Instrument Platform Pair List
Get a list of InstrumentPlaformPair objects. InstrumentPlaformPairs are used within Acquisitions which
enable linking between Instruments, Platforms and Observations (though may be via CompositeProcesses).
GET /api/v3/ipps/?format=api&offset=13500
{ "count": 14115, "next": "https://api.catalogue.ceda.ac.uk/api/v3/ipps/?format=api&limit=100&offset=13600", "previous": "https://api.catalogue.ceda.ac.uk/api/v3/ipps/?format=api&limit=100&offset=13400", "results": [ { "ob_id": 14011, "platform": { "ob_id": 458, "uuid": "b6d87ac1455348cd97a4386b38995dbb", "short_code": "plat", "title": "NIMBUS 7 Satellite", "abstract": "The NASA Nimbus 7 research-and-development polar-orbiting satellite served as a stabilized, earth-oriented platform for the testing of advanced systems for sensing and collecting data in the pollution, oceanographic and meteorological disciplines. It was launched on October 24, 1978." }, "instrument": { "ob_id": 2636, "uuid": "1578228cc3cf4b9fba0b88c61b58800b", "short_code": "instr", "title": "Scanning Multichannel Microwave Radiometer (SMMR)", "abstract": "The Scanning Multichannel Microwave Radiometer operated on NASA's Nimbus-7 satellite for more than eight years, from 26 October 1978 to 20 August 1987, transmitting data every other day. Intended to obtain ocean circulation parameters such as sea surface temperatures, low altitude winds, water vapor and cloud liquid water content on an all-weather basis, the SMMR is a ten channel instrument capable of receiving both horizontally and vertically polarized radiation. A parabolic antenna 79 cm in diameter reflected microwave emissions into a five-frequency feed horn. The antenna beam maintained a constant nadir angle of 42 degrees, resulting in an incidence angle of 50.3 degrees at Earth's surface. The antenna was forward viewing and rotated equally +/- 25 degrees about the satellite subtrack. The 50 degree scan provided a 780 km swath of the Earth's surface. Scan period was 4.096 seconds." }, "relatedTo": { "ob_id": 43038, "uuid": "c85b7a41528c47c19078f090e565c65d", "short_code": "acq", "title": "Acquisition process for the ESA Soil Moisture Climate Change Initiative Combined product, v09.1", "abstract": "The ESA Climate Change Initiative Combined product has been derived from data from both active (AMI-SCAT, ASCAT) and passive satellite instruments (SMMR, SSM/I, TMI, AMSR-E, WindSat, FY-3B, FY-3C, FY3D, AMSR2, MIRAS (SMOS), GPM and SMAP)" } }, { "ob_id": 14012, "platform": { "ob_id": 2629, "uuid": "9f1b0a2380cc47919b201880e0fee6de", "short_code": "plat", "title": "Defense Meteorological Satellite Program (DMSP) Satellites", "abstract": "DMSP satellites are used for strategic and tactical weather prediction to aid the U.S. military in planning operations at sea, on land and in the air. Equipped with a sophisticated sensor suite that can image visible and infrared cloud cover and measure precipitation, surface temperature, and soil moisture, the satellite collects specialized global meteorological, oceanographic, and solar-geophysical information in all weather conditions. The DMSP constellation comprises two spacecraft in near-polar orbits, C3 (command, control and communications), user terminals and weather centers." }, "instrument": { "ob_id": 2630, "uuid": "54f897597ec04c09b01095eb05c7419e", "short_code": "instr", "title": "Special Sensor Microwave / Imager (SSM/I)", "abstract": "The SSM/I is a seven-channel, four frequency, linearly-polarized, passive microwave radiometric system which measures atmospheric, ocean and terrain microwave brightness temperatures at 19.35, 22.235, 37.0 and 85.5 GHz. The data are used to obtain synoptic maps of critical atmospheric, oceanographic and selected land parameters on a global scale." }, "relatedTo": { "ob_id": 43038, "uuid": "c85b7a41528c47c19078f090e565c65d", "short_code": "acq", "title": "Acquisition process for the ESA Soil Moisture Climate Change Initiative Combined product, v09.1", "abstract": "The ESA Climate Change Initiative Combined product has been derived from data from both active (AMI-SCAT, ASCAT) and passive satellite instruments (SMMR, SSM/I, TMI, AMSR-E, WindSat, FY-3B, FY-3C, FY3D, AMSR2, MIRAS (SMOS), GPM and SMAP)" } }, { "ob_id": 14013, "platform": { "ob_id": 7805, "uuid": "d21630e98aa74a4f8406743b74e5d076", "short_code": "plat", "title": "ERS-1", "abstract": "The European Remote Sensing satellite 1 (ERS1) was launched on 17th July 1991 and was the first flight of the RSA ERS program. The payload included the ATSR, AMU-SAR , AMI-SCAT, LRR PRARE and RA instruments. End of mission for ERS1 was 10th March 2000." }, "instrument": { "ob_id": 27122, "uuid": "7b488736a173477689480990d5b38aa9", "short_code": "instr", "title": "AMI-SCAT", "abstract": "AMI-SCAT (Active Microwave Instrument - Scatterometer) is a C-band (5.3 GHz) scatterometer flying on the ERS-1 and ERS-2 satellites. It measures the sea surface wind vector and large-scale soil moisture." }, "relatedTo": { "ob_id": 43038, "uuid": "c85b7a41528c47c19078f090e565c65d", "short_code": "acq", "title": "Acquisition process for the ESA Soil Moisture Climate Change Initiative Combined product, v09.1", "abstract": "The ESA Climate Change Initiative Combined product has been derived from data from both active (AMI-SCAT, ASCAT) and passive satellite instruments (SMMR, SSM/I, TMI, AMSR-E, WindSat, FY-3B, FY-3C, FY3D, AMSR2, MIRAS (SMOS), GPM and SMAP)" } }, { "ob_id": 14014, "platform": { "ob_id": 27135, "uuid": "8afe985a2f3f4b15aaa52df6119c0f27", "short_code": "plat", "title": "TRMM", "abstract": "The Tropical Rainfall Measuring Mission (TRMM) is a NASA and JAXA satellite that flew between 1997 and 2015. It's primary mission was to measure precipitation." }, "instrument": { "ob_id": 27126, "uuid": "9173171ba44845e9a873e21b4dee19e2", "short_code": "instr", "title": "TMI", "abstract": "TMI (TRMM Microwave Imager) is a multi-purpose microwave imager flying on the TRMM (Tropical Rainfall Measuring Mission)." }, "relatedTo": { "ob_id": 43038, "uuid": "c85b7a41528c47c19078f090e565c65d", "short_code": "acq", "title": "Acquisition process for the ESA Soil Moisture Climate Change Initiative Combined product, v09.1", "abstract": "The ESA Climate Change Initiative Combined product has been derived from data from both active (AMI-SCAT, ASCAT) and passive satellite instruments (SMMR, SSM/I, TMI, AMSR-E, WindSat, FY-3B, FY-3C, FY3D, AMSR2, MIRAS (SMOS), GPM and SMAP)" } }, { "ob_id": 14015, "platform": { "ob_id": 10906, "uuid": "5a1076bffc8c4c5d8a2ff3a4cfb29846", "short_code": "plat", "title": "Aqua Satellite, part of the Earth Observation System Afternoon Constellation (EOS-PM)", "abstract": "Aqua, launched on 4th April 2002, is a polar-orbiting satellite within the Afternoon Constellation (A-Train) that have equator crossings around 13:30 and 01:30 under NASA's Earth Obseration System (EOS). The satellite carries Atmospheric Infrared Sounder (AIRS), Advanced Microwave Sounding Unit (AMSU-A), Humidity Sounder for Brazil (HSB), Advanced Microwave Scanning Radiometer for EOS (AMSR-E), Moderate-Resolution Imaging Spectroradiometer (MODIS) and Clouds and the Earth's Radiant Energy System (CERES), and these collect data on the Earth's atmospheric conditions, snow and ice, sea surface temperature and ocean productivity, and soil moisture. Aqua was the first member launched of a group of satellites termed the Afternoon Constellation, or sometimes the A-Train. " }, "instrument": { "ob_id": 14485, "uuid": "77dd26fc341a440b85a98fe95b1976f8", "short_code": "instr", "title": "AMSR-E", "abstract": "Advanced Microwave Scanning Radiometer for EOS" }, "relatedTo": { "ob_id": 43038, "uuid": "c85b7a41528c47c19078f090e565c65d", "short_code": "acq", "title": "Acquisition process for the ESA Soil Moisture Climate Change Initiative Combined product, v09.1", "abstract": "The ESA Climate Change Initiative Combined product has been derived from data from both active (AMI-SCAT, ASCAT) and passive satellite instruments (SMMR, SSM/I, TMI, AMSR-E, WindSat, FY-3B, FY-3C, FY3D, AMSR2, MIRAS (SMOS), GPM and SMAP)" } }, { "ob_id": 14016, "platform": { "ob_id": 27130, "uuid": "526c6fb02e094d049d367aaa4f79e8d1", "short_code": "plat", "title": "Coriolis", "abstract": "The Coriolis satellite is flown by NASA and the US Department of Defence, with a primary mission to provide observations of the sea-surface wind. It carries two instruments: WindSat and SMEI (Solar Mass Ejection Imager)" }, "instrument": { "ob_id": 27125, "uuid": "10f4aca379f84e0cae56392a85604469", "short_code": "instr", "title": "WindSat", "abstract": "WindSat is a passive microwave radiometer flown on the Coriolis Satellite by the US Department of Defence since 2003." }, "relatedTo": { "ob_id": 43038, "uuid": "c85b7a41528c47c19078f090e565c65d", "short_code": "acq", "title": "Acquisition process for the ESA Soil Moisture Climate Change Initiative Combined product, v09.1", "abstract": "The ESA Climate Change Initiative Combined product has been derived from data from both active (AMI-SCAT, ASCAT) and passive satellite instruments (SMMR, SSM/I, TMI, AMSR-E, WindSat, FY-3B, FY-3C, FY3D, AMSR2, MIRAS (SMOS), GPM and SMAP)" } }, { "ob_id": 14017, "platform": { "ob_id": 27128, "uuid": "9c6e8c73f539446ba7a8adef871492a7", "short_code": "plat", "title": "SMOS", "abstract": "The SMOS (Soil Moisture and Ocean Salinity) satellite was launched on Novermber 2009, with the primary mission to monitor ocean salinity and soil moisture." }, "instrument": { "ob_id": 27124, "uuid": "9b4be0d67030450ca8aebf37cf39500c", "short_code": "instr", "title": "MIRAS", "abstract": "MIRAS (Microwave Imaging Radiometer using Aperture Synthesis) is an European Space Agency instrument flown on the SMOS (Soil Moisture and Ocean Salinity) Satellite. It measures Ocean Salinity and Soil Moisture." }, "relatedTo": { "ob_id": 43038, "uuid": "c85b7a41528c47c19078f090e565c65d", "short_code": "acq", "title": "Acquisition process for the ESA Soil Moisture Climate Change Initiative Combined product, v09.1", "abstract": "The ESA Climate Change Initiative Combined product has been derived from data from both active (AMI-SCAT, ASCAT) and passive satellite instruments (SMMR, SSM/I, TMI, AMSR-E, WindSat, FY-3B, FY-3C, FY3D, AMSR2, MIRAS (SMOS), GPM and SMAP)" } }, { "ob_id": 14018, "platform": { "ob_id": 32306, "uuid": "0cc9d1b2d73b4fe3983cbb95827b2581", "short_code": "plat", "title": "GPM - Core Observatory", "abstract": "The Global Precipitation Mission (GPM) - Core Observatory is an operational satellite flown by NASA and JAXA, and forms the main element of the Global Precipitation Measurement mission. It carries two instruments: DPR (Dual-frequency Precipitation Radar), and GMI (GPM Microwave Imager)" }, "instrument": { "ob_id": 32305, "uuid": "7db99f9f3e5d4e63bf748dc395124886", "short_code": "instr", "title": "GMI (core)", "abstract": "The GPM Microwave Imager (GPI) is a multipurpose imager flown on the Global Precipitation Mission (GPM) Core Observatory by NASA" }, "relatedTo": { "ob_id": 43038, "uuid": "c85b7a41528c47c19078f090e565c65d", "short_code": "acq", "title": "Acquisition process for the ESA Soil Moisture Climate Change Initiative Combined product, v09.1", "abstract": "The ESA Climate Change Initiative Combined product has been derived from data from both active (AMI-SCAT, ASCAT) and passive satellite instruments (SMMR, SSM/I, TMI, AMSR-E, WindSat, FY-3B, FY-3C, FY3D, AMSR2, MIRAS (SMOS), GPM and SMAP)" } }, { "ob_id": 14019, "platform": { "ob_id": 32304, "uuid": "4aae55216d5f4c25a23408480cac8f18", "short_code": "plat", "title": "FY-3B", "abstract": "Feng-Yun -3B (FY-3B) is a Chinese satellite flying between 2010-2021. It is the second in the FY-3 series of satellites, with a primary mission for operational meteorology." }, "instrument": { "ob_id": 40773, "uuid": "6f749b8e2583455d82155945ef75b826", "short_code": "instr", "title": "Micro-Wave Radiation Imager 1 (MWRI-1)", "abstract": "The Micro-Wave Radiation Imager 1 (MWRI-1) is one of the instruments on the Chinese Feng-Yun -3 (FY-3) series of satellites." }, "relatedTo": { "ob_id": 43038, "uuid": "c85b7a41528c47c19078f090e565c65d", "short_code": "acq", "title": "Acquisition process for the ESA Soil Moisture Climate Change Initiative Combined product, v09.1", "abstract": "The ESA Climate Change Initiative Combined product has been derived from data from both active (AMI-SCAT, ASCAT) and passive satellite instruments (SMMR, SSM/I, TMI, AMSR-E, WindSat, FY-3B, FY-3C, FY3D, AMSR2, MIRAS (SMOS), GPM and SMAP)" } }, { "ob_id": 14020, "platform": { "ob_id": 25273, "uuid": "f10d619f7b9f4dbab792dcc1ab9dbb68", "short_code": "plat", "title": "GCOM-W (Global Change Observation Mission for Water)", "abstract": "The Global Change Observation Mission for Water (GCOM-W) is a series of three satellites flown by the Japanese Space Agency (JAXA), addressing multi-purpose MW imagery for ocean, land and precipitation. It is part of their Global Change Observation Mission (GCOM).\r\nThe satellites exploit sun-synchronous orbits around 13:30, coordinated with that of POES satellites, Suomi-NPP and JPSS." }, "instrument": { "ob_id": 25272, "uuid": "a6002da7c0954ce0aa146c1b24877a0a", "short_code": "instr", "title": "AMSR-2", "abstract": "Advanced Microwave Scanning Radiometer -2, flying on the Global Change Observation Mission (GCOM) series of satellites flown by JAXA" }, "relatedTo": { "ob_id": 43038, "uuid": "c85b7a41528c47c19078f090e565c65d", "short_code": "acq", "title": "Acquisition process for the ESA Soil Moisture Climate Change Initiative Combined product, v09.1", "abstract": "The ESA Climate Change Initiative Combined product has been derived from data from both active (AMI-SCAT, ASCAT) and passive satellite instruments (SMMR, SSM/I, TMI, AMSR-E, WindSat, FY-3B, FY-3C, FY3D, AMSR2, MIRAS (SMOS), GPM and SMAP)" } }, { "ob_id": 14021, "platform": { "ob_id": 29941, "uuid": "2b126b39dbb64c0681f12b68f2308fee", "short_code": "plat", "title": "SMAP", "abstract": "The Soil Moisture Active-Passive (SMAP) satelliteis a NASA satellite launched in 2015." }, "instrument": { "ob_id": 29938, "uuid": "e050ad22e3b943f9a5f1563a1e6fb82c", "short_code": "instr", "title": "SMAP", "abstract": "The Soil Moisture Active Passive instrument is a microwave radiometer flown on the NASA SMAP satellite." }, "relatedTo": { "ob_id": 43038, "uuid": "c85b7a41528c47c19078f090e565c65d", "short_code": "acq", "title": "Acquisition process for the ESA Soil Moisture Climate Change Initiative Combined product, v09.1", "abstract": "The ESA Climate Change Initiative Combined product has been derived from data from both active (AMI-SCAT, ASCAT) and passive satellite instruments (SMMR, SSM/I, TMI, AMSR-E, WindSat, FY-3B, FY-3C, FY3D, AMSR2, MIRAS (SMOS), GPM and SMAP)" } }, { "ob_id": 14022, "platform": { "ob_id": 7813, "uuid": "8ee876e1ea644ed7a81d4e3536133fa0", "short_code": "plat", "title": "European Remote Sensing satellite 2 - ERS-2", "abstract": "ESA's two European Remote Sensing (ERS) satellites, ERS-1 and –2, were launched into the same orbit in 1991 and 1995 respectively. Their payloads included a synthetic aperture imaging radar, radar altimeter and instruments to measure ocean surface temperature and wind fields.\r\n\r\nERS-2 added an additional sensor for atmospheric ozone monitoring. The two satellites acquired a combined data set extending over two decades.\r\n\r\nThe ERS-2 satellite was retired on 05 September 2011." }, "instrument": { "ob_id": 27122, "uuid": "7b488736a173477689480990d5b38aa9", "short_code": "instr", "title": "AMI-SCAT", "abstract": "AMI-SCAT (Active Microwave Instrument - Scatterometer) is a C-band (5.3 GHz) scatterometer flying on the ERS-1 and ERS-2 satellites. It measures the sea surface wind vector and large-scale soil moisture." }, "relatedTo": { "ob_id": 43038, "uuid": "c85b7a41528c47c19078f090e565c65d", "short_code": "acq", "title": "Acquisition process for the ESA Soil Moisture Climate Change Initiative Combined product, v09.1", "abstract": "The ESA Climate Change Initiative Combined product has been derived from data from both active (AMI-SCAT, ASCAT) and passive satellite instruments (SMMR, SSM/I, TMI, AMSR-E, WindSat, FY-3B, FY-3C, FY3D, AMSR2, MIRAS (SMOS), GPM and SMAP)" } }, { "ob_id": 14023, "platform": { "ob_id": 32134, "uuid": "db86d823aded474e8c76bd69d092d26b", "short_code": "plat", "title": "Metop-C", "abstract": "Metop-C launched on 7th November 2018, represents the first in a series of three satellites forming the space segment of the EUMETSAT Polar System (EPS). Metop-C is Europe's third polar-orbiting meteorological satellite" }, "instrument": { "ob_id": 27121, "uuid": "ca133e0771514003a9e7c2462c1b363c", "short_code": "instr", "title": "ASCAT", "abstract": "ASCAT (Advanced Scatterometer) is a C Band (2.55 GHz) Scatterometer flown on the Metop series of satellites. It measures the sea surface wind vecotr and large-scale soil moisture." }, "relatedTo": { "ob_id": 43038, "uuid": "c85b7a41528c47c19078f090e565c65d", "short_code": "acq", "title": "Acquisition process for the ESA Soil Moisture Climate Change Initiative Combined product, v09.1", "abstract": "The ESA Climate Change Initiative Combined product has been derived from data from both active (AMI-SCAT, ASCAT) and passive satellite instruments (SMMR, SSM/I, TMI, AMSR-E, WindSat, FY-3B, FY-3C, FY3D, AMSR2, MIRAS (SMOS), GPM and SMAP)" } }, { "ob_id": 14024, "platform": { "ob_id": 8299, "uuid": "84a6355ac58249cc8c636e77a243c86a", "short_code": "plat", "title": "Metop-B", "abstract": "Metop-B, launched on the 17th September 2012, is the second in a series of three satellites forming the space segment of the EUMETSAT Polar System (EPS)." }, "instrument": { "ob_id": 27121, "uuid": "ca133e0771514003a9e7c2462c1b363c", "short_code": "instr", "title": "ASCAT", "abstract": "ASCAT (Advanced Scatterometer) is a C Band (2.55 GHz) Scatterometer flown on the Metop series of satellites. It measures the sea surface wind vecotr and large-scale soil moisture." }, "relatedTo": { "ob_id": 43038, "uuid": "c85b7a41528c47c19078f090e565c65d", "short_code": "acq", "title": "Acquisition process for the ESA Soil Moisture Climate Change Initiative Combined product, v09.1", "abstract": "The ESA Climate Change Initiative Combined product has been derived from data from both active (AMI-SCAT, ASCAT) and passive satellite instruments (SMMR, SSM/I, TMI, AMSR-E, WindSat, FY-3B, FY-3C, FY3D, AMSR2, MIRAS (SMOS), GPM and SMAP)" } }, { "ob_id": 14025, "platform": { "ob_id": 8207, "uuid": "3f2dbe69fe4c40ee9e1e8be87e15a1d5", "short_code": "plat", "title": "Metop-A", "abstract": "Metop-A, launched on 19 October 2006, represents the first in a series of three satellites forming the space segment of the EUMETSAT Polar System (EPS). Metop-A is Europe's first polar-orbiting meteorological satellite" }, "instrument": { "ob_id": 27121, "uuid": "ca133e0771514003a9e7c2462c1b363c", "short_code": "instr", "title": "ASCAT", "abstract": "ASCAT (Advanced Scatterometer) is a C Band (2.55 GHz) Scatterometer flown on the Metop series of satellites. It measures the sea surface wind vecotr and large-scale soil moisture." }, "relatedTo": { "ob_id": 43038, "uuid": "c85b7a41528c47c19078f090e565c65d", "short_code": "acq", "title": "Acquisition process for the ESA Soil Moisture Climate Change Initiative Combined product, v09.1", "abstract": "The ESA Climate Change Initiative Combined product has been derived from data from both active (AMI-SCAT, ASCAT) and passive satellite instruments (SMMR, SSM/I, TMI, AMSR-E, WindSat, FY-3B, FY-3C, FY3D, AMSR2, MIRAS (SMOS), GPM and SMAP)" } }, { "ob_id": 14026, "platform": { "ob_id": 43085, "uuid": "033349a08bde4bf2a3604aee40d39764", "short_code": "plat", "title": "wildFIRE Lab, University of Exeter", "abstract": "The University of Exeter wildFIRE lab is a specifically designed experimental laboratory with facilities to test the flammability of natural fuels.