Migration Property List
Get a list of MigrationProperty objects.
GET /api/v3/migrationproperties/?format=api&offset=5200
{ "count": 5502, "next": "https://catalogue.ceda.ac.uk/api/v3/migrationproperties/?format=api&limit=100&offset=5300", "previous": "https://catalogue.ceda.ac.uk/api/v3/migrationproperties/?format=api&limit=100&offset=5100", "results": [ { "id": 10131, "key": "project.moles2_activity_subtype", "value": "dgActivityDataProject", "modified": "2014-09-28", "ob_ref": 11054 }, { "id": 10137, "key": "moles2.provider", "value": "badc.nerc.ac.uk", "modified": "2014-09-28", "ob_ref": 11070 }, { "id": 10140, "key": "moles2.provider", "value": "badc.nerc.ac.uk", "modified": "2014-09-28", "ob_ref": 11076 }, { "id": 10142, "key": "Computation.content.citation", "value": "<div property=\"cedacat:citation\">\r\n<div class=\"citation\">Citation</div>\r\nRoeckner, E., G. Bäuml, L. Bonaventura, R. Brokopf, M. Esch, M. Giorgetta, S. Hagemann, I. Kirchner, L. Kornblueh, E. Manzini, A. Rhodin, U. Schlese, U. Schulzweida, and A. Tompkins, 2003: The atmospheric general circulation model ECHAM5. Part I: Model description. Max Planck Institute for Meteorology Rep. 349, 127 pp. [available from MPI for Meteorology, Bundesstr. 53, 20146 Hamburg, Germany]\r\n</div>\r\n\r\n\r\n", "modified": "2015-11-09", "ob_ref": 11078 }, { "id": 10147, "key": "project.moles2_activity_subtype", "value": "dgActivityDataProject", "modified": "2014-09-28", "ob_ref": 11081 }, { "id": 10154, "key": "project.moles2_activity_subtype", "value": "dgActivityDataCollection", "modified": "2014-09-28", "ob_ref": 11106 }, { "id": 10163, "key": "moles2.provider", "value": "badc.nerc.ac.uk", "modified": "2014-09-28", "ob_ref": 11135 }, { "id": 10171, "key": "moles2.provider", "value": "badc.nerc.ac.uk", "modified": "2014-09-28", "ob_ref": 11153 }, { "id": 10174, "key": "project.moles2_activity_subtype", "value": "dgActivityDataProject", "modified": "2014-09-28", "ob_ref": 11161 }, { "id": 10175, "key": "moles2.provider", "value": "badc.nerc.ac.uk", "modified": "2014-09-28", "ob_ref": 11164 }, { "id": 10178, "key": "project.content.extra", "value": " <h2>Introduction</h2>\r\n\r\n <p>As part of its core activity the BADC is responsible for the data \r\nmanagement of projects that are undertaken by UWERN and UFAM researchers. \r\nUWERN is the <a href=\"http://www.badc.rl.ac.uk/data/uwern\">Universities \r\nWeather Research Network</a> and UFAM is the \r\n<a href=\"http://www.env.leeds.ac.uk/ufam/\">Universities Facility for \r\nAtmospheric Measurement</a>. \r\n\r\n</p> <p>There is significant cross-over between the two groups as UFAM was \r\ncreated as the result of a successful Higher Education Funding Council \r\nfor England (HEFCE) / Natural Environment Research Council (NERC) Joint Infrastructure Fund (JIF) bid by a consortium of six universities co-ordinated by Professor Keith Browning under the support of the UWERN. Many of the projects and NERC Thematic Programmes that come under the UWERN umbrella involve UFAM instruments.