2024-03-29T14:28:05.979Zhttps://cmr.earthdata.nasa.gov/opensearch/collections.atomCMRechodev@echo.nasa.govECHO dataset metadataSearch parameters: satellite => NOAA-11 boundingBox => geometry => placeName => startTime => endTime => uid => 201101https://cmr.earthdata.nasa.gov/opensearch/collections.atom?uid=C2170970978-ORNL_CLOUDCMRechodev@echo.nasa.govGEOSSEOSDISABoVE: AVHRR-Derived Forest Fire Burned Area-Hot Spots, Alaska and Canada, 1989-2000This dataset provides annual forest fire burned area and daily hotspot products developed using data acquired from the Advanced Very-High-Resolution Radiometer (AVHRR) instruments carried aboard two NOAA polar-orbiting satellites (NOAA-11 and NOAA-14). The fire products were generated over 12 fire seasons (1st May - 31st October) from 1989-2000 across North America at 1-km resolution and subset to the ABoVE spatial domain of Alaska and Canada.2023-06-12T20:16:11.000ZC2170970978-ORNL_CLOUD1989-05-01T00:00:00.000Z/2000-10-31T23:59:59.000ZABoVE: AVHRR-Derived Forest Fire Burned Area-Hot Spots, Alaska and Canada, 1989-2000AVHRR_Fire_Products_15451ORNL_CLOUDORNL_DAACORNL_DAAC3CARTESIAN41.72 -165.19 69.01 -53.17truefalsefalsefalsefalsefalsefalsetrue0.65gov.nasa.eosdistruehttps://cmr.earthdata.nasa.gov/opensearch/collections.atom?uid=C2089387603-NOAA_NCEICMRechodev@echo.nasa.govCEOSABSORPTION, SCATTERING, ATTENUATION COEFFICIENTS and Other Data from SATELLITE From World-Wide Distribution from 1992-11-01 to 1993-02-28 (NCEI Accession 9600151)Not providedC2089387603-NOAA_NCEI1992-11-01T00:00:00.000Z/1993-02-28T00:00:00.000ZABSORPTION, SCATTERING, ATTENUATION COEFFICIENTS and Other Data from SATELLITE From World-Wide Distribution from 1992-11-01 to 1993-02-28 (NCEI Accession 9600151)gov.noaa.nodc:9600151Not ApplicableNOAA_NCEINOAA National Centers for Environmental InformationNOAA National Centers for Environmental InformationCARTESIAN-10 140 10 180falsefalsefalsefalsefalsefalsefalsefalse0.65https://cmr.earthdata.nasa.gov/opensearch/collections.atom?uid=C1214605678-SCIOPSCMRechodev@echo.nasa.govActive Fire Detection in Eastern SpainThe Fire Product: Active Fire Detection in Eastern Spain was part of
the International Geosphere-Biosphere Programme Data and Information
System (IGBP-DIS) Regional Satellite Fire Data Compilation CD-ROM.
Six large scale forest fires which took place in Eastern Spain from
July 4 through July 8, 1994 have been detected by means of NOAA-11
Advanced Very High Resolution Radiometer (AVHRR) infrared
images. Detection was carried out using the difference of the
brightness temperatures recorded in the channel 3 (middle infrared)
and channel 4 (thermal infrared), processed by an automatic procedure
developed in the University of Valladolid, Laboratory of Remote
Sensing (LATUV). Detection performed along the period allows a
monitoring of the active focus evolution.C1214605678-SCIOPS1994-07-04T00:00:00.000Z/1994-07-08T23:59:59.999ZActive Fire Detection in Eastern SpainIGBP-DIS_FIRE_SPAINNot providedSCIOPSUVA-ESP/PHYSUVA-ESP/PHYSCARTESIAN37 -2 42 3falsefalsefalsefalsefalsefalsefalsefalse0.65https://cmr.earthdata.nasa.gov/opensearch/collections.atom?uid=C1220565954-USGS_LTACMRechodev@echo.nasa.govCEOSCWICAlaska AVHRR Twice-Monthly CompositesThe goal of the Alaska Advanced Very High Resolution Radiometer (AVHRR) project is to compile a time series data set of calibrated, georegistered daily observations and twice-monthly maximum normalized difference vegetation index (NDVI) composites for Alaska's annual growing season (April-October). This data set has applications for environmental monitoring and for assessing impacts of global climate change. An Alaska AVHRR data set is comprised of twice-monthly maximum NDVI composites of daily satellite observations. The NDVI composites contain 10 bands of information, including AVHRR channels 1-5, maximum NDVI, satellite zenith, solar zenith, and relative azimuth. The daily observations, bands 1-9, have been calibrated to reflectance, scaled to byte data, and geometrically registered to the Albers Equal-Area Conic map projection. The 10th band is a pointer to identify the date and scene ID of the source daily observation (scene) for each pixel.
