layer is updated when new information is received from completed projects and updated from certified survey plans.NOTE: Whilst every effort has been taken in collecting, validating and providing the attached data, Melbourne Water Corporation makes no representations or guarantees as to the accuracy or completeness of this data. Any person or group that uses this data does so at its own risk and should make their own assessment and investigations as to the suitability and/or application of the data. Melbourne Water Corporation shall not be liable in any way to any person or group for loss of any kind including damages, costs, interest, loss of profits or special loss or damage, arising from any use, error, inaccuracy, incompleteness or other defect in this data.
This dataset compiled the emergy tables of different unit processes used in in struvite production and DAP production. This dataset is associated with the following publication: Theregowda, R., A. González-Mejía, C. Ma, and J. Garland. Nutrient recovery from municipal wastewater for sustainable food production systems: An alternative to traditional fertilizers.. ENVIRONMENTAL ENGINEERING SCIENCE. Mary Ann Liebert, Inc., Larchmont, NY, USA, 36(7): 833-842, (2019).
Country-level and gridded wastewater production, collection, treatment and re-use
Members and partners of the Sewage analyses CORe group Europe - (SCORE) measured five illicit drug residues in wastewater 2011-2017 (every year one week). The data set covers in total 143 wastewater treatment plants in 120 cities from 37 countries, which were monitored at least once.
Layer containing polygons that denote the location and extent of parcels of land that are owned by Melbourne Water. This layer is intended to be used to identify Melbourne Water owned land and responsibilities for the management of Melbourne Water assets. Layer shows general location of assets only and so cannot be used for detailed mapping or analysis.NOTE: Whilst every effort has been taken in collecting, validating and providing the attached data, Melbourne Water Corporation makes no representations or guarantees as to the accuracy or completeness of this data. Any person or group that uses this data does so at its own risk and should make their own assessment and investigations as to the suitability and/or application of the data. Melbourne Water Corporation shall not be liable in any way to any person or group for loss of any kind including damages, costs, interest, loss of profits or special loss or damage, arising from any use, error, inaccuracy, incompleteness or other defect in this data.
The dataset contains the raw data for the graphs in the paper. This dataset is associated with the following publication: Rauglas, E., S. Martin, K. Bailey, C. Starr, M. Magnuson, R. Phillips, and W. Harper. The Effect of Malathion on the Activity, Performance, and Microbial Ecology of Activated Sludge- journal. JOURNAL OF ENVIRONMENTAL MANAGEMENT. Elsevier Science Ltd, New York, NY, USA, 220-228, (2016).
This data provides daily accumulated inflow volumes for wastewater treatment at the two Melbourne Water site (Western and Eastern). This data is collected using network flow monitoring devices. This data has been processed and stored as official inflow volumes received by Melbourne Water over a 24 hour period (12am to 12am). Wastewater volume is the total accumulated flow received from the sewer and stormwater networks. This data set is best used in long and short term wastewater services demand analysis. NOTE: Whilst every effort has been taken in collecting, validating and providing the attached data, Melbourne Water Corporation makes no representations or guarantees as to the accuracy or completeness of this data. Any person or group that uses this data does so at its own risk and should make their own assessment and investigations as to the suitability and/or application of the data. Melbourne Water Corporation shall not be liable in any way to any person or group for loss of any kind including damages, costs, interest, loss of profits or special loss or damage, arising from any use, error, inaccuracy, incompleteness or other defect in this data.
The NEWTS (National Energy Water Treatment and Speciation) database dashboard displays sites across the nation where energy-related wastewater stream samples and composition data have been collected. Using the dashboard, community leaders and the public will be able to quickly explore and obtain sample data from locations displayed on a map where various government agencies collect and analyze water samples from energy-related wastewater streams.