\r\n\r\nThe group focuses on studying the influence of wildfire by using state-of-the-art experimental approaches to understand the flammability of vegetation and the nature of the materials that wildfires create." }, "instrument": { "ob_id": 11230, "uuid": "4475880cd0f2432fa88d2cbe1e03a791", "short_code": "instr", "title": "Manchester: Single Particle Soot Photometer (SP2)", "abstract": "The Single Particle Soot Photometer (SP2) is manufactured by Droplet Measurement Technologies (DMT). It measures the soot (also known as black carbon) content of individual airborne particles, known as aerosols. \r\n\r\nThe SP2 is a laser-based instrument, which detects black carbon particles by heating them to their point of 'incandescence'. This results in the emission of radiation that can be measured and related to the mass of black carbon. \r\n\r\nThe instrument can be operated in a range of environments (lab, ground-based, aircraft) and its high sensitivity and fast response makes it ideal for a number of atmospheric science applications. The measurement frequency of this instrument is 1Hz. \r\n\r\nThe outputs include: black carbon mass, number and size; as well as information relating to the mixing state of black carbon-containing particles. Number and volume concentration of scattering particles; as well as their optical size are also included. \r\n\r\nBlack carbon is an important component of atmospheric aerosol and is a strong absorber of solar radiation. It is a product of incomplete combustion activities and the major sources include vehicle engines, burning of domestic fuels for heating/cooking and forest/agricultural fires. Human activities have increased the amount of black carbon in the atmosphere, which leads to a warming of the Earth's temperature.\r\n\r\nThis instrument is regularly used on the FAAM BAe 146 aircraft." }, "relatedTo": { "ob_id": 41346, "uuid": "5a52d997cf3d4078a2c328fe6bca74bd", "short_code": "acq", "title": "Acquisition for: Single Particle Soot Photometer (SP2) data from SASSO project- Version 0", "abstract": "Acquisition for: Single Particle Soot Photometer (SP2) data from SASSO project- Version 0" } }, { "ob_id": 14027, "platform": { "ob_id": 43085, "uuid": "033349a08bde4bf2a3604aee40d39764", "short_code": "plat", "title": "wildFIRE Lab, University of Exeter", "abstract": "The University of Exeter wildFIRE lab is a specifically designed experimental laboratory with facilities to test the flammability of natural fuels.\r\n\r\nThe group focuses on studying the influence of wildfire by using state-of-the-art experimental approaches to understand the flammability of vegetation and the nature of the materials that wildfires create." }, "instrument": { "ob_id": 99, "uuid": "98ab5fc9e63c403792e90e6b9b69e3c8", "short_code": "instr", "title": "University of Manchester/UFAM: Aerosol Mass Spectrometer (AMS) - formerly umist-ams", "abstract": "The Aerodyne aerosol mass spectrometer (AMS) is the only currently available instrument capable of providing quantitative size and chemical mass loading information in real-time for non-refractory sub-micron aerosol particles. The AMS couples size-resolved particle sampling and mass spectrometric techniques into a single real-time measurement system. The Aerodyne AMS has been deployed world-wide at fixed sites, and on mobile laboratory, ship and aircraft platforms. Over 100 instruments are in use in industrial, academic and government laboratories.\r\n\r\nScientifically, the instrument can deliver quantitative mass concentrations of the major non-refractory chemical species present in submicron particles (ammonium, nitrate, sulphate, organics and non-sea-salt chloride) in microgrammes per cubic metre. It is also capable of delivering these concentrations as a function of diameter as a dM/dlog(D) distribution. Further to this, information on the chemical nature of the organic fraction can be derived by inspecting the relative sizes of the peaks within the mass spectrum. In order to produce fully quality assured and meaningful results, the data must be processed offline or near-real-time. The Compact Time-of-Flight AMS (C-ToF-AMS) is a version that enables continuous acquisition of complete mass spectra (1-800 m/z) of all sampled particles at rates as fast as 80 kHz." }, "relatedTo": { "ob_id": 41351, "uuid": "1da823bd305042feaf19a3e46a2b556c", "short_code": "acq", "title": "Acquisition for: Aerosol Mass Spectrometer (AMS) data from SASSO project- Version 0", "abstract": "Acquisition for: Aerosol Mass Spectrometer (AMS) data from SASSO project- Version 0" } }, { "ob_id": 14028, "platform": { "ob_id": 41666, "uuid": "1a86f46ce3b942c9be1ab637829ecd3a", "short_code": "plat", "title": "University of Leeds Allsopp Helikite tethered balloon 21m3", "abstract": "The University of Leeds 21 m3 Allsopp Helikite tethered balloon, a tethered helium filled balloon with a kite wing that provides orientation, stabilisation, and additional dynamic lift (Allsopp Helikites Ltd., 2023)." }, "instrument": { "ob_id": 41664, "uuid": "c8cca6026f2c42839a081863e6e910f8", "short_code": "instr", "title": "University of Leeds Sparv S1H3 Windsond radiosonde 5094", "abstract": "University of Leeds Sparv Embedded AB, model S1H3 \"Extra accuracy humidity\" Windsond radiosonde operated as part of the ICECAPS-ACE project.\r\n\r\nSerial number: 5094\r\n\r\nThe radiosonde included an integrated GPS unit and measured air pressure, temperature, and relative humidity.\r\n\r\nInstrument details from Sparv data sheet for the S1H3 model windsond:\r\nOperating range: -40 ~ +80 °C, 0 ~ 100 %RH\r\n\r\nTemperature: \r\nType: Band gap\r\nAccuracy: 0.2 °C\r\nResolution: 0.01 °C\r\nResponse time: 6 s\r\n\r\nHumidity\r\nType: Capacitive\r\nAccuracy: 1.8 %RH\r\nResolution: 0.05 %RH\r\nResponse time: 6 s" }, "relatedTo": { "ob_id": 43132, "uuid": "9406b56d4b18401f81c01941d22f2cc0", "short_code": "acq", "title": "Leeds Windsonde 5094 at Summit Station, 2023", "abstract": "Leeds Windsonde 5094 at Summit Station, 2023" } }, { "ob_id": 14029, "platform": { "ob_id": 41666, "uuid": "1a86f46ce3b942c9be1ab637829ecd3a", "short_code": "plat", "title": "University of Leeds Allsopp Helikite tethered balloon 21m3", "abstract": "The University of Leeds 21 m3 Allsopp Helikite tethered balloon, a tethered helium filled balloon with a kite wing that provides orientation, stabilisation, and additional dynamic lift (Allsopp Helikites Ltd., 2023)." }, "instrument": { "ob_id": 41665, "uuid": "65a02c5efd554d46af897784d2273f8c", "short_code": "instr", "title": "ICECAPS-ACE Portable Optical Particle Spectrometer (POPS), unit 0307", "abstract": "Handix Scientific Portable Optical Particle Spectrometer (POPS) instrument (model: POPS-1120, serial number 0307) operated by the ICECAPS-ACE project.\r\n\r\nThis Handix Portable Optical Particle Spectrometer (POPS 1120), was slightly adapted for use on tethered balloon platform. The POPS was placed in a lightweight insulating foam box, and a coarse mesh filter was placed over the inlet to prevent the growth of rime ice. The POPS was secured to the kite wing on the tethered balloon such that the inlet was always oriented into the wind." }, "relatedTo": { "ob_id": 43133, "uuid": "b8a27b518daa43a3ba9e3fb2051f8c26", "short_code": "acq", "title": "Leeds POPs unit 0307 at Summit Station, 2023", "abstract": "Leeds POPs unit 0307 at Summit Station, 2023" } }, { "ob_id": 14030, "platform": { "ob_id": 30506, "uuid": "c58202085ddb493988be0fea4e1b065f", "short_code": "plat", "title": "Summit Station Greenland", "abstract": "The Summit Station in Greenland is located (72° 36’N, 38° 25’W, 3250m), atop the Greenland Ice Sheet making it a unique location for a cloud– atmosphere observatory. The station is about 400 km from the east and west coastlines and more than 1,000 km from the southwest and southeast coasts, from which most of the flow impinging on Summit originates, making it a distinctly continental environment. Additionally, the high altitude leads to extremely cold and dry conditions and a relative compression of the troposphere above the ice sheet." }, "instrument": { "ob_id": 41212, "uuid": "bbab2decd8e2408da26e16b1a42ad0ad", "short_code": "instr", "title": "ICECAPS-ACE Portable Optical Particle Spectrometer (POPS), unit 0288", "abstract": "Handix Scientific Portable Optical Particle Spectrometer (POPS) instrument (model: POPS-1120, serial number 0288) operated by the ICECAPS-ACE project." }, "relatedTo": { "ob_id": 43135, "uuid": "b90ba3e1758c4596a0741b51fd792d0c", "short_code": "acq", "title": "Leeds pops 0288 at Summit Station, Greenland 2023", "abstract": "Leeds pops 0288 at Summit Station, Greenland 2023" } }, { "ob_id": 14031, "platform": { "ob_id": 41193, "uuid": "30afb12a21b84a33a0e1dccbb794248d", "short_code": "plat", "title": "UK-DECC network sites", "abstract": "UK-DECC network sites including:\r\n-Ridge Hill Tall Tower, Herefordshire\r\n-Bilsdale Tall Tower, North York Moors National Park\r\n-Heathfield Tall Tower, East Sussex and \r\n-Tacolneston Tall, Tower, Norfolk" }, "instrument": { "ob_id": 41183, "uuid": "6e2bfc4e8cc04b2baba698c8281d6e51", "short_code": "instr", "title": "University of Bristol Picarro G2301 A", "abstract": "A Picarro G2301 trace gas analyser, serial number: CFADS2179, used at Ridge Hill atmospheric monitoring station. The analyser uses cavity ringdown spectrocopy (CRDS) to make in situ measurements of CO2 and CH4 in the near-infrared region - see Crosson et al. (2008) for details of this technique: \r\nhttps://doi.org/10.1007/s00340-008-3135-y." }, "relatedTo": null }, { "ob_id": 14032, "platform": { "ob_id": 41193, "uuid": "30afb12a21b84a33a0e1dccbb794248d", "short_code": "plat", "title": "UK-DECC network sites", "abstract": "UK-DECC network sites including:\r\n-Ridge Hill Tall Tower, Herefordshire\r\n-Bilsdale Tall Tower, North York Moors National Park\r\n-Heathfield Tall Tower, East Sussex and \r\n-Tacolneston Tall, Tower, Norfolk" }, "instrument": { "ob_id": 41184, "uuid": "047c2462011f45608149d240fcb6cc62", "short_code": "instr", "title": "University of Bristol Picarro G2301 B", "abstract": "A Picarro G2301 trace gas analyser, serial number: CFADS2167, used at Tacolneston atmospheric monitoring station. The analyser uses cavity ringdown spectrocopy (CRDS) to make in situ measurements of CO2 and CH4 in the near-infrared region - see Crosson et al. (2008) for details of this technique:\r\nhttps://doi.org/10.1007/s00340-008-3135-y." }, "relatedTo": null }, { "ob_id": 14033, "platform": { "ob_id": 41193, "uuid": "30afb12a21b84a33a0e1dccbb794248d", "short_code": "plat", "title": "UK-DECC network sites", "abstract": "UK-DECC network sites including:\r\n-Ridge Hill Tall Tower, Herefordshire\r\n-Bilsdale Tall Tower, North York Moors National Park\r\n-Heathfield Tall Tower, East Sussex and \r\n-Tacolneston Tall, Tower, Norfolk" }, "instrument": { "ob_id": 41185, "uuid": "9ee1049592c7477a8136bd6b41df32d1", "short_code": "instr", "title": "University of Bristol Picarro G2401 A", "abstract": "A Picarro G2401 trace gas analyser, serial number: CFKADS2094, used at Bilsdale atmospheric monitoring station. The analyser uses cavity ringdown spectrocopy (CRDS) to make in situ measurements of CO2, CH4 and CO in the near-infrared region - see Crosson et al. (2008) for details of this technique:\r\nhttps://doi.org/10.1007/s00340-008-3135-y." }, "relatedTo": null }, { "ob_id": 14034, "platform": { "ob_id": 41193, "uuid": "30afb12a21b84a33a0e1dccbb794248d", "short_code": "plat", "title": "UK-DECC network sites", "abstract": "UK-DECC network sites including:\r\n-Ridge Hill Tall Tower, Herefordshire\r\n-Bilsdale Tall Tower, North York Moors National Park\r\n-Heathfield Tall Tower, East Sussex and \r\n-Tacolneston Tall, Tower, Norfolk" }, "instrument": { "ob_id": 41186, "uuid": "df0a514c6cc3485f9e049f4d332089af", "short_code": "instr", "title": "National Physical Laboratory Picarro G2401 A", "abstract": "A Picarro G2401 trace gas analyser, serial number: CFKADS2075, used at Heathfield atmospheric monitoring station. The analyser uses cavity ringdown spectrocopy (CRDS) to make in situ measurements of CO2, CH4 and CO in the near-infrared region - see Crosson et al. (2008) for details of this technique:\r\nhttps://doi.org/10.1007/s00340-008-3135-y." }, "relatedTo": null }, { "ob_id": 14035, "platform": { "ob_id": 41193, "uuid": "30afb12a21b84a33a0e1dccbb794248d", "short_code": "plat", "title": "UK-DECC network sites", "abstract": "UK-DECC network sites including:\r\n-Ridge Hill Tall Tower, Herefordshire\r\n-Bilsdale Tall Tower, North York Moors National Park\r\n-Heathfield Tall Tower, East Sussex and \r\n-Tacolneston Tall, Tower, Norfolk" }, "instrument": { "ob_id": 41187, "uuid": "aca6eaf18a7c48ce86d244ec7abf7b48", "short_code": "instr", "title": "University of Bristol LGR 913-0015 A", "abstract": "A Los Gatos Research (LGR) 913-0015 trace gas analyser, serial number: 14-0244, used at Tacolneston atmospheric monitoring station. The analyser uses off-axis integrated cavity output spectroscopy (OA-ICOS) to make in situ measurements of N2O and CO in the mid-infrared spectral region - see Baer et al. (2002) for details of this technique: https://doi.org/10.1007/s00340-002-0971-z" }, "relatedTo": null }, { "ob_id": 14036, "platform": { "ob_id": 41193, "uuid": "30afb12a21b84a33a0e1dccbb794248d", "short_code": "plat", "title": "UK-DECC network sites", "abstract": "UK-DECC network sites including:\r\n-Ridge Hill Tall Tower, Herefordshire\r\n-Bilsdale Tall Tower, North York Moors National Park\r\n-Heathfield Tall Tower, East Sussex and \r\n-Tacolneston Tall, Tower, Norfolk" }, "instrument": { "ob_id": 41188, "uuid": "00f1af3b2e4e45b19b6abcf950015001", "short_code": "instr", "title": "University of Bristol GC-ECD A", "abstract": "A trace gas analyser that employs gas chromatography with electron capture detection (GC-ECD) to make measurements of N2O and SF6, used at Ridge Hill atmospheric monitoring station. This instrument uses an Agilent 7890A GC (serial number: CN11171049) equipped with a micro-ECD - see Stanley et al. (2018) for more instrument details: https://doi.org/10.5194/amt-11-1437-2018" }, "relatedTo": null }, { "ob_id": 14037, "platform": { "ob_id": 41193, "uuid": "30afb12a21b84a33a0e1dccbb794248d", "short_code": "plat", "title": "UK-DECC network sites", "abstract": "UK-DECC network sites including:\r\n-Ridge Hill Tall Tower, Herefordshire\r\n-Bilsdale Tall Tower, North York Moors National Park\r\n-Heathfield Tall Tower, East Sussex and \r\n-Tacolneston Tall, Tower, Norfolk" }, "instrument": { "ob_id": 41189, "uuid": "b325c041ffef4d32a709ceb9bc7e0506", "short_code": "instr", "title": "University of Bristol GC-ECD B", "abstract": "A trace gas analyser that employs gas chromatography with electron capture detection (GC-ECD) to make measurements of N2O and SF6, used at Bilsdale atmospheric monitoring station. This instrument uses an Agilent 7890A GC (serial number: CN13111012) equipped with a micro-ECD - see Stanley et al. (2018) for\r\nmore instrument details: https://doi.org/10.5194/amt-11-1437-2018" }, "relatedTo": null }, { "ob_id": 14038, "platform": { "ob_id": 41193, "uuid": "30afb12a21b84a33a0e1dccbb794248d", "short_code": "plat", "title": "UK-DECC network sites", "abstract": "UK-DECC network sites including:\r\n-Ridge Hill Tall Tower, Herefordshire\r\n-Bilsdale Tall Tower, North York Moors National Park\r\n-Heathfield Tall Tower, East Sussex and \r\n-Tacolneston Tall, Tower, Norfolk" }, "instrument": { "ob_id": 