\r\n\r\n\r\n</p> <p>The key data types created by UFAM projects are instrumental datasets. \r\nUFAM is a pool of <a href=\"http://ufam.nerc.ac.uk/ufam/instruments.php\">\r\ninstruments and facilities</a> in the UK designed to make measurements of \r\nsmall and mesoscale features in the atmosphere, generating data for a range \r\nof different research projects. The BADC communicates primarily with the \r\nindividual <a href=\"http://www.env.leeds.ac.uk/ufam/contacts.htm\">instrument scientists</a> \r\nemployed by UFAM to maintain and manage each instrument. \r\n\r\n</p> <hr align=\"LEFT\" />\r\n <h2>UFAM Related Datasets at the BADC</h2>\r\n\r\n <p>The BADC currently holds data from the following projects and campaigns that have made use of UFAM instruments:\r\n</p> <ul>\r\n <li><a href=\"http://badc.nerc.ac.uk/data/ufam/csip/\">Convective Storm Initiation Project (CSIP)</a>.\r\n </li><li><a href=\"http://badc.nerc.ac.uk/data/isb52/\">Improved Air Quality Forecasting (Invest to Save Budget ISB52)</a>.\r\n </li><li><a href=\"http://badc.nerc.ac.uk/data/namblex/\">The North Atlantic Marine Bounday Layer EXperiment (NAMBLEX)</a>.\r\n </li><li><a href=\"http://badc.nerc.ac.uk/data/polluted-tropo/projects/torch.html\">The Tropospheric ORganic CHemistry experiment (TORCH) - part of the Polluted Troposphere thematic program</a>.\r\n </li><li><a href=\"http://badc.nerc.ac.uk/data/ufam/intercomparison.html\">The UFAM intercomparison experiment</a>.\r\n </li><li><a href=\"http://badc.nerc.ac.uk/data/cwave/\">The Cloud & Water Vapour Experiment</a>.\r\n </li><li><a href=\"http://badc.nerc.ac.uk/data/ufam/shoeburyness.html\">The Shoeburyness Field Trial</a>.\r\n\r\n</li></ul>\r\n\r\nData from UFAM instruments is stored at the BADC in two ways:\r\n <ul> <li>Where UFAM instruments have been used during intensive measurement campaigns the data is \r\nstored together with the rest of the data in the archive for that campaign, \r\nfor example, data measured during <a href=\"http://badc.nerc.ac.uk/data/namblex/\">NAMBLEX</a> is kept \r\nin the <a href=\"http://data.ceda.ac.uk/badc/namblex/\">NAMBLEX archive</a>, data from \r\nthe <a href=\"http://badc.nerc.ac.uk/data/polluted-tropo/projects/torch.html\">TORCH</a> campaign can be found in the \r\n<a href=\"http://data.ceda.ac.uk/badc/polluted-tropo/data/torch/\">\r\nPolluted Troposphere archive</a>, and data measured during <a href=\"http://badc.nerc.ac.uk/data/cwave/\">CWAVE</a> can be found in the \r\n\r\n<a href=\"http://data.ceda.ac.uk/badc/cwave/\">CWAVE archive</a>.\r\n</li><li> UFAM instruments also collect data outside of these campaigns- either during \r\nsmaller projects for example the <a href=\"http://badc.nerc.ac.uk/data/ufam/intercomparison.html\">intercomparison experiment</a> \r\nand the <a href=\"http://badc.nerc.ac.uk/data/ufam/shoeburyness.html\">Shoeburyness field trial</a>, or as background measurements in between assignments. This data\r\nis kept in the <a href=\"http://data.ceda.ac.uk/badc/ufam/\">\r\nUFAM archive</a>.\r\n</li></ul>\r\nThese archives are, by their nature, inter-linked and the data will be archived in such a \r\nway that it is browsable via either the instrument or via a particular project title. \r\nThis will establish a long-term data archive of data using consistent formats that will be a \r\nvaluable asset to future researchers. \r\nAccess to each archive must be applied for separately. <br />\r\n <br />\r\n\r\n <hr align=\"LEFT\" />\r\n\r\n <h2>Data Management</h2>\r\n\r\n <p>The BADC has produced a <a href=\"http://badc.nerc.ac.uk/data/ufam/ufam_dmp.pdf\">Data Management Plan</a> for UFAM. These documents cover all the data-related issues relating to UFAM research and are a useful guide for data providers and instrument scientists. The Annex of the Data Management Plan holds the <a href=\"http://badc.nerc.ac.uk/data/ufam/ufam_data_protocol.pdf\">UFAM Data Protocol</a>.