OECD Stat is a database of many parameters for member and non-member state, including global data on basic water metrics including: Generation and discharge of wastewater, freshwater resources, water made available for use, wastewater treatment, wastewater treatment capacity from with various years from 1980 to 2018
Melbourne Water treats effluent to Class A recycled water standard. A proportion of this water is used onsite and provided to retail water companies to sell to recycled water customers. This file contains annual volumes of recycled water use and sales as reporting in the organisation's annual report.NOTE. Whilst every effort has been taken in collecting, validating and providing the attached data, Melbourne Water Corporation makes no representations or guarantees as to the accuracy or completeness of this data. Any person or group that uses this data does so at its own risk and should make their own assessment and investigations as to the suitability and/or application of the data. Melbourne Water Corporation shall not be liable in any way to any person or group for loss of any kind including damages, costs, interest, loss of profits or special loss or damage, arising from any use, error, inaccuracy, incompleteness or other defect in this data.
Decay rates of SARS-CoV-2 and murine hepatitis virus. This dataset is not publicly accessible because: Data is property of CSIRO Land and Water, Ecosciences Precinct, 41 Boggo Road, Dutton Park, QLD 4102, Australia. It can be accessed through the following means: Contact Warish Ahmed (Warish.Ahmed@csiro.au). Format: No public link available. Data will be in an ecel format. This dataset is associated with the following publication: Ahmed, W., P.M. Bertsch, K. Bibby, E. Haramoto, J. Hewitt, F. Huygens, P. Gyawali, A. Korajkic, S. Riddell, S.P. Sherchan, S.L. Simpson, K. Sirikanchana, E.M. Symonds, R. Verhagen, S.S. Vasan, M. Kitajima, and A. Bivins. Decay of SARS-CoV-2 and surrogate murine hepatitis virus RNA in untreated wastewater to inform application in wastewater-based epidemiology. ENVIRONMENTAL RESEARCH. Elsevier B.V., Amsterdam, NETHERLANDS, 191: 110092, (2020).
Through the API, you can export data on all indicators contained within the SDG 6 Data Portal.
Layer containing sewer main centrelines and associated details. Includes sewer name, description, asset section (for As Constructed drawings) and key attributes for gravity mains, pressure (rising) mains, effluent reuse / recycling pipes. This layer supports Melbourne Water to communicate high level data in regards to the existence and indicative location of assets within its responsibility to ensure they are protected throughout the assets life.This layer is updated when new information is received from completed projects and updated from certified survey plans.NOTE: Whilst every effort has been taken in collecting, validating and providing the attached data, Melbourne Water Corporation makes no representations or guarantees as to the accuracy or completeness of this data. Any person or group that uses this data does so at its own risk and should make their own assessment and investigations as to the suitability and/or application of the data. Melbourne Water Corporation shall not be liable in any way to any person or group for loss of any kind including damages, costs, interest, loss of profits or special loss or damage, arising from any use, error, inaccuracy, incompleteness or other defect in this data.
Web Soil Survey (WSS) provides soil data and information produced by the National Cooperative Soil Survey. It is operated by the USDA Natural Resources Conservation Service (NRCS) and provides access to the largest natural resource information system in the world. NRCS has soil maps and data available online for more than 95 percent of the nation’s counties and anticipates having 100 percent in the near future. The site is updated and maintained online as the single authoritative source of soil survey information.
The Eastern Treatment Plant (ETP) receives sewage from the eastern side of Melbourne. This file describes the quality of the sewage received by providing results of regular sampling.The sample is taken with a flow-weighted auto-sampler. Samples are collected at 7:00 AM each day and relate to the previous 24 hours (e.g. timestamp of 5/1/19 07:00 was sampled between 4/1/19 07:00 and 5/1/19 07:00). Results are in milligrams per litre (mg/L). To calculate an incoming load in raw sewage, match this with wastewater inlet hourly flow for the same time period (as noted in the example).Quality parameters include: Ammonia (Ammonia as N) (mg/L), Biochemical Oxygen Demand (BOD) (mg/L), Chemical Oxygen Demand (COD) (mg/L), Nitrate plus Nitrite (mg/L), Nitrogen (Nitrogen (total)) (mg/L).NOTE. Whilst every effort has been taken in collecting, validating and providing the attached data, Melbourne Water Corporation makes no representations or guarantees as to the accuracy or completeness of this data. Any person or group that uses this data does so at its own risk and should make their own assessment and investigations as to the suitability and/or application of the data. Melbourne Water Corporation shall not be liable in any way to any person or group for loss of any kind including damages, costs, interest, loss of profits or special loss or damage, arising from any use, error, inaccuracy, incompleteness or other defect in this data.