41190, "uuid": "7e7265e8c7bc4d3cb188195eeecaaa3f", "short_code": "instr", "title": "National Physical Laboratory GC-ECD A", "abstract": "A trace gas analyser that employs gas chromatography with electron capture detection (GC-ECD) to make measurements of N2O and SF6, used at Heathfield atmospheric monitoring station. This instrument uses an Agilent 7890A GC (serial number: CN13111010) equipped with a micro-ECD - see Stanley et al. (2018) for more instrument details: https://doi.org/10.5194/amt-11-1437-2018" }, "relatedTo": null }, { "ob_id": 14039, "platform": { "ob_id": 41193, "uuid": "30afb12a21b84a33a0e1dccbb794248d", "short_code": "plat", "title": "UK-DECC network sites", "abstract": "UK-DECC network sites including:\r\n-Ridge Hill Tall Tower, Herefordshire\r\n-Bilsdale Tall Tower, North York Moors National Park\r\n-Heathfield Tall Tower, East Sussex and \r\n-Tacolneston Tall, Tower, Norfolk" }, "instrument": { "ob_id": 41191, "uuid": "c00ad9c3663643f1a9aa635e324f2336", "short_code": "instr", "title": "University of Bristol GC-MD A", "abstract": "A gas chromatography multi-detector (GC-MD) trace gas analyser that uses electron capture detection (GC-ECD) to make measurements of N2O and SF6 and a reduction gas analyser (GC-RGA) to make measurements of CO and H2, used at Tacolneston atmospheric monitoring station. This instrument uses an Agilent 6890N GC (serial number: US10335065) equipped with a micro-ECD and a Peak Performer 1 - see Stanley et al. (2018) for more instrument details: https://doi.org/10.5194/amt-11-1437-2018" }, "relatedTo": null }, { "ob_id": 14040, "platform": { "ob_id": 41193, "uuid": "30afb12a21b84a33a0e1dccbb794248d", "short_code": "plat", "title": "UK-DECC network sites", "abstract": "UK-DECC network sites including:\r\n-Ridge Hill Tall Tower, Herefordshire\r\n-Bilsdale Tall Tower, North York Moors National Park\r\n-Heathfield Tall Tower, East Sussex and \r\n-Tacolneston Tall, Tower, Norfolk" }, "instrument": { "ob_id": 41192, "uuid": "725a35dac1aa4d60b671cc73947d712e", "short_code": "instr", "title": "University of Bristol Medusa GC-MS A", "abstract": "A trace gas analyser that uses gas chromatography-mass spectrometry (GC-MS) with a Medusa pre-concentration unit (serial number: Medusa13) to make measurements of a wide range of greenhouse gases and ozone-depleting substances, used at Tacolneston atmospheric monitoring station. See Miller et al. (2008) for more instrument details: https://doi.org/10.5194/10.1021/ac702084k" }, "relatedTo": null }, { "ob_id": 14041, "platform": { "ob_id": 26742, "uuid": "77da748a80e44c319b58937816b5c921", "short_code": "plat", "title": "Bilsdale Tower, North Yorkshire", "abstract": "Bilsdale (BSD) tall tower is in a remote area of the North York Moors National Park and is the first monitoring site in the northeast region of England. The closest large conurbations are York and Middlesbrough, located 30 miles south and 16 miles northeast, respectively. The tower is on a high plateau overlooking green valleys used mainly for livestock (sheep and cattle).\r\nBilsdale tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 43160, "uuid": "a96c54ea58424272b3b00eb389b39dd4", "short_code": "instr", "title": "University of Bristol Picarro G5310 A", "abstract": "A Picarro G5310 trace gas analyser, serial number: JKADS5078, used at Bilsdale atmospheric monitoring station. The analyser uses cavity ringdown spectrocopy (CRDS) to make in situ measurements of N2O and CO in the mid-infrared spectral region - see Crosson et al. (2008) for details of this technique:\r\nhttps://doi.org/10.1007/s00340-008-3135-y" }, "relatedTo": { "ob_id": 41182, "uuid": "34ce623def704473a1736b0e79d5de12", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V23.08", "abstract": "UK-DECC trace species measurements at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 14042, "platform": { "ob_id": 26748, "uuid": "61c42dd67918447d80ccf09aaec0ae0f", "short_code": "plat", "title": "Heathfield Tower, East Sussex", "abstract": "Heathfield (HFD) tall tower is in rural East Sussex, 20 km from the coast. The closest large conurbation (Royal Tunbridge Wells) is located 17 km NNE from the tower. The area surrounding the tower is >90 % woodland and agricultural green space with some residential (0.7 %) and light industrial areas (0.3 %)(East Sussex in figures, 2006). Notable local industry includes a large horticultural nursery located only 200 m north of the tower.\r\nHeathfield tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 43161, "uuid": "5b12d5a5350c4931a5e196a7c9e2bef3", "short_code": "instr", "title": "National Physical Laboratory Picarro G5310 A", "abstract": "A Picarro G5310 trace gas analyser, serial number: JKADS5069, used at Heathfield atmospheric monitoring station. The analyser uses cavity ringdown spectrocopy (CRDS) to make in situ measurements of N2O and CO in the mid-infrared spectral region - see Crosson et al. (2008) for details of this technique:\r\nhttps://doi.org/10.1007/s00340-008-3135-y." }, "relatedTo": { "ob_id": 41182, "uuid": "34ce623def704473a1736b0e79d5de12", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V23.08", "abstract": "UK-DECC trace species measurements at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 14043, "platform": { "ob_id": 26748, "uuid": "61c42dd67918447d80ccf09aaec0ae0f", "short_code": "plat", "title": "Heathfield Tower, East Sussex", "abstract": "Heathfield (HFD) tall tower is in rural East Sussex, 20 km from the coast. The closest large conurbation (Royal Tunbridge Wells) is located 17 km NNE from the tower. The area surrounding the tower is >90 % woodland and agricultural green space with some residential (0.7 %) and light industrial areas (0.3 %)(East Sussex in figures, 2006). Notable local industry includes a large horticultural nursery located only 200 m north of the tower.\r\nHeathfield tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 41190, "uuid": "7e7265e8c7bc4d3cb188195eeecaaa3f", "short_code": "instr", "title": "National Physical Laboratory GC-ECD A", "abstract": "A trace gas analyser that employs gas chromatography with electron capture detection (GC-ECD) to make measurements of N2O and SF6, used at Heathfield atmospheric monitoring station. This instrument uses an Agilent 7890A GC (serial number: CN13111010) equipped with a micro-ECD - see Stanley et al. (2018) for more instrument details: https://doi.org/10.5194/amt-11-1437-2018" }, "relatedTo": { "ob_id": 43162, "uuid": "85843262fabd4acbb353405d1e13f39e", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V24.01", "abstract": "UK-DECC trace species measurements at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 14044, "platform": { "ob_id": 27473, "uuid": "a18f43456c364789aac726ed365e41d1", "short_code": "plat", "title": "Tacolneston tall tower, Norfolk", "abstract": "Tacolneston (TAC) tall tower is located on the east coast of England, 16 km from Norwich in Norfolk, UK. Lines sample air at 54, 100, and 185 m.a.g.l. from an open-lattice telecommunications tower at 56 m.a.s.l. The land surrounding the tower is largely arable farming.\r\n\r\nTacolneston tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 41191, "uuid": "c00ad9c3663643f1a9aa635e324f2336", "short_code": "instr", "title": "University of Bristol GC-MD A", "abstract": "A gas chromatography multi-detector (GC-MD) trace gas analyser that uses electron capture detection (GC-ECD) to make measurements of N2O and SF6 and a reduction gas analyser (GC-RGA) to make measurements of CO and H2, used at Tacolneston atmospheric monitoring station. This instrument uses an Agilent 6890N GC (serial number: US10335065) equipped with a micro-ECD and a Peak Performer 1 - see Stanley et al. (2018) for more instrument details: https://doi.org/10.5194/amt-11-1437-2018" }, "relatedTo": { "ob_id": 43162, "uuid": "85843262fabd4acbb353405d1e13f39e", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V24.01", "abstract": "UK-DECC trace species measurements at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 14045, "platform": { "ob_id": 27473, "uuid": "a18f43456c364789aac726ed365e41d1", "short_code": "plat", "title": "Tacolneston tall tower, Norfolk", "abstract": "Tacolneston (TAC) tall tower is located on the east coast of England, 16 km from Norwich in Norfolk, UK. Lines sample air at 54, 100, and 185 m.a.g.l. from an open-lattice telecommunications tower at 56 m.a.s.l. The land surrounding the tower is largely arable farming.\r\n\r\nTacolneston tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 41192, "uuid": "725a35dac1aa4d60b671cc73947d712e", "short_code": "instr", "title": "University of Bristol Medusa GC-MS A", "abstract": "A trace gas analyser that uses gas chromatography-mass spectrometry (GC-MS) with a Medusa pre-concentration unit (serial number: Medusa13) to make measurements of a wide range of greenhouse gases and ozone-depleting substances, used at Tacolneston atmospheric monitoring station. See Miller et al. (2008) for more instrument details: https://doi.org/10.5194/10.1021/ac702084k" }, "relatedTo": { "ob_id": 43162, "uuid": "85843262fabd4acbb353405d1e13f39e", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V24.01", "abstract": "UK-DECC trace species measurements at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 14046, "platform": { "ob_id": 27560, "uuid": "0c1d766f72c24a77a2afa835b5eca11e", "short_code": "plat", "title": "Ridge Hill Tall Tower, nr Hereford", "abstract": "Ridge Hill tower is located near Hereford, England.\r\n\r\nThe Ridge Hill tower (RGL) began measuring trace gases (CO2, CH4, N2O and SF6) in March 2012. This site is located at 51.9975 N 2.5400 W, 204 m above sea level, and is 12 miles south of Hereford near the English-Welsh border. The site is registered by the World Meteorological Organisation (WMO) as a Global Atmospheric Watch (GAW) regional station. Measurements are made from two tower levels with one inlet at 45 m and the other inlet at 90 m. There are no major sources of local pollution; the surrounding area is sparsely populated and covered with arable land.\r\nRidge Hill tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 41183, "uuid": "6e2bfc4e8cc04b2baba698c8281d6e51", "short_code": "instr", "title": "University of Bristol Picarro G2301 A", "abstract": "A Picarro G2301 trace gas analyser, serial number: CFADS2179, used at Ridge Hill atmospheric monitoring station. The analyser uses cavity ringdown spectrocopy (CRDS) to make in situ measurements of CO2 and CH4 in the near-infrared region - see Crosson et al. (2008) for details of this technique: \r\nhttps://doi.org/10.1007/s00340-008-3135-y." }, "relatedTo": { "ob_id": 43162, "uuid": "85843262fabd4acbb353405d1e13f39e", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V24.01", "abstract": "UK-DECC trace species measurements at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 14047, "platform": { "ob_id": 27473, "uuid": "a18f43456c364789aac726ed365e41d1", "short_code": "plat", "title": "Tacolneston tall tower, Norfolk", "abstract": "Tacolneston (TAC) tall tower is located on the east coast of England, 16 km from Norwich in Norfolk, UK. Lines sample air at 54, 100, and 185 m.a.g.l. from an open-lattice telecommunications tower at 56 m.a.s.l. The land surrounding the tower is largely arable farming.\r\n\r\nTacolneston tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 41184, "uuid": "047c2462011f45608149d240fcb6cc62", "short_code": "instr", "title": "University of Bristol Picarro G2301 B", "abstract": "A Picarro G2301 trace gas analyser, serial number: CFADS2167, used at Tacolneston atmospheric monitoring station. The analyser uses cavity ringdown spectrocopy (CRDS) to make in situ measurements of CO2 and CH4 in the near-infrared region - see Crosson et al. (2008) for details of this technique:\r\nhttps://doi.org/10.1007/s00340-008-3135-y." }, "relatedTo": { "ob_id": 43162, "uuid": "85843262fabd4acbb353405d1e13f39e", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V24.01", "abstract": "UK-DECC trace species measurements at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 14048, "platform": { "ob_id": 26742, "uuid": "77da748a80e44c319b58937816b5c921", "short_code": "plat", "title": "Bilsdale Tower, North Yorkshire", "abstract": "Bilsdale (BSD) tall tower is in a remote area of the North York Moors National Park and is the first monitoring site in the northeast region of England. The closest large conurbations are York and Middlesbrough, located 30 miles south and 16 miles northeast, respectively. The tower is on a high plateau overlooking green valleys used mainly for livestock (sheep and cattle).\r\nBilsdale tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 41185, "uuid": "9ee1049592c7477a8136bd6b41df32d1", "short_code": "instr", "title": "University of Bristol Picarro G2401 A", "abstract": "A Picarro G2401 trace gas analyser, serial number: CFKADS2094, used at Bilsdale atmospheric monitoring station. The analyser uses cavity ringdown spectrocopy (CRDS) to make in situ measurements of CO2, CH4 and CO in the near-infrared region - see Crosson et al. (2008) for details of this technique:\r\nhttps://doi.org/10.1007/s00340-008-3135-y." }, "relatedTo": { "ob_id": 43162, "uuid": "85843262fabd4acbb353405d1e13f39e", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V24.01", "abstract": "UK-DECC trace species measurements at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 14049, "platform": { "ob_id": 27473, "uuid": "a18f43456c364789aac726ed365e41d1", "short_code": "plat", "title": "Tacolneston tall tower, Norfolk", "abstract": "Tacolneston (TAC) tall tower is located on the east coast of England, 16 km from Norwich in Norfolk, UK. Lines sample air at 54, 100, and 185 m.a.g.l. from an open-lattice telecommunications tower at 56 m.a.s.l. The land surrounding the tower is largely arable farming.\r\n\r\nTacolneston tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 41187, "uuid": "aca6eaf18a7c48ce86d244ec7abf7b48", "short_code": "instr", "title": "University of Bristol LGR 913-0015 A", "abstract": "A Los Gatos Research (LGR) 913-0015 trace gas analyser, serial number: 14-0244, used at Tacolneston atmospheric monitoring station. The analyser uses off-axis integrated cavity output spectroscopy (OA-ICOS) to make in situ measurements of N2O and CO in the mid-infrared spectral region - see Baer et al. (2002) for details of this technique: https://doi.org/10.1007/s00340-002-0971-z" }, "relatedTo": { "ob_id": 43162, "uuid": "85843262fabd4acbb353405d1e13f39e", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V24.01", "abstract": "UK-DECC trace species measurements at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 14050, "platform": { "ob_id": 27560, "uuid": "0c1d766f72c24a77a2afa835b5eca11e", "short_code": "plat", "title": "Ridge Hill Tall Tower, nr Hereford", "abstract": "Ridge Hill tower is located near Hereford, England.\r\n\r\nThe Ridge Hill tower (RGL) began measuring trace gases (CO2, CH4, N2O and SF6) in March 2012. This site is located at 51.9975 N 2.5400 W, 204 m above sea level, and is 12 miles south of Hereford near the English-Welsh border. The site is registered by the World Meteorological Organisation (WMO) as a Global Atmospheric Watch (GAW) regional station. Measurements are made from two tower levels with one inlet at 45 m and the other inlet at 90 m. There are no major sources of local pollution; the surrounding area is sparsely populated and covered with arable land.\r\nRidge Hill tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 41188, "uuid": "00f1af3b2e4e45b19b6abcf950015001", "short_code": "instr", "title": "University of Bristol GC-ECD A", "abstract": "A trace gas analyser that employs gas chromatography with electron capture detection (GC-ECD) to make measurements of N2O and SF6, used at Ridge Hill atmospheric monitoring station. This instrument uses an Agilent 7890A GC (serial number: CN11171049) equipped with a micro-ECD - see Stanley et al. (2018) for more instrument details: https://doi.org/10.5194/amt-11-1437-2018" }, "relatedTo": { "ob_id": 43162, "uuid": "85843262fabd4acbb353405d1e13f39e", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V24.01", "abstract": "UK-DECC trace species measurements at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 14051, "platform": { "ob_id": 26742, "uuid": "77da748a80e44c319b58937816b5c921", "short_code": "plat", "title": "Bilsdale Tower, North Yorkshire", "abstract": "Bilsdale (BSD) tall tower is in a remote area of the North York Moors National Park and is the first monitoring site in the northeast region of England. The closest large conurbations are York and Middlesbrough, located 30 miles south and 16 miles northeast, respectively. The tower is on a high plateau overlooking green valleys used mainly for livestock (sheep and cattle).\r\nBilsdale tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 43160, "uuid": "a96c54ea58424272b3b00eb389b39dd4", "short_code": "instr", "title": "University of Bristol Picarro G5310 A", "abstract": "A Picarro G5310 trace gas analyser, serial number: JKADS5078, used at Bilsdale atmospheric monitoring station. The analyser uses cavity ringdown spectrocopy (CRDS) to make in situ measurements of N2O and CO in the mid-infrared spectral region - see Crosson et al. (2008) for details of this technique:\r\nhttps://doi.org/10.1007/s00340-008-3135-y" }, "relatedTo": { "ob_id": 43162, "uuid": "85843262fabd4acbb353405d1e13f39e", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V24.01", "abstract": "UK-DECC trace species measurements at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 14052, "platform": { "ob_id": 26748, "uuid": "61c42dd67918447d80ccf09aaec0ae0f", "short_code": "plat", "title": "Heathfield Tower, East Sussex", "abstract": "Heathfield (HFD) tall tower is in rural East Sussex, 20 km from the coast. The closest large conurbation (Royal Tunbridge Wells) is located 17 km NNE from the tower. The area surrounding the tower is >90 % woodland and agricultural green space with some residential (0.7 %) and light industrial areas (0.3 %)(East Sussex in figures, 2006). Notable local industry includes a large horticultural nursery located only 200 m north of the tower.