\r\n</p> <p>\r\n</p> <hr align=\"LEFT\" />\r\n\r\n <h2>File-naming, metadata and data formats</h2>\r\n\r\n <p>The BADC is encouraging all UFAM projects and campaigns to deliver data in either <a href=\"https://help.ceda.ac.uk/article/106-netcdf\">NetCDF</a> (binary) or <a href=\"http://cedadocs.ceda.ac.uk/73/4/index.html\">NASA Ames</a> (ASCII) format. NetCDF data should conform to the <a href=\"https://help.ceda.ac.uk/article/106-netcdfindex_cf.html\">Climate and Forecasts (CF) Metadata Convention</a>. Information on the inclusion of <a href=\"http://badc.nerc.ac.uk/data/ufam/metadata.html\">metadata</a> is also provided.\r\n\r\n</p> <p>If you are a data provider please see the <a href=\"http://badc.nerc.ac.uk/data/ufam/submission.html\">submission instructions</a>. Advice on standardising filenames is provided on the <a href=\"http://badc.nerc.ac.uk/help/file_naming.html\">file-naming convention page</a> along with a list of <a href=\"http://badc.nerc.ac.uk/filespec_doc?id=INSTRUMENTAL&hfile=1\">common names</a> used for instruments, locations etc. in filenames.</p> <p>\r\n\r\n</p> <p>Many data files contain the variable <i>time</i> which can be expressed in \r\nseveral ways. Guidelines on the <a href=\"http://cedadocs.ceda.ac.uk/73/4/index.htmlnasa-ames-time.htm\"> \r\nrecommended format of the time-variable</a> header lines, units and the data values in \r\nNasa-Ames files are available and are based on the format used in NetCDF.\r\n\r\n</p> <hr align=\"LEFT\" />\r\n <h2>\r\nCitation\r\n</h2>\r\n <ul>Universities Weather Research Network (UWERN), Blyth, A.; Hopkins, J.; Collier, C.; Gallagher, M.; Heard, D.; Illingworth, A.; Jones, R.; Lewis, A.; Robins, A.; Vaughan, G.; Price, J.; Bandy, B.; Bozier, K.; Brooks, B.; Flynn, M.; Garcelon, S.; Hayden, P.; Ingham, T.; Nicol, J.; Norton, E.; Whalley, L.; Williams, P. Universities Facility for Atmospheric Measurement (UFAM), [Internet]. British Atmospheric Data Centre, 2006, <i>Date of citation</i>. Available from http://badc.nerc.ac.uk/data/ufam/\r\n</ul>\r\n\r\n <hr align=\"LEFT\" />\r\n <h2>Further information</h2>\r\n\r\n <p>Please see the <a href=\"http://ufam.nerc.ac.uk\">UFAM</a> website for more information.</p>", "modified": "2018-09-03", "ob_ref": 11172 }, { "id": 10179, "key": "project.moles2_activity_subtype", "value": "dgActivityDataProject", "modified": "2014-09-28", "ob_ref": 11172 }, { "id": 10181, "key": "moles2.provider", "value": "badc.nerc.ac.uk", "modified": "2014-09-28", "ob_ref": 11177 }, { "id": 10186, "key": "moles2.provider", "value": "badc.nerc.ac.uk", "modified": "2014-09-28", "ob_ref": 11195 }, { "id": 10198, "key": "moles2.provider", "value": "badc.nerc.ac.uk", "modified": "2014-09-28", "ob_ref": 11232 }, { "id": 10199, "key": "moles2.provider", "value": "badc.nerc.ac.uk", "modified": "2014-09-28", "ob_ref": 11235 }, { "id": 10218, "key": "moles2.provider", "value": "badc.nerc.ac.uk", "modified": "2014-09-28", "ob_ref": 11294 }, { "id": 10230, "key": "Computation.content.contact", "value": "<div property=\"cedacat:contact\">\r\n<div class=\"contact\">Who to contact</div>\r\n<p>If you have queries about these pages or about obtaining the NASA GISS data from the BADC then you should contact <a href=\"http://www.ceda.ac.uk/contact/\">CEDA Support</a>. Your query should be answered within one working day. When follow-up work is required, the CEDA support will carry out the work as quickly and efficiently as possible, and in any case, the user will be kept informed of progress.