The compositing process required each daily overpass to be registered to a common map projection to ensure that from day to day each 1-km pixel represented the exact same ground location. The Albers Equal-Area Conic map projection provides for equal area representation, which enables easy measurement of area throughout the data. Each daily observation for the growing season was registered to a base image using image-to-image correlation.
The NDVI data are calculated from the calibrated, geometrically registered daily observations. The NDVI value is the difference between near-infrared (AVHRR Channel 2) and visible (AVHRR Channel 1) reflectance values divided by total measured reflectance. A maximum NDVI compositing process was used on the daily observations. The NDVI is examined pixel by pixel for each observation during the compositing period to determine and retain the maximum value. Often when displaying data covering large areas, such as AVHRR data, it is beneficial to include an overlay of either familiar linework for reflectance or polygon data sets to derive statistical summaries of regions. All of the linework images represent lines in raster format as 1-km cells and the strata are represented as polygons registered to the AVHRR data. The linework and polygon data sets include international boundaries, Alaskan roads with the Trans-Alaska Pipeline, and a raster polygon mask of the State.
C1220565954-USGS_LTA1990-06-16T00:00:00.000Z/Alaska AVHRR Twice-Monthly CompositesAK_AVHRRNot providedUSGS_LTADOI/USGS/EROSDOI/USGS/EROSCARTESIAN51 -179 70 -116falsefalsefalsefalsefalsefalsefalsefalse0.65org.geoss.geoss_data-coregov.nasa.eosdistruetruehttps://cmr.earthdata.nasa.gov/opensearch/collections.atom?uid=C1996545162-GHRC_DAACCMRechodev@echo.nasa.govGEOSSEOSDISAMSU/MSU Lowstratosphere Day/Month Temperature Anomalies and Annual Cycle V6The AMSU/MSU Lowstratosphere Day/Month Temperature Anomalies and Annual Cycle V6 dataset consists of temperature anomalies and annual cycle temperatures derived from the Microwave Sounding Unit (MSU) and the Advanced Microwave Sounding Unit-A (AMSU-A) radiance data since January 1978. All products are derived for the lower stratosphere. The dataset begins on January 1, 1978 and is still currently ongoing. The data are available in netCDF-4 and ASCII formats.2022-04-28T13:50:28.000ZC1996545162-GHRC_DAAC1978-01-01T00:00:00.000Z/AMSU/MSU Lowstratosphere Day/Month Temperature Anomalies and Annual Cycle V6msutls6GHRC_DAACNASA/MSFC/GHRCNASA/MSFC/GHRC3CARTESIAN-90 -180 90 180truefalsefalsefalsefalsefalsefalsetrue0.65gov.nasa.eosdisorg.ceos.wgiss.cwic.granules.prodtruehttps://cmr.earthdata.nasa.gov/opensearch/collections.atom?uid=C1996545409-GHRC_DAACCMRechodev@echo.nasa.govGEOSSEOSDISAMSU/MSU Lowtroposphere Day/Month Temperature Anomalies and Annual Cycle V6The AMSU/MSU Lowtroposphere Day/Month Temperature Anomalies and Annual Cycle V6 dataset consists of temperature anomalies and annual cycle temperatures derived from the Microwave Sounding Unit (MSU) and the Advanced Microwave Sounding Unit-A (AMSU-A) radiance data since January 1978. All products are derived for the lower troposphere. The dataset begins on January 1, 1978 and is still currently ongoing. The data are available in netCDF-4 and ASCII formats.2022-04-28T13:50:28.000ZC1996545409-GHRC_DAAC1978-01-01T00:00:00.000Z/AMSU/MSU Lowtroposphere Day/Month Temperature Anomalies and Annual Cycle V6msutlt6GHRC_DAACNASA/MSFC/GHRCNASA/MSFC/GHRC3CARTESIAN-90 -180 90 180truefalsefalsefalsefalsefalsefalsetrue0.65gov.nasa.eosdisorg.ceos.wgiss.cwic.granules.prodtruehttps://cmr.earthdata.nasa.gov/opensearch/collections.atom?uid=C1996545587-GHRC_DAACCMRechodev@echo.nasa.govGEOSSEOSDISAMSU/MSU Midtroposphere Day/Month Temperature Anomalies and Annual Cycle V6The AMSU/MSU Midtroposphere Day/Month Temperature Anomalies and Annual