{ "context": "https://hydroshare.org/schema", "type": "ScientificDataset", "additionalType": "CompositeResource", "name": "Radar rainfall data for Baltimore, MD, USA", "description": "The Baltimore radar rainfall dataset was developed from a multi-sensor analysis combining radar rainfall estimates from the Sterling, VA WSR88D radar (KLWX) with measurements from a collection of ground based rain gages. The archived data have a 15-minute time resolution and a grid resolution of 0.01 degree latitude/longitude (approximately 1 km x 1 km); 15-minute rainfall accumulations for each grid are in mm. The dataset spans 22 years, 2000-2021, and covers an area of approximately 4,900 km^2 (70 by 70 grids, each with approximate area of 1 km^2) surrounding the Baltimore, MD metropolitan area (Figure 1). The rainfall data cover the six months from April to September of each year. This is the period with most intense sub-daily rainfall and the period for which radar measurements are most accurate. Figure 1 illustrates the climatological analyses of mean annual frequency of days with at least 1 hour rainfall exceeding 25 mm. The striking spatial variability of convective rainfall is illustrated in Figure 2 by the April-September climatology of annual lightning strikes. \r\n\r\nAs with many long-term environmental data sets, sensor technology has changed during the time period of the archive. The Sterling, VA WSR88D radar underwent a hardware upgrade from single polarization to dual polarization in 2012. Prior to the upgrade, rainfall was estimated using a conventional radar-reflectivity algorithm (HydroNEXRAD) which converts reflectivity measurements in polar coordinates from the lowest sweep to rainfall estimates on a 0.01 degree latitude-longitude grid at the surface (see Seo et al. 2010 and Smith et al. 2012 for details on the algorithm). The polarimetric upgrade introduced new measurements into the radar-rainfall algorithm. In addition to reflectivity, the operational rainfall product, Digital Precipitation Rate (DPR), directly uses differential reflectivity and specific differential phase shift measurements to estimate rainfall (https://www.ncei.noaa.gov/access/metadata/landing-page/bin/iso?id=gov.noaa.ncdc:C00708; see also Giangrande and Ryzhkov 2008). Details of the algorithm structure and parameterization for the DPR radar-rainfall estimates have been modified during the 10-year period of the data set.\r\n\r\nA storm-based (daily) multiplicative mean field bias has been applied to both datasets. The mean field bias is computed as the ratio of daily rain gage rainfall at a point to daily radar rainfall for the bin that contains the gage. The rain gage dataset is compiled from rain gages in the Baltimore metropolitan region and surrounding areas and includes gages acquired from both Baltimore City and Baltimore County, and the Global Historical Climatology Network daily (GHCNd). Mean field bias improves rainfall estimates and diminishes the impacts of changing measurement procedures.\r\n\r\nThe dataset has been archived in 2 formats: netCDF gridded rainfall, 1 file for each 15-minute time period, and csv or excel format point rainfall (1 point at the center of each grid) in a timeseries format with 1 file per calendar month covering the entire 70x70 domain. The csv files are in folders organized by calendar year. The first five columns in each file represent year, month, day, hour, and minute and can be combined to generate a unique date-time value for each time step. Each additional column is a complete time series for the month and represents data from one of the 1-km2 grid cells in the original data set. \r\n\r\nThe latitude and longitude coordinates for each pixel in the grid are provided. The latitude and longitude represent the centroid of the cell, which is square when represented in latitude and longitude coordinates and rectangular when represented in other distance-based coordinate systems such as State Plane or Universal Transverse Mercator. There are 4900 pixels in the domain. In order to visualize the