\r\nHeathfield tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 43161, "uuid": "5b12d5a5350c4931a5e196a7c9e2bef3", "short_code": "instr", "title": "National Physical Laboratory Picarro G5310 A", "abstract": "A Picarro G5310 trace gas analyser, serial number: JKADS5069, used at Heathfield atmospheric monitoring station. The analyser uses cavity ringdown spectrocopy (CRDS) to make in situ measurements of N2O and CO in the mid-infrared spectral region - see Crosson et al. (2008) for details of this technique:\r\nhttps://doi.org/10.1007/s00340-008-3135-y." }, "relatedTo": { "ob_id": 43162, "uuid": "85843262fabd4acbb353405d1e13f39e", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V24.01", "abstract": "UK-DECC trace species measurements at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 14053, "platform": { "ob_id": 26742, "uuid": "77da748a80e44c319b58937816b5c921", "short_code": "plat", "title": "Bilsdale Tower, North Yorkshire", "abstract": "Bilsdale (BSD) tall tower is in a remote area of the North York Moors National Park and is the first monitoring site in the northeast region of England. The closest large conurbations are York and Middlesbrough, located 30 miles south and 16 miles northeast, respectively. The tower is on a high plateau overlooking green valleys used mainly for livestock (sheep and cattle).\r\nBilsdale tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 41189, "uuid": "b325c041ffef4d32a709ceb9bc7e0506", "short_code": "instr", "title": "University of Bristol GC-ECD B", "abstract": "A trace gas analyser that employs gas chromatography with electron capture detection (GC-ECD) to make measurements of N2O and SF6, used at Bilsdale atmospheric monitoring station. This instrument uses an Agilent 7890A GC (serial number: CN13111012) equipped with a micro-ECD - see Stanley et al. (2018) for\r\nmore instrument details: https://doi.org/10.5194/amt-11-1437-2018" }, "relatedTo": { "ob_id": 43162, "uuid": "85843262fabd4acbb353405d1e13f39e", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V24.01", "abstract": "UK-DECC trace species measurements at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 14054, "platform": { "ob_id": 26748, "uuid": "61c42dd67918447d80ccf09aaec0ae0f", "short_code": "plat", "title": "Heathfield Tower, East Sussex", "abstract": "Heathfield (HFD) tall tower is in rural East Sussex, 20 km from the coast. The closest large conurbation (Royal Tunbridge Wells) is located 17 km NNE from the tower. The area surrounding the tower is >90 % woodland and agricultural green space with some residential (0.7 %) and light industrial areas (0.3 %)(East Sussex in figures, 2006). Notable local industry includes a large horticultural nursery located only 200 m north of the tower.\r\nHeathfield tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 41186, "uuid": "df0a514c6cc3485f9e049f4d332089af", "short_code": "instr", "title": "National Physical Laboratory Picarro G2401 A", "abstract": "A Picarro G2401 trace gas analyser, serial number: CFKADS2075, used at Heathfield atmospheric monitoring station. The analyser uses cavity ringdown spectrocopy (CRDS) to make in situ measurements of CO2, CH4 and CO in the near-infrared region - see Crosson et al. (2008) for details of this technique:\r\nhttps://doi.org/10.1007/s00340-008-3135-y." }, "relatedTo": { "ob_id": 43162, "uuid": "85843262fabd4acbb353405d1e13f39e", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V24.01", "abstract": "UK-DECC trace species measurements at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 14055, "platform": { "ob_id": 11947, "uuid": "d4222e3cacd846f19c140b8a21f3ea97", "short_code": "plat", "title": "University of Birmingham", "abstract": "University of Birmingham https://www.birmingham.ac.uk/" }, "instrument": { "ob_id": 40246, "uuid": "157ad90bfae14ead87d00abaad171c46", "short_code": "instr", "title": "QUANT Vortex IoT VTX Air", "abstract": "Low-cost instrument (make: Vortex IoT, model VTX Air) measuring air quality as part of the QUANT Wider Participation study. Has sensors that measure: O3, NO2, PM10, PM2.5.\r\n\r\n\r\nSerial numbers :\r\nMAN_AQM_02\r\nMAN_AQM_03\r\nMAN_AQM_04" }, "relatedTo": { "ob_id": 43186, "uuid": "3d0e3ae52c0b43ec9ab7ed193e9a99f4", "short_code": "acq", "title": "Birmingham Urban Observatory & West Midlands Air Quality Data", "abstract": "This dataset contains air quality data (PM2.5 concentrations) from a series of low-cost sensors deployed by Birmingham Urban Observatory & West Midlands Air.\r\n\r\nThese sensors record PM2.5 in ugm-3. \r\n\r\nformat: Data are CSV formatted" } }, { "ob_id": 14056, "platform": { "ob_id": 26748, "uuid": "61c42dd67918447d80ccf09aaec0ae0f", "short_code": "plat", "title": "Heathfield Tower, East Sussex", "abstract": "Heathfield (HFD) tall tower is in rural East Sussex, 20 km from the coast. The closest large conurbation (Royal Tunbridge Wells) is located 17 km NNE from the tower. The area surrounding the tower is >90 % woodland and agricultural green space with some residential (0.7 %) and light industrial areas (0.3 %)(East Sussex in figures, 2006). Notable local industry includes a large horticultural nursery located only 200 m north of the tower.\r\nHeathfield tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 41190, "uuid": "7e7265e8c7bc4d3cb188195eeecaaa3f", "short_code": "instr", "title": "National Physical Laboratory GC-ECD A", "abstract": "A trace gas analyser that employs gas chromatography with electron capture detection (GC-ECD) to make measurements of N2O and SF6, used at Heathfield atmospheric monitoring station. This instrument uses an Agilent 7890A GC (serial number: CN13111010) equipped with a micro-ECD - see Stanley et al. (2018) for more instrument details: https://doi.org/10.5194/amt-11-1437-2018" }, "relatedTo": { "ob_id": 43188, "uuid": "f1210dc7082943d8b5f2fe9e1553de62", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V24.09", "abstract": "UK-DECC trace species measurements including radon at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 14057, "platform": { "ob_id": 27473, "uuid": "a18f43456c364789aac726ed365e41d1", "short_code": "plat", "title": "Tacolneston tall tower, Norfolk", "abstract": "Tacolneston (TAC) tall tower is located on the east coast of England, 16 km from Norwich in Norfolk, UK. Lines sample air at 54, 100, and 185 m.a.g.l. from an open-lattice telecommunications tower at 56 m.a.s.l. The land surrounding the tower is largely arable farming.\r\n\r\nTacolneston tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 41191, "uuid": "c00ad9c3663643f1a9aa635e324f2336", "short_code": "instr", "title": "University of Bristol GC-MD A", "abstract": "A gas chromatography multi-detector (GC-MD) trace gas analyser that uses electron capture detection (GC-ECD) to make measurements of N2O and SF6 and a reduction gas analyser (GC-RGA) to make measurements of CO and H2, used at Tacolneston atmospheric monitoring station. This instrument uses an Agilent 6890N GC (serial number: US10335065) equipped with a micro-ECD and a Peak Performer 1 - see Stanley et al. (2018) for more instrument details: https://doi.org/10.5194/amt-11-1437-2018" }, "relatedTo": { "ob_id": 43188, "uuid": "f1210dc7082943d8b5f2fe9e1553de62", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V24.09", "abstract": "UK-DECC trace species measurements including radon at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 14058, "platform": { "ob_id": 27473, "uuid": "a18f43456c364789aac726ed365e41d1", "short_code": "plat", "title": "Tacolneston tall tower, Norfolk", "abstract": "Tacolneston (TAC) tall tower is located on the east coast of England, 16 km from Norwich in Norfolk, UK. Lines sample air at 54, 100, and 185 m.a.g.l. from an open-lattice telecommunications tower at 56 m.a.s.l. The land surrounding the tower is largely arable farming.\r\n\r\nTacolneston tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 41192, "uuid": "725a35dac1aa4d60b671cc73947d712e", "short_code": "instr", "title": "University of Bristol Medusa GC-MS A", "abstract": "A trace gas analyser that uses gas chromatography-mass spectrometry (GC-MS) with a Medusa pre-concentration unit (serial number: Medusa13) to make measurements of a wide range of greenhouse gases and ozone-depleting substances, used at Tacolneston atmospheric monitoring station. See Miller et al. (2008) for more instrument details: https://doi.org/10.5194/10.1021/ac702084k" }, "relatedTo": { "ob_id": 43188, "uuid": "f1210dc7082943d8b5f2fe9e1553de62", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V24.09", "abstract": "UK-DECC trace species measurements including radon at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 14059, "platform": { "ob_id": 27560, "uuid": "0c1d766f72c24a77a2afa835b5eca11e", "short_code": "plat", "title": "Ridge Hill Tall Tower, nr Hereford", "abstract": "Ridge Hill tower is located near Hereford, England.\r\n\r\nThe Ridge Hill tower (RGL) began measuring trace gases (CO2, CH4, N2O and SF6) in March 2012. This site is located at 51.9975 N 2.5400 W, 204 m above sea level, and is 12 miles south of Hereford near the English-Welsh border. The site is registered by the World Meteorological Organisation (WMO) as a Global Atmospheric Watch (GAW) regional station. Measurements are made from two tower levels with one inlet at 45 m and the other inlet at 90 m. There are no major sources of local pollution; the surrounding area is sparsely populated and covered with arable land.\r\nRidge Hill tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 41183, "uuid": "6e2bfc4e8cc04b2baba698c8281d6e51", "short_code": "instr", "title": "University of Bristol Picarro G2301 A", "abstract": "A Picarro G2301 trace gas analyser, serial number: CFADS2179, used at Ridge Hill atmospheric monitoring station. The analyser uses cavity ringdown spectrocopy (CRDS) to make in situ measurements of CO2 and CH4 in the near-infrared region - see Crosson et al. (2008) for details of this technique: \r\nhttps://doi.org/10.1007/s00340-008-3135-y." }, "relatedTo": { "ob_id": 43188, "uuid": "f1210dc7082943d8b5f2fe9e1553de62", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V24.09", "abstract": "UK-DECC trace species measurements including radon at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 14060, "platform": { "ob_id": 27473, "uuid": "a18f43456c364789aac726ed365e41d1", "short_code": "plat", "title": "Tacolneston tall tower, Norfolk", "abstract": "Tacolneston (TAC) tall tower is located on the east coast of England, 16 km from Norwich in Norfolk, UK. Lines sample air at 54, 100, and 185 m.a.g.l. from an open-lattice telecommunications tower at 56 m.a.s.l. The land surrounding the tower is largely arable farming.\r\n\r\nTacolneston tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 41184, "uuid": "047c2462011f45608149d240fcb6cc62", "short_code": "instr", "title": "University of Bristol Picarro G2301 B", "abstract": "A Picarro G2301 trace gas analyser, serial number: CFADS2167, used at Tacolneston atmospheric monitoring station. The analyser uses cavity ringdown spectrocopy (CRDS) to make in situ measurements of CO2 and CH4 in the near-infrared region - see Crosson et al. (2008) for details of this technique:\r\nhttps://doi.org/10.1007/s00340-008-3135-y." }, "relatedTo": { "ob_id": 43188, "uuid": "f1210dc7082943d8b5f2fe9e1553de62", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V24.09", "abstract": "UK-DECC trace species measurements including radon at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 14061, "platform": { "ob_id": 26742, "uuid": "77da748a80e44c319b58937816b5c921", "short_code": "plat", "title": "Bilsdale Tower, North Yorkshire", "abstract": "Bilsdale (BSD) tall tower is in a remote area of the North York Moors National Park and is the first monitoring site in the northeast region of England. The closest large conurbations are York and Middlesbrough, located 30 miles south and 16 miles northeast, respectively. The tower is on a high plateau overlooking green valleys used mainly for livestock (sheep and cattle).\r\nBilsdale tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 41185, "uuid": "9ee1049592c7477a8136bd6b41df32d1", "short_code": "instr", "title": "University of Bristol Picarro G2401 A", "abstract": "A Picarro G2401 trace gas analyser, serial number: CFKADS2094, used at Bilsdale atmospheric monitoring station. The analyser uses cavity ringdown spectrocopy (CRDS) to make in situ measurements of CO2, CH4 and CO in the near-infrared region - see Crosson et al. (2008) for details of this technique:\r\nhttps://doi.org/10.1007/s00340-008-3135-y." }, "relatedTo": { "ob_id": 43188, "uuid": "f1210dc7082943d8b5f2fe9e1553de62", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V24.09", "abstract": "UK-DECC trace species measurements including radon at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 14062, "platform": { "ob_id": 27473, "uuid": "a18f43456c364789aac726ed365e41d1", "short_code": "plat", "title": "Tacolneston tall tower, Norfolk", "abstract": "Tacolneston (TAC) tall tower is located on the east coast of England, 16 km from Norwich in Norfolk, UK. Lines sample air at 54, 100, and 185 m.a.g.l. from an open-lattice telecommunications tower at 56 m.a.s.l. The land surrounding the tower is largely arable farming.\r\n\r\nTacolneston tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 41187, "uuid": "aca6eaf18a7c48ce86d244ec7abf7b48", "short_code": "instr", "title": "University of Bristol LGR 913-0015 A", "abstract": "A Los Gatos Research (LGR) 913-0015 trace gas analyser, serial number: 14-0244, used at Tacolneston atmospheric monitoring station. The analyser uses off-axis integrated cavity output spectroscopy (OA-ICOS) to make in situ measurements of N2O and CO in the mid-infrared spectral region - see Baer et al. (2002) for details of this technique: https://doi.org/10.1007/s00340-002-0971-z" }, "relatedTo": { "ob_id": 43188, "uuid": "f1210dc7082943d8b5f2fe9e1553de62", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V24.09", "abstract": "UK-DECC trace species measurements including radon at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 14063, "platform": { "ob_id": 27560, "uuid": "0c1d766f72c24a77a2afa835b5eca11e", "short_code": "plat", "title": "Ridge Hill Tall Tower, nr Hereford", "abstract": "Ridge Hill tower is located near Hereford, England.\r\n\r\nThe Ridge Hill tower (RGL) began measuring trace gases (CO2, CH4, N2O and SF6) in March 2012. This site is located at 51.9975 N 2.5400 W, 204 m above sea level, and is 12 miles south of Hereford near the English-Welsh border. The site is registered by the World Meteorological Organisation (WMO) as a Global Atmospheric Watch (GAW) regional station. Measurements are made from two tower levels with one inlet at 45 m and the other inlet at 90 m. There are no major sources of local pollution; the surrounding area is sparsely populated and covered with arable land.\r\nRidge Hill tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 41188, "uuid": "00f1af3b2e4e45b19b6abcf950015001", "short_code": "instr", "title": "University of Bristol GC-ECD A", "abstract": "A trace gas analyser that employs gas chromatography with electron capture detection (GC-ECD) to make measurements of N2O and SF6, used at Ridge Hill atmospheric monitoring station. This instrument uses an Agilent 7890A GC (serial number: CN11171049) equipped with a micro-ECD - see Stanley et al. (2018) for more instrument details: https://doi.org/10.5194/amt-11-1437-2018" }, "relatedTo": { "ob_id": 43188, "uuid": "f1210dc7082943d8b5f2fe9e1553de62", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V24.09", "abstract": "UK-DECC trace species measurements including radon at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 14064, "platform": { "ob_id": 26742, "uuid": "77da748a80e44c319b58937816b5c921", "short_code": "plat", "title": "Bilsdale Tower, North Yorkshire", "abstract": "Bilsdale (BSD) tall tower is in a remote area of the North York Moors National Park and is the first monitoring site in the northeast region of England. The closest large conurbations are York and Middlesbrough, located 30 miles south and 16 miles northeast, respectively. The tower is on a high plateau overlooking green valleys used mainly for livestock (sheep and cattle).\r\nBilsdale tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 43160, "uuid": "a96c54ea58424272b3b00eb389b39dd4", "short_code": "instr", "title": "University of Bristol Picarro G5310 A", "abstract": "A Picarro G5310 trace gas analyser, serial number: JKADS5078, used at Bilsdale atmospheric monitoring station. The analyser uses cavity ringdown spectrocopy (CRDS) to make in situ measurements of N2O and CO in the mid-infrared spectral region - see Crosson et al. (2008) for details of this technique:\r\nhttps://doi.org/10.1007/s00340-008-3135-y" }, "relatedTo": { "ob_id": 43188, "uuid": "f1210dc7082943d8b5f2fe9e1553de62", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V24.09", "abstract": "UK-DECC trace species measurements including radon at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 14065, "platform": { "ob_id": 26748, "uuid": "61c42dd67918447d80ccf09aaec0ae0f", "short_code": "plat", "title": "Heathfield Tower, East Sussex", "abstract": "Heathfield (HFD) tall tower is in rural East Sussex, 20 km from the coast. The closest large conurbation (Royal Tunbridge Wells) is located 17 km NNE from the tower. The area surrounding the tower is >90 % woodland and agricultural green space with some residential (0.7 %) and light industrial areas (0.3 %)(East Sussex in figures, 2006). Notable local industry includes a large horticultural nursery located only 200 m north of the tower.