The Eastern Treatment Plant (ETP) receives sewage from the eastern side of Melbourne. This file describes the volume of sewage pumped through ETP on an hourly basis.NOTE. Whilst every effort has been taken in collecting, validating and providing the attached data, Melbourne Water Corporation makes no representations or guarantees as to the accuracy or completeness of this data. Any person or group that uses this data does so at its own risk and should make their own assessment and investigations as to the suitability and/or application of the data. Melbourne Water Corporation shall not be liable in any way to any person or group for loss of any kind including damages, costs, interest, loss of profits or special loss or damage, arising from any use, error, inaccuracy, incompleteness or other defect in this data.
The Eastern Treatment Plant (ETP) discharges treated effluent in accordance with EPA Victoria licence AL74284 to an ocean outfall at Boag Rocks. This file contains selected discharge quality data. Samples are taken as a grab sample at the time stamp shown in the file. Results are in milligrams per litre.Quality parameters include: Ammonia (Ammonia as N) (mg/L), Biochemical Oxygen Demand (BOD) (mg/L), Chemical Oxygen Demand (COD) (mg/L), Nitrate plus Nitrite (mg/L), Nitrogen (Nitrogen (total)) (mg/L).NOTE. Whilst every effort has been taken in collecting, validating and providing the attached data, Melbourne Water Corporation makes no representations or guarantees as to the accuracy or completeness of this data. Any person or group that uses this data does so at its own risk and should make their own assessment and investigations as to the suitability and/or application of the data. Melbourne Water Corporation shall not be liable in any way to any person or group for loss of any kind including damages, costs, interest, loss of profits or special loss or damage, arising from any use, error, inaccuracy, incompleteness or other defect in this data.
The Eastern Treatment Plant (ETP) discharges treated effluent in accordance with EPA Victoria licence AL74284 to an ocean outfall at Boag Rocks. This file contains hourly flowrate data at the treatment plant pumpstation. From the pumpstation, the effluent takes several hours (typically 4-8 h) to reach the ocean.NOTE. Whilst every effort has been taken in collecting, validating and providing the attached data, Melbourne Water Corporation makes no representations or guarantees as to the accuracy or completeness of this data. Any person or group that uses this data does so at its own risk and should make their own assessment and investigations as to the suitability and/or application of the data. Melbourne Water Corporation shall not be liable in any way to any person or group for loss of any kind including damages, costs, interest, loss of profits or special loss or damage, arising from any use, error, inaccuracy, incompleteness or other defect in this data.
Western Treatment Plant (WTP) is a wastewater treatment facility. This layer contains the WTP carrier and mains and associated details. Includes sewer name, description, asset section (for As Constructed drawings) and key attributes. This layer supports Melbourne Water to communicate high level data in regards to the existence and indicative location of assets within its responsibility to ensure they are protected throughout the assets life.This layer is updated when new information is received from completed projects and updated from certified survey plans. NOTE: Whilst every effort has been taken in collecting, validating and providing the attached data, Melbourne Water Corporation makes no representations or guarantees as to the accuracy or completeness of this data. Any person or group that uses this data does so at its own risk and should make their own assessment and investigations as to the suitability and/or application of the data. Melbourne Water Corporation shall not be liable in any way to any person or group for loss of any kind including damages, costs, interest, loss of profits or special loss or damage, arising from any use, error, inaccuracy, incompleteness or other defect in this data.
A quantitative basis for comparing, analyzing, and understanding environmental performance for 180 countries. We score and rank these countries on their environmental performance using the most recent year of data available and calculate how these scores have changed over the previous decade. Data provided by country, and can be filtered by regions. Relavent metrics scored on the EPI include: Access to sanitation and drinking water, Unsafe sanitation, unsafe drinking water, water resources impact (based on wastewater discharge), Wastewater Treatment