</p>\r\n</div>\r\n\r\n", "modified": "2015-11-09", "ob_ref": 11332 }, { "id": 10231, "key": "Computation.content.links", "value": "<div property=\"cedacat:links\">\r\n<div class=\"operation\">Operational Details</div>\r\n<ol>\r\n<li>\r\n<div class=\"operationTitle\">NASA Goddard Institute for Space Studies (GISS) (USA) computer</div>\r\nThe climate models that GISS has developed and operates include atmospheric general circulation models (AGCMs) and coupled atmosphere-ocean models. Such computer models numerically solve fundamental equations describing the conservation of mass, energy, momentum, etc. for each atmospheric gridbox, while taking into account the transfer of those quantities between gridboxes. They also consider, often in parameterized form, the physical processes within the boxes, including sources and sinks of these quantities.\r\n</li>\r\n</ol>\r\n</div>", "modified": "2015-11-09", "ob_ref": 11332 }, { "id": 10233, "key": "moles2.provider", "value": "badc.nerc.ac.uk", "modified": "2014-09-28", "ob_ref": 11336 }, { "id": 10241, "key": "moles2.provider", "value": "badc.nerc.ac.uk", "modified": "2014-09-28", "ob_ref": 11341 }, { "id": 10244, "key": "moles2.provider", "value": "badc.nerc.ac.uk", "modified": "2014-09-28", "ob_ref": 11352 }, { "id": 10246, "key": "moles2.provider", "value": "badc.nerc.ac.uk", "modified": "2014-09-28", "ob_ref": 11358 }, { "id": 10247, "key": "Computation.content.contact", "value": "<div property=\"cedacat:contact\">\r\n<div class=\"contact\">Who to contact</div>\r\n<p>If you have queries about these pages or about obtaining the CCCma data from the BADC then you should contact <a href=\"http://www.ceda.ac.uk/contact/\">CEDA Support</a>. Your query should be answered within one working day. When follow-up work is required, the CEDA support will carry out the work as quickly and efficiently as possible, and in any case, the user will be kept informed of progress.</p>\r\n</div>\r\n\r\n", "modified": "2015-11-09", "ob_ref": 11360 }, { "id": 10248, "key": "Computation.content.links", "value": "<div property=\"cedacat:links\">\r\n<div class=\"operation\">Operational Details</div>\r\n\r\n\r\n<div class=\"operationTitle\">Canadian Centre for Climate Modelling and Analysis computing facility</div>\r\n<p>The CCCma has an ongoing model development programme in order to carry out research in modelling and analysis. The CCCma computer facility are responsible for:\r\n</p><li>Developing computer models of the climate system to simulate global climate, regional climate, and climate change</li>\r\n<li>Attributing observed climate changes to specific causes</li>\r\n<li>Predicting seasonal and longer term climate variations</li>\r\n\r\n\r\n</div>", "modified": "2015-11-09", "ob_ref": 11360 }, { "id": 10251, "key": "project.moles2_activity_subtype", "value": "dgActivityDataProject", "modified": "2014-09-28", "ob_ref": 11366 }, { "id": 10255, "key": "moles2.provider", "value": "badc.nerc.ac.uk", "modified": "2014-09-28", "ob_ref": 11379 }, { "id": 10256, "key": "Computation.content.contact", "value": "<div property=\"cedacat:contact\">\r\n<div class=\"contact\">Who to contact</div>\r\n<p>If you have queries about these pages or about obtaining the CCCma data from the BADC then you should contact <a href=\"http://www.ceda.ac.uk/contact/\">CEDA Support</a>. Your query should be answered within one working day. When follow-up work is required, the CEDA support will carry out the work as quickly and efficiently as possible, and in any case, the user will be kept informed of progress.