\r\nHeathfield tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 43161, "uuid": "5b12d5a5350c4931a5e196a7c9e2bef3", "short_code": "instr", "title": "National Physical Laboratory Picarro G5310 A", "abstract": "A Picarro G5310 trace gas analyser, serial number: JKADS5069, used at Heathfield atmospheric monitoring station. The analyser uses cavity ringdown spectrocopy (CRDS) to make in situ measurements of N2O and CO in the mid-infrared spectral region - see Crosson et al. (2008) for details of this technique:\r\nhttps://doi.org/10.1007/s00340-008-3135-y." }, "relatedTo": { "ob_id": 43188, "uuid": "f1210dc7082943d8b5f2fe9e1553de62", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V24.09", "abstract": "UK-DECC trace species measurements including radon at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 14066, "platform": { "ob_id": 26742, "uuid": "77da748a80e44c319b58937816b5c921", "short_code": "plat", "title": "Bilsdale Tower, North Yorkshire", "abstract": "Bilsdale (BSD) tall tower is in a remote area of the North York Moors National Park and is the first monitoring site in the northeast region of England. The closest large conurbations are York and Middlesbrough, located 30 miles south and 16 miles northeast, respectively. The tower is on a high plateau overlooking green valleys used mainly for livestock (sheep and cattle).\r\nBilsdale tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 41189, "uuid": "b325c041ffef4d32a709ceb9bc7e0506", "short_code": "instr", "title": "University of Bristol GC-ECD B", "abstract": "A trace gas analyser that employs gas chromatography with electron capture detection (GC-ECD) to make measurements of N2O and SF6, used at Bilsdale atmospheric monitoring station. This instrument uses an Agilent 7890A GC (serial number: CN13111012) equipped with a micro-ECD - see Stanley et al. (2018) for\r\nmore instrument details: https://doi.org/10.5194/amt-11-1437-2018" }, "relatedTo": { "ob_id": 43188, "uuid": "f1210dc7082943d8b5f2fe9e1553de62", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V24.09", "abstract": "UK-DECC trace species measurements including radon at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 14067, "platform": { "ob_id": 26748, "uuid": "61c42dd67918447d80ccf09aaec0ae0f", "short_code": "plat", "title": "Heathfield Tower, East Sussex", "abstract": "Heathfield (HFD) tall tower is in rural East Sussex, 20 km from the coast. The closest large conurbation (Royal Tunbridge Wells) is located 17 km NNE from the tower. The area surrounding the tower is >90 % woodland and agricultural green space with some residential (0.7 %) and light industrial areas (0.3 %)(East Sussex in figures, 2006). Notable local industry includes a large horticultural nursery located only 200 m north of the tower.\r\nHeathfield tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 41186, "uuid": "df0a514c6cc3485f9e049f4d332089af", "short_code": "instr", "title": "National Physical Laboratory Picarro G2401 A", "abstract": "A Picarro G2401 trace gas analyser, serial number: CFKADS2075, used at Heathfield atmospheric monitoring station. The analyser uses cavity ringdown spectrocopy (CRDS) to make in situ measurements of CO2, CH4 and CO in the near-infrared region - see Crosson et al. (2008) for details of this technique:\r\nhttps://doi.org/10.1007/s00340-008-3135-y." }, "relatedTo": { "ob_id": 43188, "uuid": "f1210dc7082943d8b5f2fe9e1553de62", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V24.09", "abstract": "UK-DECC trace species measurements including radon at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 14068, "platform": { "ob_id": 27560, "uuid": "0c1d766f72c24a77a2afa835b5eca11e", "short_code": "plat", "title": "Ridge Hill Tall Tower, nr Hereford", "abstract": "Ridge Hill tower is located near Hereford, England.\r\n\r\nThe Ridge Hill tower (RGL) began measuring trace gases (CO2, CH4, N2O and SF6) in March 2012. This site is located at 51.9975 N 2.5400 W, 204 m above sea level, and is 12 miles south of Hereford near the English-Welsh border. The site is registered by the World Meteorological Organisation (WMO) as a Global Atmospheric Watch (GAW) regional station. Measurements are made from two tower levels with one inlet at 45 m and the other inlet at 90 m. There are no major sources of local pollution; the surrounding area is sparsely populated and covered with arable land.\r\nRidge Hill tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 43192, "uuid": "8918dfc45b3f43e7a1b0f8a81d80bda7", "short_code": "instr", "title": "University of Bristol ANSTO radon A", "abstract": "The Australian Nuclear Science and Technology Organisations (ANSTO) 1500L low-level radon monitor provides a unique technology for highly sensitive measurements of atmospheric radon (< 100 mBq m-3) and is recognised by the World Meteorological Organisation (WMO) as the best in the world for global and atmospheric compositional baseline studies. The ANSTO dual-flow-loop two-filter works by removing all ambient radon (222Rn) and thoron (220Rn) progeny in the sampled air from the airstream using a filter before the air passes into a large delay volume to allow for the decay of the short-lived isotope 220Rn. The sample air in the detector is passed through a flow loop at a flow rate designed to exchange the delay volume's air in approximately 20 minutes. This allows time for new radon progeny to form. A second flow loop circulates the volume of the delay chamber through the second filter (a low-impedance 625 mesh stainless steel screen) to collect all 218Po progeny. The newly formed progeny are collected on the second filter and their decays are counted with a ZnS-photomultiplier system. Using the flow rate and the count rate the atmospheric 222Rn concentrations can be calculated. This analyser has been used at Ridge Hill atmospheric monitoring station." }, "relatedTo": { "ob_id": 43188, "uuid": "f1210dc7082943d8b5f2fe9e1553de62", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V24.09", "abstract": "UK-DECC trace species measurements including radon at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 14069, "platform": { "ob_id": 27473, "uuid": "a18f43456c364789aac726ed365e41d1", "short_code": "plat", "title": "Tacolneston tall tower, Norfolk", "abstract": "Tacolneston (TAC) tall tower is located on the east coast of England, 16 km from Norwich in Norfolk, UK. Lines sample air at 54, 100, and 185 m.a.g.l. from an open-lattice telecommunications tower at 56 m.a.s.l. The land surrounding the tower is largely arable farming.\r\n\r\nTacolneston tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 43194, "uuid": "1abe608748fb4caf8318e3e38f2911f1", "short_code": "instr", "title": "University of Bristol ANSTO radon B", "abstract": "The Australian Nuclear Science and Technology Organisations (ANSTO) 1500L low-level radon monitor provides a unique technology for highly sensitive measurements\r\n of atmospheric radon (< 100 mBq m-3) and is recognised by the World Meteorological Organisation (WMO) as the best in the world for global and atmospheric\r\n compositional baseline studies. The ANSTO dual-flow-loop two-filter works by removing all ambient radon (222Rn) and thoron (220Rn) progeny in the sampled air\r\n from the airstream using a filter before the air passes into a large delay volume to allow for the decay of the short-lived isotope 220Rn. The sample air in the\r\n detector is passed through a flow loop at a flow rate designed to exchange the delay volume's air in approximately 20 minutes. This allows time for new radon\r\n progeny to form. A second flow loop circulates the volume of the delay chamber through the second filter (a low-impedance 625 mesh stainless steel screen) to\r\n collect all 218Po progeny. The newly formed progeny are collected on the second filter and their decays are counted with a ZnS-photomultiplier system. Using the\r\n flow rate and the count rate the atmospheric 222Rn concentrations can be calculated. This analyser has been used at Tacolneston atmospheric monitoring station." }, "relatedTo": { "ob_id": 43188, "uuid": "f1210dc7082943d8b5f2fe9e1553de62", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V24.09", "abstract": "UK-DECC trace species measurements including radon at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 14070, "platform": { "ob_id": 26748, "uuid": "61c42dd67918447d80ccf09aaec0ae0f", "short_code": "plat", "title": "Heathfield Tower, East Sussex", "abstract": "Heathfield (HFD) tall tower is in rural East Sussex, 20 km from the coast. The closest large conurbation (Royal Tunbridge Wells) is located 17 km NNE from the tower. The area surrounding the tower is >90 % woodland and agricultural green space with some residential (0.7 %) and light industrial areas (0.3 %)(East Sussex in figures, 2006). Notable local industry includes a large horticultural nursery located only 200 m north of the tower.\r\nHeathfield tower is part of the UK Deriving Emissions linked to Climate Change (UK-DECC) Network." }, "instrument": { "ob_id": 43195, "uuid": "a6f65a61de0f44d7b8c3ba24cfb72cb7", "short_code": "instr", "title": "National Physical Laboratory ANSTO radon A", "abstract": "The Australian Nuclear Science and Technology Organisations (ANSTO) 1500L low-level radon monitor provides a unique technology for highly sensitive measurements\r\n of atmospheric radon (< 100 mBq m-3) and is recognised by the World Meteorological Organisation (WMO) as the best in the world for global and atmospheric\r\n compositional baseline studies. The ANSTO dual-flow-loop two-filter works by removing all ambient radon (222Rn) and thoron (220Rn) progeny in the sampled air\r\n from the airstream using a filter before the air passes into a large delay volume to allow for the decay of the short-lived isotope 220Rn. The sample air in the\r\n detector is passed through a flow loop at a flow rate designed to exchange the delay volume's air in approximately 20 minutes. This allows time for new radon\r\n progeny to form. A second flow loop circulates the volume of the delay chamber through the second filter (a low-impedance 625 mesh stainless steel screen) to\r\n collect all 218Po progeny. The newly formed progeny are collected on the second filter and their decays are counted with a ZnS-photomultiplier system. Using the\r\n flow rate and the count rate the atmospheric 222Rn concentrations can be calculated. This analyser has been used at Heathfield atmospheric monitoring station." }, "relatedTo": { "ob_id": 43188, "uuid": "f1210dc7082943d8b5f2fe9e1553de62", "short_code": "acq", "title": "UK-DECC trace species measurements at UK-DECC network sites V24.09", "abstract": "UK-DECC trace species measurements including radon at UK-DECC network sites including Ridge Hill Tall Tower, Bilsdale Tall Tower, Heathfield Tall Tower and Tacolneston Tall Tower." } }, { "ob_id": 14071, "platform": { "ob_id": 8246, "uuid": "e9c4a76ba5b64ede82a20d7d69da47a2", "short_code": "plat", "title": "Landsat 5", "abstract": "A nearly identical satellite to Landsat 4, Landsat 5 was launched as part of the Landsat programme in March 1984 and was operational until June 2013. As Landsat 4, it carried Thematic Mapper (TM) and MultiSpectral Scanner (MSS) instruments." }, "instrument": { "ob_id": 8248, "uuid": "c7d350b1ec99448187607ec46c4ce35e", "short_code": "instr", "title": "Landsat Thematic Mapper (TM)", "abstract": "The Thematic Mapper (TM) is one of the Earth observing sensors introduced in the Landsat program. TMs were placed aboard the Landsat 4 and 5 satellites. The wavelength range for the Thematic Mapper (TM) sensor is from the visible, through the Mid-IR, into the Thermal-IR portion of the electromagnetic spectrum." }, "relatedTo": { "ob_id": 43206, "uuid": "b6a3a04f2ed84d2b9e9d4edf9c8667d0", "short_code": "acq", "title": "Acquisition process for the ESA River Discharge Climate Change Initiative (RD_cci): Multispectral indices-based River Discharge Product, v1.2", "abstract": "The river discharge time series provided in the ESA River Discharge Climate Change Initiative (RD_cci) product have been computed at different locations from several satellite multispectral missions (Landsat-5, -7, -8, -9, MODIS Aqua, MODIS Terra, Sentinel-3 A/B OLCI, Sentinel-2 MSI). At each location, time series are provided for each available single sensor and then merged in a unique time series." } }, { "ob_id": 14072, "platform": { "ob_id": 8256, "uuid": "385d8284709749b9a29d33c07670c4fd", "short_code": "plat", "title": "Landsat 7", "abstract": "Landsat 7 was launched as a continuation of the Landsat programme on 15th April 1999 and is still operational as of July 2014. A three-axis attitude control subsystem stabilizes the satellite and keeps the instrument pointed toward Earth to within 0.05 degrees. The LANDSAT World-Wide-Reference system catalogues the worlds land mass into 57,784 scenes, each 115 miles (183 kilometres) wide by 106 miles (170 kilometres) long.\r\n\r\nLaunch date: 15/04/1999\r\nStatus/projected mission lifetime: 5 years +\r\nOrbit parameters: near circular\r\nNominal altitude: 705 km\r\nOrbit type:\t near-polar, sun-synchronous\r\nInclination: 98.2 degrees\r\nRepeat period: 16 days\r\nEquatorial crossing time: 10.00 local time (descending node)\r\nSwath width: 183 km\r\nResolution: 15 - 60 m \r\nSpecial features: Panchromatic band, thermal band with 2 gain settings" }, "instrument": { "ob_id": 8257, "uuid": "dfc450e6a1d54b40b8927c7d0de2de21", "short_code": "instr", "title": "Enhanced Thematic Mapper Plus (ETM+)", "abstract": "The Enhanced Thematic Mapper Plus (ETM+) instrument is a fixed 'whisk-broom', eight-band, multispectral scanning radiometer capable of providing high-resolution imaging information of the Earth's surface onboard Landsat 7. The main improvement from the Landsat 4/5 Thematic Mappers (TMs) is the addition of a panchromatic band with 15 m spatial resolution.\r\nSpectral and spatial characteristics of these bands are shown below.\r\n\r\nBand no. 1\r\nSpectral range .450 to .515 micrometres Ground resolution: 30 m\r\nBand no. 2\r\nSpectral range .525 to .605 micrometres Ground resolution: 30 m\r\nBand no. 3\r\nSpectral range .630 to .690 micrometres Ground resolution: 30 m\r\nBand no. 4\r\nSpectral range .775 to .900 micrometres Ground resolution: 30 m\r\nBand no. 5\r\nSpectral range 1.550 to 1.750 micrometres Ground resolution: 30 m\r\nBand no. 6\r\nSpectral range 10.40 to 12.50 micrometres Ground resolution: 60 m\r\nBand no. 7\r\nSpectral range 2.090 to 2.35 micrometres Ground resolution: 30 m\r\nBand no. 8\r\nSpectral range .520 to .900 micrometres Ground resolution: 15 m" }, "relatedTo": { "ob_id": 43206, "uuid": "b6a3a04f2ed84d2b9e9d4edf9c8667d0", "short_code": "acq", "title": "Acquisition process for the ESA River Discharge Climate Change Initiative (RD_cci): Multispectral indices-based River Discharge Product, v1.2", "abstract": "The river discharge time series provided in the ESA River Discharge Climate Change Initiative (RD_cci) product have been computed at different locations from several satellite multispectral missions (Landsat-5, -7, -8, -9, MODIS Aqua, MODIS Terra, Sentinel-3 A/B OLCI, Sentinel-2 MSI). At each location, time series are provided for each available single sensor and then merged in a unique time series." } }, { "ob_id": 14073, "platform": { "ob_id": 12358, "uuid": "0ed62573c69a4f8ab46ea898ef0650a1", "short_code": "plat", "title": "Landsat 8", "abstract": "The Landsat 8 satellite was launched on 11th February 2013. It is a joint collaboration between the National Aeronautics and Space Administration (NASA) and the United States Geological Survey (USGS). It was initially named the Landsat Continuity Mission but was later renamed Landsat 8. The Landsat 8 mission provides 16 bit high quality land surface data. It is offset by 8 days from Landsat 7 has a 16 day repeat cycle. The Landsat 8 payload consists of the Operational Land Imager (OLI) and the Thermal Infrared Sensor (TIRS). The OLI provides multispectral data in the visible, near infrared and shortwave infrared as well as a panchromatic band. The TIRS instrument provides data in two thermal infrared bands." }, "instrument": { "ob_id": 43205, "uuid": "f1b4d54cc871486689fb749aeeb59d83", "short_code": "instr", "title": "Operational Land Imager (OLI)", "abstract": "The Operational Land Imager (OLI) is an instrument on board the Landsat 8 and 9 platforms. It provides images of the Earth's surface in the visible, near infrared, shortwave infrared." }, "relatedTo": { "ob_id": 43206, "uuid": "b6a3a04f2ed84d2b9e9d4edf9c8667d0", "short_code": "acq", "title": "Acquisition process for the ESA River Discharge Climate Change Initiative (RD_cci): Multispectral indices-based River Discharge Product, v1.2", "abstract": "The river discharge time series provided in the ESA River Discharge Climate Change Initiative (RD_cci) product have been computed at different locations from several satellite multispectral missions (Landsat-5, -7, -8, -9, MODIS Aqua, MODIS Terra, Sentinel-3 A/B OLCI, Sentinel-2 MSI). At each location, time series are provided for each available single sensor and then merged in a unique time series." } }, { "ob_id": 14074, "platform": { "ob_id": 43204, "uuid": "6ae5c12b3a02495f86d54ab8184947e4", "short_code": "plat", "title": "Landsat 9", "abstract": "The Landsat 9 satellite