Cycle V6 dataset consists of temperature anomalies and annual cycle temperatures derived from the Microwave Sounding Unit (MSU) and the Advanced Microwave Sounding Unit-A (AMSU-A) radiance data since January 1978. All products are derived for the mid-troposphere. The dataset begins on January 1, 1978 and is still currently ongoing. The data are available in netCDF-4 and ASCII formats.2022-04-28T13:50:29.000ZC1996545587-GHRC_DAAC1978-01-01T00:00:00.000Z/AMSU/MSU Midtroposphere Day/Month Temperature Anomalies and Annual Cycle V6msutmt6GHRC_DAACNASA/MSFC/GHRCNASA/MSFC/GHRC3CARTESIAN-90 -180 90 180truefalsefalsefalsefalsefalsefalsetrue0.65gov.nasa.eosdisorg.ceos.wgiss.cwic.granules.prodtruehttps://cmr.earthdata.nasa.gov/opensearch/collections.atom?uid=C1996545873-GHRC_DAACCMRechodev@echo.nasa.govGEOSSEOSDISAMSU/MSU Tropopause Day/Month Temperature Anomalies and Annual Cycle V6The AMSU/MSU Tropopause Day/Month Temperature Anomalies and Annual Cycle V6 dataset consists of temperature anomalies and annual cycle temperatures derived from the Microwave Sounding Unit (MSU) and the Advanced Microwave Sounding Unit-A (AMSU-A) radiance data since January 1978. All products are derived for the tropopause. The dataset begins on January 1, 1978 and is still currently ongoing. The data are available in netCDF-4 and ASCII formats.2022-04-28T13:50:29.000ZC1996545873-GHRC_DAAC1978-01-01T00:00:00.000Z/AMSU/MSU Tropopause Day/Month Temperature Anomalies and Annual Cycle V6msuttp6GHRC_DAACNASA/MSFC/GHRCNASA/MSFC/GHRC3CARTESIAN-90 -180 90 180truefalsefalsefalsefalsefalsefalsetrue0.65gov.nasa.eosdisorg.ceos.wgiss.cwic.granules.prodtruehttps://cmr.earthdata.nasa.gov/opensearch/collections.atom?uid=C1214608744-SCIOPSCMRechodev@echo.nasa.govAntarctic Global Area Coverage NOAA AVHRR infrared data/imageryThe AMRC also collected a set of NOAA Polar Orbiting AVHRR Global Area Coverage (GAC) and Local Area Coverage (LAC) images from 7 December 1994 through August 1995, with scattered coverage to 26 March 1996. This lower resolution data set (three kilometers by five kilometers) is available from AMRC, though only the infrared window channel was archived.C1214608744-SCIOPS1994-07-12T00:00:00.000Z/1996-10-16T23:59:59.999ZAntarctic Global Area Coverage NOAA AVHRR infrared data/imagerySSEC-AMRC-NOAA-GACNot providedSCIOPSUWI-MAD/SSEC/AMRCUWI-MAD/SSEC/AMRCCARTESIAN-90 -180 -60 180falsefalsefalsefalsefalsefalsefalsefalse0.65https://cmr.earthdata.nasa.gov/opensearch/collections.atom?uid=C2491742792-POCLOUDCMRechodev@echo.nasa.govGEOSSEOSDISAquarius Official Release Level 3 Ancillary Reynolds Sea Surface Temperature Standard Mapped Image 28-Day Running Mean Data V5.0Aquarius Level 3 ancillary sea surface temperature (SST) standard mapped image data are the ancillary SST data used in the Aquarius calibration for salinity retrieval. They are simply the daily SSTs from the Reynolds National Climatic Data Center (NCDC) 0.25 degree dataset, gridded and averaged using the Aquarius processing L2-L3 processing scheme to the same 1 degree spatial resolution and daily, 7 day, monthly, 7-Day, and annual time intervals as Aquarius L3 standard salinity and wind speed products. This particular data set is the 28-Day running mean, ancillary sea surface temperature product associated with version 5.0 of the Aquarius data set, which is the official end of mission public data release from the AQUARIUS/SAC-D mission.2017-12-07T07:31:31.000ZC2491742792-POCLOUD2011-08-25T01:55:23.000Z/2015-06-07T12:45:21.000ZAquarius Official Release Level 3 Ancillary Reynolds Sea Surface Temperature Standard Mapped Image 28-Day Running Mean Data V5.0AQUARIUS_L3_ANCILLARY_SST_SMI_28DAY-RUNNINGMEAN_V55.0POCLOUDNASA/JPL/PODAACNASA/JPL/PODAACAquarius Project NASA/OBPG, Reynolds & Smith NOAA/NCDC3CARTESIAN-90 -180 90 180truetruetruefalsefalsetruetruetrue0.65gov.nasa.eosdistrue