</p>\r\n</div>\r\n\r\n", "modified": "2015-11-09", "ob_ref": 11381 }, { "id": 10257, "key": "Computation.content.links", "value": "<div property=\"cedacat:links\">\r\n<div class=\"operation\">Operational Details</div>\r\n\r\n\r\n<div class=\"operationTitle\">Canadian Centre for Climate Modelling and Analysis computing facility</div>\r\n<p>The CCCma has an ongoing model development programme in order to carry out research in modelling and analysis. The CCCma computer facility are responsible for:\r\n</p><li>Developing computer models of the climate system to simulate global climate, regional climate, and climate change</li>\r\n<li>Attributing observed climate changes to specific causes</li>\r\n<li>Predicting seasonal and longer term climate variations</li>\r\n\r\n\r\n</div>", "modified": "2015-11-09", "ob_ref": 11381 }, { "id": 10259, "key": "moles2.provider", "value": "badc.nerc.ac.uk", "modified": "2014-09-28", "ob_ref": 11385 }, { "id": 10265, "key": "Computation.content.links", "value": "<div property=\"cedacat:links\">\r\n<div class=\"links\">Documentation and Links to further information and references</div>\r\n<p>\r\n</p><ol>\r\n <li> MetOffice HadGEM1 <a href=\"http://www.metoffice.gov.uk/research/modelling-systems/unified-model/climate-models/hadgem1\">\" here \" </a> </li>\r\n <li> hadGem1 Model Information of Potential Use to the IPCC Lead Authors and the AR4 <a href=\"http://www-pcmdi.llnl.gov/ipcc/model_documentation/HadGEM1.htm\">\" here \"</a> </li>\r\n\r\n</ol>\r\n\r\n\r\n</div>\r\n\r\n\r\n", "modified": "2018-04-09", "ob_ref": 11398 }, { "id": 10266, "key": "Computation.content.citation", "value": "<div property=\"cedacat:citation\">\r\n<div class=\"citation\">Citation</div>\r\n<p>\r\n\r\n</p><ol>\r\n <li> Johns, T.C, C. F. Durman, H. T. Banks, M. J. Roberts, A. J. McLaren, J. K. Ridley, C. A. Senior, K. D. Williams, A. Jones, G. J. Rickard, S. Cusack, W. J. Ingram, M. Crucifix, D. M. H. Sexton, M. M. Joshi, B-W. Dong, H. Spencer, R. S. R. Hill, J. M. Gregory, A.B. Keen, A. K. Pardaens, J. A. Lowe, A. Bodas-Salcedo, S. Stark, and Y. Searl, 2006: The new Hadley Centre climate model HadGEM1: Evaluation of coupled simulations. Journal of Climate, vol 19, p1327-1353</li>\r\n <li> Martin, G.M., M.A. Ringer, V.D. Pope, A. Jones, C. Dearden and T.J. Hinton, 2006: The physical properties of the atmosphere in the new Hadley Centre Global Environmental Model, HadGEM1. Part 1: Model description and global climatology. Journal of Climate, vol 19, p1274-1301.</li>\r\n <li> Ringer, M.A., G.M. Martin, C.Z. Greeves, T.J. Hinton, P.M. James, V.D. Pope, A.A. Scaife, R.A. Stratton, P.M. Inness, J.M. Slingo, and G.