was launched in 2021." }, "instrument": { "ob_id": 43205, "uuid": "f1b4d54cc871486689fb749aeeb59d83", "short_code": "instr", "title": "Operational Land Imager (OLI)", "abstract": "The Operational Land Imager (OLI) is an instrument on board the Landsat 8 and 9 platforms. It provides images of the Earth's surface in the visible, near infrared, shortwave infrared." }, "relatedTo": { "ob_id": 43206, "uuid": "b6a3a04f2ed84d2b9e9d4edf9c8667d0", "short_code": "acq", "title": "Acquisition process for the ESA River Discharge Climate Change Initiative (RD_cci): Multispectral indices-based River Discharge Product, v1.2", "abstract": "The river discharge time series provided in the ESA River Discharge Climate Change Initiative (RD_cci) product have been computed at different locations from several satellite multispectral missions (Landsat-5, -7, -8, -9, MODIS Aqua, MODIS Terra, Sentinel-3 A/B OLCI, Sentinel-2 MSI). At each location, time series are provided for each available single sensor and then merged in a unique time series." } }, { "ob_id": 14075, "platform": { "ob_id": 10906, "uuid": "5a1076bffc8c4c5d8a2ff3a4cfb29846", "short_code": "plat", "title": "Aqua Satellite, part of the Earth Observation System Afternoon Constellation (EOS-PM)", "abstract": "Aqua, launched on 4th April 2002, is a polar-orbiting satellite within the Afternoon Constellation (A-Train) that have equator crossings around 13:30 and 01:30 under NASA's Earth Obseration System (EOS). The satellite carries Atmospheric Infrared Sounder (AIRS), Advanced Microwave Sounding Unit (AMSU-A), Humidity Sounder for Brazil (HSB), Advanced Microwave Scanning Radiometer for EOS (AMSR-E), Moderate-Resolution Imaging Spectroradiometer (MODIS) and Clouds and the Earth's Radiant Energy System (CERES), and these collect data on the Earth's atmospheric conditions, snow and ice, sea surface temperature and ocean productivity, and soil moisture. Aqua was the first member launched of a group of satellites termed the Afternoon Constellation, or sometimes the A-Train. " }, "instrument": { "ob_id": 10898, "uuid": "1a661d783a824fe8979faca4b9457fab", "short_code": "instr", "title": "Moderate Resolution Imaging Spectroradiometer (MODIS)", "abstract": "The Moderate Resolution Imaging Spectroradiometer (MODIS) provides high radiometric sensitivity in 36 spectral bands ranging from 0.4 to 14.4 micrometres. Two bands are imaged at a nominal resolution of 250 m at nadir, with five bands at 500 m, and the remaining 29 bands at 1 km. There are two MODIS instruments in operation; one on the Terra satellite and the other on the Aqua satellite, launched in 1999 and 2002 respectively. A +/- 55-degree scanning pattern at the EOS orbit of 705 km, which both satellites are on, results in a 2,330-km swath. Global coverage is provided once every one to two days. " }, "relatedTo": { "ob_id": 43206, "uuid": "b6a3a04f2ed84d2b9e9d4edf9c8667d0", "short_code": "acq", "title": "Acquisition process for the ESA River Discharge Climate Change Initiative (RD_cci): Multispectral indices-based River Discharge Product, v1.2", "abstract": "The river discharge time series provided in the ESA River Discharge Climate Change Initiative (RD_cci) product have been computed at different locations from several satellite multispectral missions (Landsat-5, -7, -8, -9, MODIS Aqua, MODIS Terra, Sentinel-3 A/B OLCI, Sentinel-2 MSI). At each location, time series are provided for each available single sensor and then merged in a unique time series." } }, { "ob_id": 14076, "platform": { "ob_id": 10897, "uuid": "fc7da890b6424fb29bc5aadcda252bf3", "short_code": "plat", "title": "Terra Satellite, part of the Earth Observation System Morning Constellation (EOS-AM)", "abstract": "Terra, launched on 18th December 1999, is a polar-orbiting satellite within the Morning Constellation that have equator crossings around 10:30 and 22:30 under NASA's Earth Obseration System (EOS).\r\n\r\nOn February 24, 2000, Terra began collecting what was aimed to ultimately become a new, 15-year global data set on which to base scientific investigations about our complex home planet. Together with the entire fleet of EOS spacecraft, Terra is helping scientists unravel the mysteries of climate and environmental change.\r\n\r\nThe satellite carries the Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER), the Clouds and Earth's Radiant Energy System (CERES), the Measurements of Pollution in the Troposphere (MOPITT), the Moderate Resolution Imaging Spectroradiometer (MODIS) and the Multi-angle Imaging Spectroradiometer (MISR), and these collect data on the Earth's atmosphere, ocean, land, snow and ice, and energy budget." }, "instrument": { "ob_id": 10898, "uuid": "1a661d783a824fe8979faca4b9457fab", "short_code": "instr", "title": "Moderate Resolution Imaging Spectroradiometer (MODIS)", "abstract": "The Moderate Resolution Imaging Spectroradiometer (MODIS) provides high radiometric sensitivity in 36 spectral bands ranging from 0.4 to 14.4 micrometres. Two bands are imaged at a nominal resolution of 250 m at nadir, with five bands at 500 m, and the remaining 29 bands at 1 km. There are two MODIS instruments in operation; one on the Terra satellite and the other on the Aqua satellite, launched in 1999 and 2002 respectively. A +/- 55-degree scanning pattern at the EOS orbit of 705 km, which both satellites are on, results in a 2,330-km swath. Global coverage is provided once every one to two days. " }, "relatedTo": { "ob_id": 43206, "uuid": "b6a3a04f2ed84d2b9e9d4edf9c8667d0", "short_code": "acq", "title": "Acquisition process for the ESA River Discharge Climate Change Initiative (RD_cci): Multispectral indices-based River Discharge Product, v1.2", "abstract": "The river discharge time series provided in the ESA River Discharge Climate Change Initiative (RD_cci) product have been computed at different locations from several satellite multispectral missions (Landsat-5, -7, -8, -9, MODIS Aqua, MODIS Terra, Sentinel-3 A/B OLCI, Sentinel-2 MSI). At each location, time series are provided for each available single sensor and then merged in a unique time series." } }, { "ob_id": 14077, "platform": { "ob_id": 13187, "uuid": "05405d4d4caa47d2889e33b66511fa9b", "short_code": "plat", "title": "Sentinel 2A", "abstract": "Sentinel 2A was launched by the European Space Agency (ESA) to become the second part of the Sentinel series. The satellite was launched on 23rd June 2015." }, "instrument": { "ob_id": 13182, "uuid": "56c6780a9a1d450591dba5b9c848b7c2", "short_code": "instr", "title": "Sentinel 2 Multispectral Instrument (MSI)", "abstract": "Data from the Multispectral Instrument (MSI) on the Sentinel 2 series. Sentinel 2A was launched on 23rd June 2015 and Sentinel 2B was launch in March 2017. The instrument provides high-resolution optical imaging data of the Earth's surface." }, "relatedTo": { "ob_id": 43206, "uuid": "b6a3a04f2ed84d2b9e9d4edf9c8667d0", "short_code": "acq", "title": "Acquisition process for the ESA River Discharge Climate Change Initiative (RD_cci): Multispectral indices-based River Discharge Product, v1.2", "abstract": "The river discharge time series provided in the ESA River Discharge Climate Change Initiative (RD_cci) product have been computed at different locations from several satellite multispectral missions (Landsat-5, -7, -8, -9, MODIS Aqua, MODIS Terra, Sentinel-3 A/B OLCI, Sentinel-2 MSI). At each location, time series are provided for each available single sensor and then merged in a unique time series." } }, { "ob_id": 14078, "platform": { "ob_id": 25277, "uuid": "0bbb6de9c89b403aba5a2aacf53ec19e", "short_code": "plat", "title": "Sentinel 2B", "abstract": "Sentinel 2B was launched by the European Space Agency (ESA) to become the second part of the Sentinel series alongside Sentinel 2A. The satellite was launched on 7th March 2016." }, "instrument": { "ob_id": 13182, "uuid": "56c6780a9a1d450591dba5b9c848b7c2", "short_code": "instr", "title": "Sentinel 2 Multispectral Instrument (MSI)", "abstract": "Data from the Multispectral Instrument (MSI) on the Sentinel 2 series. Sentinel 2A was launched on 23rd June 2015 and Sentinel 2B was launch in March 2017. The instrument provides high-resolution optical imaging data of the Earth's surface." }, "relatedTo": { "ob_id": 43206, "uuid": "b6a3a04f2ed84d2b9e9d4edf9c8667d0", "short_code": "acq", "title": "Acquisition process for the ESA River Discharge Climate Change Initiative (RD_cci): Multispectral indices-based River Discharge Product, v1.2", "abstract": "The river discharge time series provided in the ESA River Discharge Climate Change Initiative (RD_cci) product have been computed at different locations from several satellite multispectral missions (Landsat-5, -7, -8, -9, MODIS Aqua, MODIS Terra, Sentinel-3 A/B OLCI, Sentinel-2 MSI). At each location, time series are provided for each available single sensor and then merged in a unique time series." } }, { "ob_id": 14079, "platform": { "ob_id": 19017, "uuid": "f1fb7621240a45e895acdc686959b516", "short_code": "plat", "title": "Sentinel 3A", "abstract": "Sentinel 3A was launched by the European Space Agency (ESA) to become the third part of the Sentinel series. The satellite was launched on 16th February 2016." }, "instrument": { "ob_id": 19027, "uuid": "5ff900fe22954a91b678eef0af96758c", "short_code": "instr", "title": "Sentinel 3 Ocean and Land Colour Instrument (OLCI)", "abstract": "Ocean and Land Colour Instrument (OLCI) on board the Sentinel 3 satellite." }, "relatedTo": { "ob_id": 43206, "uuid": "b6a3a04f2ed84d2b9e9d4edf9c8667d0", "short_code": "acq", "title": "Acquisition process for the ESA River Discharge Climate Change Initiative (RD_cci): Multispectral indices-based River Discharge Product, v1.2", "abstract": "The river discharge time series provided in the ESA River Discharge Climate Change Initiative (RD_cci) product have been computed at different locations from several satellite multispectral missions (Landsat-5, -7, -8, -9, MODIS Aqua, MODIS Terra, Sentinel-3 A/B OLCI, Sentinel-2 MSI). At each location, time series are provided for each available single sensor and then merged in a unique time series." } }, { "ob_id": 14080, "platform": { "ob_id": 26990, "uuid": "3478f3a96c7e4610a1973a535ee6439e", "short_code": "plat", "title": "Sentinel 3B", "abstract": "Sentinel 3B was launched by the European Space Agency (ESA) to become the third part of the Sentinel series. The satellite was launched on 25th April 2018." }, "instrument": { "ob_id": 19027, "uuid": "5ff900fe22954a91b678eef0af96758c", "short_code": "instr", "title": "Sentinel 3 Ocean and Land Colour Instrument (OLCI)", "abstract": "Ocean and Land Colour Instrument (OLCI) on board the Sentinel 3 satellite." }, "relatedTo": { "ob_id": 43206, "uuid": "b6a3a04f2ed84d2b9e9d4edf9c8667d0", "short_code": "acq", "title": "Acquisition process for the ESA River Discharge Climate Change Initiative (RD_cci): Multispectral indices-based River Discharge Product, v1.2", "abstract": "The river discharge time series provided in the ESA River Discharge Climate Change Initiative (RD_cci) product have been computed at different locations from several satellite multispectral missions (Landsat-5, -7, -8, -9, MODIS Aqua, MODIS Terra, Sentinel-3 A/B OLCI, Sentinel-2 MSI). At each location, time series are provided for each available single sensor and then merged in a unique time series." } }, { "ob_id": 14081, "platform": { "ob_id": 8246, "uuid": "e9c4a76ba5b64ede82a20d7d69da47a2", "short_code": "plat", "title": "Landsat 5", "abstract": "A nearly identical satellite to Landsat 4, Landsat 5 was launched as part of the Landsat programme in March 1984 and was operational until June 2013. As Landsat 4, it carried Thematic Mapper (TM) and MultiSpectral Scanner (MSS) instruments." }, "instrument": { "ob_id": 8248, "uuid": "c7d350b1ec99448187607ec46c4ce35e", "short_code": "instr", "title": "Landsat Thematic Mapper (TM)", "abstract": "The Thematic Mapper (TM) is one of the Earth observing sensors introduced in the Landsat program. TMs were placed aboard the Landsat 4 and 5 satellites. The wavelength range for the Thematic Mapper (TM) sensor is from the visible, through the Mid-IR, into the Thermal-IR portion of the electromagnetic spectrum." }, "relatedTo": { "ob_id": 43211, "uuid": "283dc6501e0b43e9b3c91187ba1bcd16", "short_code": "acq", "title": "Acquisition process for the ESA River Discharge Climate Change Initiative (RD_cci): combined river discharge product, v1.0", "abstract": "The river discharge data from the combined river discharge product has been derived from data from both multispectral imagers and altimeters" } }, { "ob_id": 14082, "platform": { "ob_id": 8256, "uuid": "385d8284709749b9a29d33c07670c4fd", "short_code": "plat", "title": "Landsat 7", "abstract": "Landsat 7 was launched as a continuation of the Landsat programme on 15th April 1999 and is still operational as of July 2014. A three-axis attitude control subsystem stabilizes the satellite and keeps the instrument pointed toward Earth to within 0.05 degrees. The LANDSAT World-Wide-Reference system catalogues the worlds land mass into 57,784 scenes, each 115 miles (183 kilometres) wide by 106 miles (170 kilometres) long.\r\n\r\nLaunch date: 15/04/1999\r\nStatus/projected mission lifetime: 5 years +\r\nOrbit parameters: near circular\r\nNominal altitude: 705 km\r\nOrbit type:\t near-polar, sun-synchronous\r\nInclination: 98.2 degrees\r\nRepeat period: 16 days\r\nEquatorial crossing time: 10.00 local time (descending node)\r\nSwath width: 183 km\r\nResolution: 15 - 60 m \r\nSpecial features: Panchromatic band, thermal band with 2 gain settings" }, "instrument": { "ob_id": 8257, "uuid": "dfc450e6a1d54b40b8927c7d0de2de21", "short_code": "instr", "title": "Enhanced Thematic Mapper Plus (ETM+)", "abstract": "The Enhanced Thematic Mapper Plus (ETM+) instrument is a fixed 'whisk-broom', eight-band, multispectral scanning radiometer capable of providing high-resolution imaging information of the Earth's surface onboard Landsat 7. The main improvement from the Landsat 4/5 Thematic Mappers (TMs) is the addition of a panchromatic band with 15 m spatial resolution.\r\nSpectral and spatial characteristics of these bands are shown below.\r\n\r\nBand no. 1\r\nSpectral range .450 to .515 micrometres Ground resolution: 30 m\r\nBand no. 2\r\nSpectral range .525 to .605 micrometres Ground resolution: 30 m\r\nBand no. 3\r\nSpectral range .630 to .690 micrometres Ground resolution: 30 m\r\nBand no. 4\r\nSpectral range .775 to .900 micrometres Ground resolution: 30 m\r\nBand no. 5\r\nSpectral range 1.550 to 1.750 micrometres Ground resolution: 30 m\r\nBand no. 6\r\nSpectral range 10.40 to 12.50 micrometres Ground resolution: 60 m\r\nBand no. 7\r\nSpectral range 2.090 to 2.35 micrometres Ground resolution: 30 m\r\nBand no. 8\r\nSpectral range .520 to .900 micrometres Ground resolution: 15 m" }, "relatedTo": { "ob_id": 43211, "uuid": "283dc6501e0b43e9b3c91187ba1bcd16", "short_code": "acq", "title": "Acquisition process for the ESA River Discharge Climate Change Initiative (RD_cci): combined river discharge product, v1.0", "abstract": "The river discharge data from the combined river discharge product has been derived from data from both multispectral imagers and altimeters" } }, { "ob_id": 14083, "platform": { "ob_id": 12358, "uuid": "0ed62573c69a4f8ab46ea898ef0650a1", "short_code": "plat", "title": "Landsat 8", "abstract": "The Landsat 8 satellite was launched on 11th February 2013. It is a joint collaboration between the National Aeronautics and Space Administration (NASA) and the United States Geological Survey (USGS). It was initially named the Landsat Continuity Mission but was later renamed Landsat 8. The Landsat 8 mission provides 16 bit high quality land surface data. It is offset by 8 days from Landsat 7 has a 16 day repeat cycle. The Landsat 8 payload consists of the Operational Land Imager (OLI) and the Thermal Infrared Sensor (TIRS). The OLI provides multispectral data in the visible, near infrared and shortwave infrared as well as a panchromatic band. The TIRS instrument provides data in two thermal infrared bands." }, "instrument": { "ob_id": 43205, "uuid": "f1b4d54cc871486689fb749aeeb59d83", "short_code": "instr", "title": "Operational Land Imager (OLI)", "abstract": "The Operational Land Imager (OLI) is an instrument on board the Landsat 8 and 9 platforms. It provides images of the Earth's surface in the visible, near infrared, shortwave infrared." }, "relatedTo": { "ob_id": 43211, "uuid": "283dc6501e0b43e9b3c91187ba1bcd16", "short_code": "acq", "title": "Acquisition process for the ESA River Discharge Climate Change Initiative (RD_cci): combined river discharge product, v1.0", "abstract": "The river discharge data from the combined river discharge product has been derived from data from both multispectral imagers and altimeters" } }, { "ob_id": 14084, "platform": { "ob_id": 43204, "uuid": "6ae5c12b3a02495f86d54ab8184947e4", "short_code": "plat", "title": "Landsat 9", "abstract": "The Landsat 9 satellite was launched in 2021." }, "instrument": { "ob_id": 43205, "uuid": "f1b4d54cc871486689fb749aeeb59d83", "short_code": "instr", "title": "Operational Land Imager (OLI)", "abstract": "The Operational Land Imager (OLI) is an instrument on board the Landsat 8 and 9 platforms. It provides images of the Earth's surface in the visible, near infrared, shortwave infrared." }, "relatedTo": { "ob_id": 43211, "uuid": "283dc6501e0b43e9b3c91187ba1bcd16", "short_code": "acq", "title": "Acquisition process for the ESA River Discharge Climate Change Initiative (RD_cci): combined river discharge product, v1.0", "abstract": "The river discharge data from the combined river discharge product has