data using GIS or other software, the user needs to associate each column in the annual rainfall file with the latitude and longitude values for that grid cell number. \r\n\r\nThese data may be subject to modest revision or reformatting in future versions. The current version is version 2.0 and is being offered to users who wish to explore the data. We will revise this document as needed.", "url": "http://www.hydroshare.org/resource/ae004ca9deb442958c32f0457579c4f0", "identifier": [ "http://www.hydroshare.org/resource/ae004ca9deb442958c32f0457579c4f0" ], "creator": [ { "type": "Person", "email": "mlbaeck@princeton.edu", "identifier": null, "affiliation": { "type": "Organization", "url": null, "address": null, "name": "Princeton University" }, "name": "Baeck, Mary Lynn" }, { "type": "Person", "email": "jsmith@princeton.edu", "identifier": null, "affiliation": { "type": "Organization", "url": null, "address": null, "name": "Princeton Universiry" }, "name": "Smith, James A." } ], "dateCreated": "2023-05-28 13:53:21.372364+00:00", "keywords": [ "UrbanCZ", "BSEC", "CZNet", "Baltimore MD", "radar rainfall" ], "license": { "type": "CreativeWork", "name": "This resource is shared under the Creative Commons Attribution CC BY.", "description": null, "url": "http://creativecommons.org/licenses/by/4.0/" }, "provider": { "type": "Organization", "url": "https://www.hydroshare.org/", "address": null, "name": "HydroShare" }, "contributor": [ { "type": "Person", "email": "weltyc@umbc.edu", "identifier": null, "affiliation": { "type": "Organization", "url": null, "address": null, "name": "University of Maryland;Baltimore County" }, "name": "Welty, Claire" }, { "type": "Person", "email": "jl@umbc.edu", "identifier": null, "affiliation": { "type": "Organization", "url": null, "address": null, "name": "Center for Urban Environmental Research and Education at the University of Maryland, Baltimore County" }, "name": "Lagrosa IV, John J." }, { "type": "Person", "email": "miller@umbc.edu", "identifier": null, "affiliation": { "type": "Organization", "url": null, "address": null, "name": "UMBC" }, "name": "Miller, Andrew" } ], "publisher": null, "datePublished": null, "subjectOf": null, "version": null, "inLanguage": "eng", "creativeWorkStatus": { "type": "DefinedTerm", "name": "Public", "description": "The resource is publicly accessible and can be viewed or downloaded by anyone" }, "dateModified": "2026-03-17 13:55:51.516617+00:00", "funding": [ { "type": "Grant", "description": null, "identifier": "NA10OAR4310220", "funder": { "type": "Organization", "url": "https://cpo.noaa.gov/Divisions-Programs/Climate-and-Societal-Interactions/The-Adaptation-Sciences-Program/SARP/About-SARP", "address": null, "name": "National Oceanic and Atmospheric Administration" }, "name": "Integrating Climate Change into the Restoration of the Chesapeake Bay and Watershed" }, { "type": "Grant", "description": null, "identifier": "NA07OAR4170518", "funder": { "type": "Organization", "url": "https://app.dimensions.ai/details/grant/grant.4045766", "address": null, "name": "National Oceanic and Atmospheric Administration" }, "name": "Integrating Real-Time Sensor Networks, Data Assimilation, and Predictive Modeling to Assess the Effects of Climate Variability on Water Resources in an Urbanizing Landscape" }, { "type": "Grant", "description": null, "identifier": "0427325", "funder": { "type": "Organization", "url": "https://www.nsf.gov/awardsearch/showAward?AWD_ID=0427325", "address": null, "name": "National Science Foundation" }, "name": "Collaborative Research: ITR-(ASE+ECS)-(dms+sim): A Comprehensive Framework for Use of Next Generation Weather Radar (NEXRAD) Data in Hydrometeorology and Hydrology" }, { "type": "Grant", "description": null, "identifier": "0423476", "funder": { "type": "Organization", "url": "https://www.nsf.gov/awardsearch/showAward?AWD_ID=0423476", "address": null, "name": "National Science Foundation" }, "name": "LTER: Human Settlements as Ecosystems: Metropolitan Baltimore from 1797 - 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