been derived from data from both multispectral imagers and altimeters" } }, { "ob_id": 14085, "platform": { "ob_id": 10906, "uuid": "5a1076bffc8c4c5d8a2ff3a4cfb29846", "short_code": "plat", "title": "Aqua Satellite, part of the Earth Observation System Afternoon Constellation (EOS-PM)", "abstract": "Aqua, launched on 4th April 2002, is a polar-orbiting satellite within the Afternoon Constellation (A-Train) that have equator crossings around 13:30 and 01:30 under NASA's Earth Obseration System (EOS). The satellite carries Atmospheric Infrared Sounder (AIRS), Advanced Microwave Sounding Unit (AMSU-A), Humidity Sounder for Brazil (HSB), Advanced Microwave Scanning Radiometer for EOS (AMSR-E), Moderate-Resolution Imaging Spectroradiometer (MODIS) and Clouds and the Earth's Radiant Energy System (CERES), and these collect data on the Earth's atmospheric conditions, snow and ice, sea surface temperature and ocean productivity, and soil moisture. Aqua was the first member launched of a group of satellites termed the Afternoon Constellation, or sometimes the A-Train. " }, "instrument": { "ob_id": 10898, "uuid": "1a661d783a824fe8979faca4b9457fab", "short_code": "instr", "title": "Moderate Resolution Imaging Spectroradiometer (MODIS)", "abstract": "The Moderate Resolution Imaging Spectroradiometer (MODIS) provides high radiometric sensitivity in 36 spectral bands ranging from 0.4 to 14.4 micrometres. Two bands are imaged at a nominal resolution of 250 m at nadir, with five bands at 500 m, and the remaining 29 bands at 1 km. There are two MODIS instruments in operation; one on the Terra satellite and the other on the Aqua satellite, launched in 1999 and 2002 respectively. A +/- 55-degree scanning pattern at the EOS orbit of 705 km, which both satellites are on, results in a 2,330-km swath. Global coverage is provided once every one to two days. " }, "relatedTo": { "ob_id": 43211, "uuid": "283dc6501e0b43e9b3c91187ba1bcd16", "short_code": "acq", "title": "Acquisition process for the ESA River Discharge Climate Change Initiative (RD_cci): combined river discharge product, v1.0", "abstract": "The river discharge data from the combined river discharge product has been derived from data from both multispectral imagers and altimeters" } }, { "ob_id": 14086, "platform": { "ob_id": 10897, "uuid": "fc7da890b6424fb29bc5aadcda252bf3", "short_code": "plat", "title": "Terra Satellite, part of the Earth Observation System Morning Constellation (EOS-AM)", "abstract": "Terra, launched on 18th December 1999, is a polar-orbiting satellite within the Morning Constellation that have equator crossings around 10:30 and 22:30 under NASA's Earth Obseration System (EOS).\r\n\r\nOn February 24, 2000, Terra began collecting what was aimed to ultimately become a new, 15-year global data set on which to base scientific investigations about our complex home planet. Together with the entire fleet of EOS spacecraft, Terra is helping scientists unravel the mysteries of climate and environmental change.\r\n\r\nThe satellite carries the Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER), the Clouds and Earth's Radiant Energy System (CERES), the Measurements of Pollution in the Troposphere (MOPITT), the Moderate Resolution Imaging Spectroradiometer (MODIS) and the Multi-angle Imaging Spectroradiometer (MISR), and these collect data on the Earth's atmosphere, ocean, land, snow and ice, and energy budget." }, "instrument": { "ob_id": 10898, "uuid": "1a661d783a824fe8979faca4b9457fab", "short_code": "instr", "title": "Moderate Resolution Imaging Spectroradiometer (MODIS)", "abstract": "The Moderate Resolution Imaging Spectroradiometer (MODIS) provides high radiometric sensitivity in 36 spectral bands ranging from 0.4 to 14.4 micrometres. Two bands are imaged at a nominal resolution of 250 m at nadir, with five bands at 500 m, and the remaining 29 bands at 1 km. There are two MODIS instruments in operation; one on the Terra satellite and the other on the Aqua satellite, launched in 1999 and 2002 respectively. A +/- 55-degree scanning pattern at the EOS orbit of 705 km, which both satellites are on, results in a 2,330-km swath. Global coverage is provided once every one to two days. " }, "relatedTo": { "ob_id": 43211, "uuid": "283dc6501e0b43e9b3c91187ba1bcd16", "short_code": "acq", "title": "Acquisition process for the ESA River Discharge Climate Change Initiative (RD_cci): combined river discharge product, v1.0", "abstract": "The river discharge data from the combined river discharge product has been derived from data from both multispectral imagers and altimeters" } }, { "ob_id": 14087, "platform": { "ob_id": 13187, "uuid": "05405d4d4caa47d2889e33b66511fa9b", "short_code": "plat", "title": "Sentinel 2A", "abstract": "Sentinel 2A was launched by the European Space Agency (ESA) to become the second part of the Sentinel series. The satellite was launched on 23rd June 2015." }, "instrument": { "ob_id": 13182, "uuid": "56c6780a9a1d450591dba5b9c848b7c2", "short_code": "instr", "title": "Sentinel 2 Multispectral Instrument (MSI)", "abstract": "Data from the Multispectral Instrument (MSI) on the Sentinel 2 series. Sentinel 2A was launched on 23rd June 2015 and Sentinel 2B was launch in March 2017. The instrument provides high-resolution optical imaging data of the Earth's surface." }, "relatedTo": { "ob_id": 43211, "uuid": "283dc6501e0b43e9b3c91187ba1bcd16", "short_code": "acq", "title": "Acquisition process for the ESA River Discharge Climate Change Initiative (RD_cci): combined river discharge product, v1.0", "abstract": "The river discharge data from the combined river discharge product has been derived from data from both multispectral imagers and altimeters" } }, { "ob_id": 14088, "platform": { "ob_id": 25277, "uuid": "0bbb6de9c89b403aba5a2aacf53ec19e", "short_code": "plat", "title": "Sentinel 2B", "abstract": "Sentinel 2B was launched by the European Space Agency (ESA) to become the second part of the Sentinel series alongside Sentinel 2A. The satellite was launched on 7th March 2016." }, "instrument": { "ob_id": 13182, "uuid": "56c6780a9a1d450591dba5b9c848b7c2", "short_code": "instr", "title": "Sentinel 2 Multispectral Instrument (MSI)", "abstract": "Data from the Multispectral Instrument (MSI) on the Sentinel 2 series. Sentinel 2A was launched on 23rd June 2015 and Sentinel 2B was launch in March 2017. The instrument provides high-resolution optical imaging data of the Earth's surface." }, "relatedTo": { "ob_id": 43211, "uuid": "283dc6501e0b43e9b3c91187ba1bcd16", "short_code": "acq", "title": "Acquisition process for the ESA River Discharge Climate Change Initiative (RD_cci): combined river discharge product, v1.0", "abstract": "The river discharge data from the combined river discharge product has been derived from data from both multispectral imagers and altimeters" } }, { "ob_id": 14089, "platform": { "ob_id": 19017, "uuid": "f1fb7621240a45e895acdc686959b516", "short_code": "plat", "title": "Sentinel 3A", "abstract": "Sentinel 3A was launched by the European Space Agency (ESA) to become the third part of the Sentinel series. The satellite was launched on 16th February 2016." }, "instrument": { "ob_id": 19027, "uuid": "5ff900fe22954a91b678eef0af96758c", "short_code": "instr", "title": "Sentinel 3 Ocean and Land Colour Instrument (OLCI)", "abstract": "Ocean and Land Colour Instrument (OLCI) on board the Sentinel 3 satellite." }, "relatedTo": { "ob_id": 43211, "uuid": "283dc6501e0b43e9b3c91187ba1bcd16", "short_code": "acq", "title": "Acquisition process for the ESA River Discharge Climate Change Initiative (RD_cci): combined river discharge product, v1.0", "abstract": "The river discharge data from the combined river discharge product has been derived from data from both multispectral imagers and altimeters" } }, { "ob_id": 14090, "platform": { "ob_id": 26990, "uuid": "3478f3a96c7e4610a1973a535ee6439e", "short_code": "plat", "title": "Sentinel 3B", "abstract": "Sentinel 3B was launched by the European Space Agency (ESA) to become the third part of the Sentinel series. The satellite was launched on 25th April 2018." }, "instrument": { "ob_id": 19027, "uuid": "5ff900fe22954a91b678eef0af96758c", "short_code": "instr", "title": "Sentinel 3 Ocean and Land Colour Instrument (OLCI)", "abstract": "Ocean and Land Colour Instrument (OLCI) on board the Sentinel 3 satellite." }, "relatedTo": { "ob_id": 43211, "uuid": "283dc6501e0b43e9b3c91187ba1bcd16", "short_code": "acq", "title": "Acquisition process for the ESA River Discharge Climate Change Initiative (RD_cci): combined river discharge product, v1.0", "abstract": "The river discharge data from the combined river discharge product has been derived from data from both multispectral imagers and altimeters" } }, { "ob_id": 14091, "platform": { "ob_id": 7813, "uuid": "8ee876e1ea644ed7a81d4e3536133fa0", "short_code": "plat", "title": "European Remote Sensing satellite 2 - ERS-2", "abstract": "ESA's two European Remote Sensing (ERS) satellites, ERS-1 and –2, were launched into the same orbit in 1991 and 1995 respectively. Their payloads included a synthetic aperture imaging radar, radar altimeter and instruments to measure ocean surface temperature and wind fields.\r\n\r\nERS-2 added an additional sensor for atmospheric ozone monitoring. The two satellites acquired a combined data set extending over two decades.\r\n\r\nThe ERS-2 satellite was retired on 05 September 2011." }, "instrument": { "ob_id": 30024, "uuid": "19bf6bae815c412fa2374e2513d25af5", "short_code": "instr", "title": "RA", "abstract": "The RA (Radar Altimeter) instrument was flown on the ERS-1 and ERS02 satellites. It's a single frequency (13.8 GHz) radar altimeter." }, "relatedTo": { "ob_id": 43211, "uuid": "283dc6501e0b43e9b3c91187ba1bcd16", "short_code": "acq", "title": "Acquisition process for the ESA River Discharge Climate Change Initiative (RD_cci): combined river discharge product, v1.0", "abstract": "The river discharge data from the combined river discharge product has been derived from data from both multispectral imagers and altimeters" } }, { "ob_id": 14092, "platform": { "ob_id": 846, "uuid": "47779e22cdc6491a9f7491af866f7080", "short_code": "plat", "title": "Envisat", "abstract": "In March 2002, the European Space Agency launched Envisat, an advanced polar-orbiting Earth observation satellite which provides measurements of the atmosphere, ocean, land, and ice. The Envisat satellite has a payload of 10 instruments that will ensure the continuity of the data measurements of the ESA ERS satellites. Envisat data supports earth science research and allows monitoring of the evolution of environmental and climatic changes.\r\n\r\nLaunch date: 01/03/2002\r\nStatus / projected mission lifetime: Terminated on 08/04/2012\r\nOrbit parameters: 30 km in front of ERS2\r\nNominal altitude: 800 km (same as ERS2, near circular)\r\nOrbit type: near-polar, sun-synchronous\r\nInclination: 98.55 degrees\r\nRepeat period: 35 days\r\nEquatorial crossing time: 10:00 local time (descending node)\r\nSwath width: various\r\nResolution: various" }, "instrument": { "ob_id": 13692, "uuid": "c1015c7477334094ab86ef8a1f6ee3ce", "short_code": "instr", "title": "Radar Altimeter 2 (RA-2)", "abstract": "Radar Altimeter 2 (RA-2) is an instrument for determining the two-way delay of the radar echo from the Earth's surface to a very high precision: less than a nanosecond. It also measures the power and the shape of the reflected radar pulses.\r\n\r\nIt is a nadir-looking pulse-limited radar altimeter based on the heritage of ERS-1 RA functioning at the main nominal frequency of 13.575 GHz (Ku Band), which has been selected as a good compromise between the affordable antenna dimension that provides the necessary gain and the relatively low attenuation which experience the signals propagating through the troposphere." }, "relatedTo": { "ob_id": 43211, "uuid": "283dc6501e0b43e9b3c91187ba1bcd16", "short_code": "acq", "title": "Acquisition process for the ESA River Discharge Climate Change Initiative (RD_cci): combined river discharge product, v1.0", "abstract": "The river discharge data from the combined river discharge product has been derived from data from both multispectral imagers and altimeters" } }, { "ob_id": 14093, "platform": { "ob_id": 30018, "uuid": "dc9445f2ebc5410cb39df2984165c52b", "short_code": "plat", "title": "JASON-1", "abstract": "The JASON-1 (Joint Altimetery Satellite Oceanography Network - 1) satellite was the first flight of the JASON series of satellites, with a primary mission to study ocean topography and waves. It flew between December 2001 and July 2013" }, "instrument": { "ob_id": 30019, "uuid": "64d73638c9a14a3fad59d6ae8658fd37", "short_code": "instr", "title": "Poseidon-2", "abstract": "The Poseidon-2 satellite instrument was flown on the JASON-1 satellite. It is a radar altimeter designed to study ocean topography, significant wave height and wind speed." }, "relatedTo": { "ob_id": 43211, "uuid": "283dc6501e0b43e9b3c91187ba1bcd16", "short_code": "acq", "title": "Acquisition process for the ESA River Discharge Climate Change Initiative (RD_cci): combined river discharge product, v1.0", "abstract": "The river discharge data from the combined river discharge product has been derived from data from both multispectral imagers and altimeters" } }, { "ob_id": 14094, "platform": { "ob_id": 30020, "uuid": "154dafa0c39d47beb7b1b8f29efa237f", "short_code": "plat", "title": "JASON-2", "abstract": "The JASON-2 (Joint Altimetry Satellite Oceanography Network -2 ) satellite was flown to study ocean topography and waves. It flew between June 2008 and October 2019" }, "instrument": { "ob_id": 30021, "uuid": "57297602ceef42edb983796ce9089963", "short_code": "instr", "title": "Poseidon-3", "abstract": "The Poseidon-3 instrument was flown on the JASON-2 satellite. It is a radar altimeter, designed to study ocean topography, significant wave height and wind speed." }, "relatedTo": { "ob_id": 43211, "uuid": "283dc6501e0b43e9b3c91187ba1bcd16", "short_code": "acq", "title": "Acquisition process for the ESA River Discharge Climate Change Initiative (RD_cci): combined river discharge product, v1.0", "abstract": "The river discharge data from the combined river discharge product has been derived from data from both multispectral imagers and altimeters" } }, { "ob_id": 14095, "platform": { "ob_id": 30022, "uuid": "40826d62fbe6438494c543d9284e7c61", "short_code": "plat", "title": "JASON-3", "abstract": "The JASON-3 (Joint Altimetry Satellite Oceanography Network - 3 ) Satellite was launched on Jan 2016. It primary mission is to study ocean topography and waves." }, "instrument": { "ob_id": 30023, "uuid": "fcdd312219c4443985a9a1708867500e", "short_code": "instr", "title": "Poseidon-3B", "abstract": "The Poseidon-3B satellite instrument is flying on the JASON-3 satellite. It is a radar altimeter, designed to study ocean topography, significant wave height and wind speed." }, "relatedTo": { "ob_id": 43211, "uuid": "283dc6501e0b43e9b3c91187ba1bcd16", "short_code": "acq", "title": "Acquisition process for the ESA River Discharge Climate Change Initiative (RD_cci): combined river discharge product, v1.0", "abstract": "The river discharge data from the combined river discharge product has been derived from data from both multispectral imagers and altimeters" } }, { "ob_id": 14096, "platform": { "ob_id": 26738, "uuid": "ae4858d28dec45a1805b8de5029e8b88", "short_code": "plat", "title": "SARAL (Satellite with ARGOS and AltiKa)", "abstract": "The SARAL (Satellite with ARGOS and AltiKa) is a French (CNES) / Indian (ISRO) satellite mission primarily focused on observing the oceans." }, "instrument": { "ob_id": 26737, "uuid": "43854b24bec449a7a07eedc63b6b9690", "short_code": "instr", "title": "AltiKa", "abstract": "The Ka-band Altimeter (AltiKa) is flown on the SARAL satellite" }, "relatedTo": { "ob_id": 43211, "uuid": "283dc6501e0b43e9b3c91187ba1bcd16", "short_code": "acq", "title": "Acquisition process for the ESA River Discharge Climate Change Initiative (RD_cci): combined river discharge product, v1.0", "abstract": "The river discharge data from the combined river discharge product has been derived from data from both multispectral imagers and altimeters" } }, { "ob_id": 14097, "platform": { "ob_id": 30014, "uuid": "2e7f841f29304e7986e102cfecda969c", "short_code": "plat", "title": "TOPEX/Poseidon", "abstract": "The TOPEX-Posiedon (Topography Experiment - Positioning,Ocean,Solid Earth, Ice Dynamics, Orbital Navigator) satellite was operated by NASA and CNES, between Aug 1992 and October 2005." }, "instrument": { "ob_id": 30015, "uuid": "66ebb2b90a2c42d2a2e86e9b05e6b0d7", "short_code": "instr", "title": "SSALT", "abstract": "The Single-frequency Solid-state Altimeter (SSALT) was flown on the TOPEX-Poseidon satellite to study ocean topography, significant wave height and wind speed on the sea surface" }, "relatedTo": { "ob_id": 43211, "uuid": "283dc6501e0b43e9b3c91187ba1bcd16", "short_code": "acq", "title": "Acquisition process for the ESA River Discharge Climate Change Initiative (RD_cci): combined river discharge product, v1.0", "abstract": "The river discharge data from the combined river discharge product has been derived from data from both multispectral imagers and altimeters" } }, { "ob_id": 14098, "platform": { "ob_id": 19017, "uuid": "f1fb7621240a45e895acdc686959b516", "short_code": "plat", "title": "Sentinel 3A", "abstract": "Sentinel 3A was launched by the European Space Agency (ESA) to become the third part of the Sentinel series. The satellite was launched on 16th February 2016." }, "instrument": { "ob_id": 19016, "uuid": "e63c04b01a6c4b66af13c4cf0c368cee", "short_code": "instr", "title": "Sentinel 3 Synthetic Aperture Radar Altimeter (SRAL)", "abstract": "Synthetic Aperture Radar Altimeter (SRAL) instrument on board the Sentinel 3 satellite." }, "relatedTo": { "ob_id": 43211, "uuid": "283dc6501e0b43e9b3c91187ba1bcd16", "short_code": "acq", "title": "Acquisition process for the ESA River Discharge Climate Change Initiative (RD_cci): combined river discharge product, v1.0", "abstract": "The river discharge data from the combined river discharge product has been derived from data from both multispectral imagers and altimeters" } }, { "ob_id": 14099, "platform": { "ob_id": 26990, "uuid": "3478f3a96c7e4610a1973a535ee6439e", "short_code": "plat", "title": "Sentinel 3B", "abstract": "Sentinel 3B was launched by the European Space Agency (ESA) to become the third part of the Sentinel series. The satellite was launched on 25th April 2018." }, "instrument": { "ob_id": 19016, "uuid": "e63c04b01a6c4b66af13c4cf0c368cee", "short_code": "instr", "title": "Sentinel 3 Synthetic Aperture Radar Altimeter (SRAL)", "abstract": "Synthetic Aperture Radar Altimeter (SRAL) instrument on board the Sentinel 3 satellite." }, "relatedTo": { "ob_id": 43211, "uuid": "283dc6501e0b43e9b3c91187ba1bcd16", "short_code": "acq", "title": "Acquisition process for the ESA River Discharge Climate Change Initiative (RD_cci): combined river discharge product, v1.0", "abstract": "The river discharge data from the combined river discharge product has been derived from data from both multispectral imagers and altimeters" } }, { "ob_id": 14100, "platform": { "ob_id": 41465, "uuid": "ae51e187356a42d5b4e75cf96b3c2710", "short_code": "plat", "title": "Sentinel-6A", "abstract": "The Sentinel-6A satellite misson" }, "instrument": { "ob_id": 41466, "uuid": "1e4e6a00ef6640fea9846489896c2c61", "short_code": "instr", "title": "Poseidon-4", "abstract": "The Poseidon-4 instrument is flown on the Sentinel-6 satellite" }, "relatedTo": { "ob_id": 43211, "uuid": "283dc6501e0b43e9b3c91187ba1bcd16", "short_code": "acq", "title": "Acquisition process for the ESA River Discharge Climate Change Initiative (RD_cci): combined river discharge product, v1.0", "abstract": "The river discharge data from the combined river discharge product has been derived from data from both multispectral imagers and altimeters" } }, { "ob_id": 14101, "platform": { "ob_id": 8245, "uuid": "4f1e5569a1ef413083ad244f6f91f2a1", "short_code": "plat", "title": "Landsat 4", "abstract": "As part of the Landsat programme Landsat 4 was launched in July 1982 and was operational until July 1987. It carried Thematic Mapper (TM) and MultiSpectral Scanner (MSS) instruments.\r\n\r\nLaunch date\t7/16/1982 (TM transmission failed 1993)\r\nStatus / projected mission lifetime\tLandsat 5 project end 30/06/2001\r\nOrbit parameters\t99 minutes, 16 day, 233-orbit cycle\r\nNominal altitude\t705 km geo-synchronous\r\nOrbit type\tPolar, sun-synchronous\r\nInclination\t98.2 °\r\nRepeat period\t16 days\r\nEquatorial crossing time\t09.45 local time \r\nSwath width\t183 km" }, "instrument": { "ob_id": 8248, "uuid": "c7d350b1ec99448187607ec46c4ce35e", "short_code": "instr", "title": "Landsat Thematic Mapper (TM)", "abstract": "The Thematic Mapper (TM) is one of the Earth observing sensors introduced in the Landsat program. TMs were placed aboard the Landsat 4 and 5 satellites. The wavelength range for the Thematic Mapper (TM) sensor is from the visible, through the Mid-IR, into the Thermal-IR portion of the electromagnetic spectrum." }, "relatedTo": { "ob_id": 43232, "uuid": "73e06acfa99442a8a06e8630e86c32b2", "short_code": "acq", "title": "Acquisition process for the ESA Fire Climate Change Initiative (FireCCI): Long-term Small Fire Dataset (SFDL) Burned Area pixel product for Test Sites: Amazonia, Africa and Siberia, version 1.0", "abstract": "The dataset uses surface reflectance information from the Landsat-4 and Landsat-5 TM, Landsat-7 ETM+ and Landsat-8 OLI sensors, and covers the period 1990 to 2019, with a spatial resolution of 0.00025 degrees (approximately 30 m at the Equator)." } }, { "ob_id": 14102, "platform": { "ob_id": 8246, "uuid": "e9c4a76ba5b64ede82a20d7d69da47a2", "short_code": "plat", "title": "Landsat 5", "abstract": "A nearly identical satellite to Landsat 4, Landsat 5 was launched as part of the Landsat programme in March 1984 and was operational until June 2013. As Landsat 4, it carried Thematic Mapper (TM) and MultiSpectral Scanner (MSS) instruments." }, "instrument": { "ob_id": 8248, "uuid": "c7d350b1ec99448187607ec46c4ce35e", "short_code": "instr", "title": "Landsat Thematic Mapper (TM)", "abstract": "The Thematic Mapper (TM) is one of the Earth observing sensors introduced in the Landsat program. TMs were placed aboard the Landsat 4 and 5 satellites. The wavelength range for the Thematic Mapper (TM) sensor is from the visible, through the Mid-IR, into the Thermal-IR portion of the electromagnetic spectrum." }, "relatedTo": { "ob_id": 43232, "uuid": "73e06acfa99442a8a06e8630e86c32b2", "short_code": "acq", "title": "Acquisition process for the ESA Fire Climate Change Initiative (FireCCI): Long-term Small Fire Dataset (SFDL) Burned Area pixel product for Test Sites: Amazonia, Africa and Siberia, version 1.0", "abstract": "The dataset uses surface reflectance information from the Landsat-4 and Landsat-5 TM, Landsat-7 ETM+ and Landsat-8 OLI sensors, and covers the period 1990 to 2019, with a spatial resolution of 0.00025 degrees (approximately 30 m at the Equator)." } }, { "ob_id": 14103, "platform": { "ob_id": 8256, "uuid": "385d8284709749b9a29d33c07670c4fd", "short_code": "plat", "title": "Landsat 7", "abstract": "Landsat 7 was launched as a continuation of the Landsat programme on 15th April 1999 and is still operational as of July 2014. A three-axis attitude control subsystem stabilizes the satellite and keeps the instrument pointed toward Earth to within 0.05 degrees. The LANDSAT World-Wide-Reference system catalogues the worlds land mass into 57,784 scenes, each 115 miles (183 kilometres) wide by 106 miles (170 kilometres) long.\r\n\r\nLaunch date: 15/04/1999\r\nStatus/projected mission lifetime: 5 years +\r\nOrbit parameters: near circular\r\nNominal altitude: 705 km\r\nOrbit type:\t near-polar, sun-synchronous\r\nInclination: 98.2 degrees\r\nRepeat period: 16 days\r\nEquatorial crossing time: 10.00 local time (descending node)\r\nSwath width: 183 km\r\nResolution: 15 - 60 m \r\nSpecial features: Panchromatic band, thermal band with 2 gain settings" }, "instrument": { "ob_id": 8257, "uuid": "dfc450e6a1d54b40b8927c7d0de2de21", "short_code": "instr", "title": "Enhanced Thematic Mapper Plus (ETM+)", "abstract": "The Enhanced Thematic Mapper Plus (ETM+) instrument is a fixed 'whisk-broom', eight-band, multispectral scanning radiometer capable of providing high-resolution imaging information of the Earth's surface onboard Landsat 7. The main improvement from the Landsat 4/5 Thematic Mappers (TMs) is the addition of a panchromatic band with 15 m spatial resolution.\r\nSpectral and spatial characteristics of these bands are shown below.\r\n\r\nBand no. 1\r\nSpectral range .450 to .515 micrometres Ground resolution: 30 m\r\nBand no. 2\r\nSpectral range .525 to .605 micrometres Ground resolution: 30 m\r\nBand no. 3\r\nSpectral range .630 to .690 micrometres Ground resolution: 30 m\r\nBand no. 4\r\nSpectral range .775 to .900 micrometres Ground resolution: 30 m\r\nBand no. 5\r\nSpectral range 1.550 to 1.750 micrometres Ground resolution: 30 m\r\nBand no. 6\r\nSpectral range 10.40 to 12.50 micrometres Ground resolution: 60 m\r\nBand no. 7\r\nSpectral range 2.090 to 2.35 micrometres Ground resolution: 30 m\r\nBand no. 8\r\nSpectral range .520 to .900 micrometres Ground resolution: 15 m" }, "relatedTo": { "ob_id": 43232, "uuid": "73e06acfa99442a8a06e8630e86c32b2", "short_code": "acq", "title": "Acquisition process for the ESA Fire Climate Change Initiative (FireCCI): Long-term Small Fire Dataset (SFDL) Burned Area pixel product for Test Sites: Amazonia, Africa and Siberia, version 1.0", "abstract": "The dataset uses surface reflectance information from the Landsat-4 and Landsat-5 TM, Landsat-7 ETM+ and Landsat-8 OLI sensors, and covers the period 1990 to 2019, with a spatial resolution of 0.00025 degrees (approximately 30 m at the Equator)." } }, { "ob_id": 14104, "platform": { "ob_id": 12358, "uuid": "0ed62573c69a4f8ab46ea898ef0650a1", "short_code": "plat", "title": "Landsat 8", "abstract": "The Landsat 8 satellite was launched on 11th February 2013. It is a joint collaboration between the National Aeronautics and Space Administration (NASA) and the United States Geological Survey (USGS). It was initially named the Landsat Continuity Mission but was later renamed Landsat 8. The Landsat 8 mission provides 16 bit high quality land surface data. It is offset by 8 days from Landsat 7 has a 16 day repeat cycle. The Landsat 8 payload consists of the Operational Land Imager (OLI) and the Thermal Infrared Sensor (TIRS). The OLI provides multispectral data in the visible, near infrared and shortwave infrared as well as a panchromatic band. The TIRS instrument provides data in two thermal infrared bands." }, "instrument": { "ob_id": 43205, "uuid": "f1b4d54cc871486689fb749aeeb59d83", "short_code": "instr", "title": "Operational Land Imager (OLI)", "abstract": "The Operational Land Imager (OLI) is an instrument on board the Landsat 8 and 9 platforms. It provides images of the Earth's surface in the visible, near infrared, shortwave infrared." }, "relatedTo": { "ob_id": 43232, "uuid": "73e06acfa99442a8a06e8630e86c32b2", "short_code": "acq", "title": "Acquisition process for the ESA Fire Climate Change Initiative (FireCCI): Long-term Small Fire Dataset (SFDL) Burned Area pixel product for Test Sites: Amazonia, Africa and Siberia, version 1.0", "abstract": "The dataset uses surface reflectance information from the Landsat-4 and Landsat-5 TM, Landsat-7 ETM+ and Landsat-8 OLI sensors, and covers the period 1990 to 2019, with a spatial resolution of 0.00025 degrees (approximately 30 m at the Equator)." } }, { "ob_id": 14105, "platform": { "ob_id": 43278, "uuid": "12c780dc77a345ae95a733797c7b52d2", "short_code": "plat", "title": "Fagradalsfjall, Iceland", "abstract": "Fagradalsfjall volcano, Iceland" }, "instrument": { "ob_id": 43277, "uuid": "5931d5a9d9404d85acfbacb6ceb87988", "short_code": "instr", "title": "Fourier transform infrared (FTIR) spectroscopy and mutiGAS instrument", "abstract": "Fourier transform infrared (FTIR) spectroscopy and mutiGAS instrument" }, "relatedTo": { "ob_id": 43275, "uuid": "8d7117e260404891a85387f9a4652eb9", "short_code": "acq", "title": "Acquisition for Lava Aerosol Gas and Trace Element data from the Fagradalsfjall 2021-2023 eruption, Iceland", "abstract": "Gas collected by Fourier transform infrared (FTIR) spectroscopy and mutiGAS instrument sampling. The trace element data was collected by filter pack sampling mounted on an Uncrewed Aerial Vehicle (UAV) and analysed by Ion Chromatography Mass Spectrometry (IC-MS) and Inductively coupled plasma mass spectrometry (ICP-MS)." } }, { "ob_id": 14106, "platform": { "ob_id": 43280, "uuid": "b52d3221cfcb4295a4765a24ce6b12ae", "short_code": "plat", "title": "Unknown UAV", "abstract": "Unknown Uncrewed Aerial Vehicle platform carrying filter pack sampling equipment operated by University of Leeds" }, "instrument": { "ob_id": 43279, "uuid": "838e4a384044418d8845d2dea9572763", "short_code": "instr", "title": "Filter pack sampler", "abstract": "Trace element data was collected by filter pack sampling mounted on an Uncrewed Aerial Vehicle (UAV) and analysed by Ion Chromatography Mass Spectrometry (IC-MS) and Inductively coupled plasma mass spectrometry (ICP-MS)." }, "relatedTo": { "ob_id": 43275, "uuid": "8d7117e260404891a85387f9a4652eb9", "short_code": "acq", "title": "Acquisition for Lava Aerosol Gas and Trace Element data from the Fagradalsfjall 2021-2023 eruption, Iceland", "abstract": "Gas collected by Fourier transform infrared (FTIR) spectroscopy and mutiGAS instrument sampling. The trace element data was collected by filter pack sampling mounted on an Uncrewed Aerial Vehicle (UAV) and analysed by Ion Chromatography Mass Spectrometry (IC-MS) and Inductively coupled plasma mass spectrometry (ICP-MS)." } }, { "ob_id": 14107, "platform": { "ob_id": 7813, "uuid": "8ee876e1ea644ed7a81d4e3536133fa0", "short_code": "plat", "title": "European Remote Sensing satellite 2 - ERS-2", "abstract": "ESA's two European Remote Sensing (ERS) satellites, ERS-1 and –2, were launched into the same orbit in 1991 and 1995 respectively. Their payloads included a synthetic aperture imaging radar, radar altimeter and instruments to measure ocean surface temperature and wind fields.\r\n\r\nERS-2 added an additional sensor for atmospheric ozone monitoring. The two satellites acquired a combined data set extending over two decades.\r\n\r\nThe ERS-2 satellite was retired on 05 September 2011." }, "instrument": { "ob_id": 5566, "uuid": "0144096c6dd84a2a99abced27e129e12", "short_code": "instr", "title": "Along Track Scanning Radiometer 2 (ATSR-2)", "abstract": "An enhanced version of ATSR (Along Track Scanning Radiometer), ATSR-2, was successfully launched on board the European Space Agency (ESA) ERS-2 (European Remote Sensing - 2) spacecraft on 21st April 1995. ATSR-2 is equipped with additional visible channels for vegetation monitoring. It measures sea surface temperatures and the vegetation cover of land surfaces." }, "relatedTo": { "ob_id": 43261, "uuid": "dad8ba529e9a431e8818b21ab5e3f360", "short_code": "acq", "title": "Acquisition for: Swansea University Daily and Monthly Aerosol from the (Advanced) Along-Track Scanning Radiometers, L3C, v4.35.1", "abstract": "Data was derived from the Along-Track Scanning Radiometer-2 (ATSR-2) and Advanced Along-Track Scanning Radiometer (AATSR), running from 1995-2003 (ATSR-2) and 2002-2012 (AATSR)." } }, { "ob_id": 14108, "platform": { "ob_id": 846, "uuid": "47779e22cdc6491a9f7491af866f7080", "short_code": "plat", "title": "Envisat", "abstract": "In March 2002, the European Space Agency launched Envisat, an advanced polar-orbiting Earth observation satellite which provides measurements of the atmosphere, ocean, land, and ice. The Envisat satellite has a payload of 10 instruments that will ensure the continuity of the data measurements of the ESA ERS satellites. Envisat data supports earth science research and allows monitoring of the evolution of environmental and climatic changes.\r\n\r\nLaunch date: 01/03/2002\r\nStatus / projected mission lifetime: Terminated on 08/04/2012\r\nOrbit parameters: 30 km in front of ERS2\r\nNominal altitude: 800 km (same as ERS2, near circular)\r\nOrbit type: near-polar, sun-synchronous\r\nInclination: 98.55 degrees\r\nRepeat period: 35 days\r\nEquatorial crossing time: 10:00 local time (descending node)\r\nSwath width: various\r\nResolution: various" }, "instrument": { "ob_id": 847, "uuid": "e448141cadd04550aa19dac5601af34d", "short_code": "instr", "title": "Advanced Along-Track Scanning Radiometer (AATSR)", "abstract": "The Advanced Along-Track Scanning Radiometer (AATSR) measures global Sea Surface Temperature (SST) from space to the highest possible levels of accuracy and stability, as required for climate research and monitoring. It is the third in the ATSR series, and is a payload instrument on ESA's ENVISAT." }, "relatedTo": { "ob_id": 43261, "uuid": "dad8ba529e9a431e8818b21ab5e3f360", "short_code": "acq", "title": "Acquisition for: Swansea University Daily and Monthly Aerosol from the (Advanced) Along-Track Scanning Radiometers, L3C, v4.35.1", "abstract": "Data was derived from the Along-Track Scanning Radiometer-2 (ATSR-2) and Advanced Along-Track Scanning Radiometer (AATSR), running from 1995-2003 (ATSR-2) and 2002-2012 (AATSR)." } }, { "ob_id": 14109, "platform": { "ob_id": 19017, "uuid": "f1fb7621240a45e895acdc686959b516", "short_code": "plat", "title": "Sentinel 3A", "abstract": "Sentinel 3A was launched by the European Space Agency (ESA) to become the third part of the Sentinel series. The satellite was launched on 16th February 2016." }, "instrument": { "ob_id": 19032, "uuid": "4589d3b5a63b486981989bb7811af12a", "short_code": "instr", "title": "Sentinel 3 Sea and Land Surface Temperature Radiometer (SLSTR)", "abstract": "Sea and Land Surface Temperature Radiometer (SLSTR) on board the Sentinel 3 satellite." }, "relatedTo": { "ob_id": 43302, "uuid": "540ddb41ff10439994305b2c934076ea", "short_code": "acq", "title": "Acquisition for: Swansea University Daily and Monthly Aerosol from the Sea and Land Surface Temperature Radiometers, L3C, v1.14.1", "abstract": "Data was derived from the Sea and Land Surface Temperature Radiometers (SLSTR) on the Sentinel-3A and Sentinel-3B satellites" } }, { "ob_id": 14110, "platform": { "ob_id": 26990, "uuid": "3478f3a96c7e4610a1973a535ee6439e", "short_code": "plat", "title": "Sentinel 3B", "abstract": "Sentinel 3B was launched by the European Space Agency (ESA) to become the third part of the Sentinel series. The satellite was launched on 25th April 2018." }, "instrument": { "ob_id": 19032, "uuid": "4589d3b5a63b486981989bb7811af12a", "short_code": "instr", "title": "Sentinel 3 Sea and Land Surface Temperature Radiometer (SLSTR)", "abstract": "Sea and Land Surface Temperature Radiometer (SLSTR) on board the Sentinel 3 satellite." }, "relatedTo": { "ob_id": 43302, "uuid": "540ddb41ff10439994305b2c934076ea", "short_code": "acq", "title": "Acquisition for: Swansea University Daily and Monthly Aerosol from the Sea and Land Surface Temperature Radiometers, L3C, v1.14.1", "abstract": "Data was derived from the Sea and Land Surface Temperature Radiometers (SLSTR) on the Sentinel-3A and Sentinel-3B satellites" } } ] }