-Y. Yang, 2006: The physical properties of the atmosphere in the new Hadley Centre Global Environmental Model, HadGEM1. Part 2: Aspects of variability and regional climate. Journal of Climate, vol 19, p1302-1326</li> \r\n </ol>\r\n\r\n\r\n</div>\r\n\r\n\r\n", "modified": "2018-04-09", "ob_ref": 11398 }, { "id": 10267, "key": "Computation.content.contact", "value": "<div property=\"cedacat:contact\">\r\n<div class=\"contact\">Who to contact</div>\r\n<p> \r\n\r\n</p><p>Coupled model: tim.johns@metoffice.gov.uk\r\n</p><p>Atmosphere: gill.martin@metoffice.gov.uk\r\n</p><p>Ocean: helene.banks@metoffice.gov.uk\r\n</p><p>Sea ice: helene.banks@metoffice.gov.uk\r\n</p><p>Land surface: richard.betts@metoffice.gov.uk\r\n</p><p>Vegetation : richard.betts@metoffice.gov.uk\r\n\r\n\r\n</p></div>", "modified": "2018-04-09", "ob_ref": 11398 }, { "id": 10268, "key": "Computation.content.formats", "value": "<div property=\"cedacat:formats\">\r\n<div class=\"formats\">Data availability and file format</div>\r\n<p>\r\nUnknown\r\n</p><p>\r\n</p></div>\r\n\r\n\r\n\r\n", "modified": "2018-04-09", "ob_ref": 11398 }, { "id": 10269, "key": "Computation.content.access-restricted", "value": "<div property=\"cedacat:access-restricted\">\r\n<div class=\"access-restricted\">Restricted Data Access</div>\r\n<p> Not applicable </p><p>\r\n</p></div>\r\n\r\n\r\n", "modified": "2018-04-09", "ob_ref": 11398 }, { "id": 10270, "key": "moles2.provider", "value": "badc.nerc.ac.uk", "modified": "2014-09-28", "ob_ref": 11399 }, { "id": 10281, "key": "moles2.provider", "value": "badc.nerc.ac.uk", "modified": "2014-09-28", "ob_ref": 11424 }, { "id": 10282, "key": "Computation.content.contact", "value": "<div property=\"cedacat:contact\">\n<div class=\"contact\">Who to contact</div>\n<p>If you have queries about these pages or about obtaining the ModelE/Russell data from the BADC then you should contact <a href=\"http://www.ceda.ac.uk/contact/\">CEDA Support</a>. Your query should be answered within one working day. When follow-up work is required, the CEDA support will carry out the work as quickly and efficiently as possible, and in any case, the user will be kept informed of progress.</p>\n</div>", "modified": "2014-09-28", "ob_ref": 11426 }, { "id": 10283, "key": "Computation.content.links", "value": "<div property=\"cedacat:links\">\n<div class=\"links\">Documentation and Links to further information and references</div>\n<p>The <a href=\"http://www.atmos-chem-phys-discuss.net/12/21615/2012/acpd-12-21615-2012-print.pdf\">Pre-industrial to end 21st century projections of tropospheric ozone from the Atmospheric Chemistry and Climate Model Intercomparison Project (ACCMIP)</a> publication, contains further information on the ModelE/Russell coupled atmosphere ocean model.</p>\n</div>\n\n\n", "modified": "2014-09-28", "ob_ref": 11426 }, { "id": 10284, "key": "Computation.content.contact", "value": "<div property=\"cedacat:contact\">\n<div class=\"contact\">Who to contact</div>\n<p>If you have queries about these pages or about obtaining the NASA GISS data from the BADC then you should contact <a href=\"http://www.ceda.ac.uk/contact/\">CEDA Support</a>. Your query should be answered within one working day. When follow-up work is required, the CEDA support will carry out the work as quickly and efficiently as possible, and in any case, the user will be kept informed of progress.</p>\n</div>\n\n", "modified": "2014-09-28", "ob_ref": 11426 }, { "id": 10285, "key": "Computation.content.links", "value": "<div property=\"cedacat:links\">\n<div class=\"operation\">Operational Details</div>\n<ol>\n<li>\n<div class=\"operationTitle\">NASA Goddard Institute for Space Studies (GISS) (USA) computer</div>\nThe climate models that GISS has developed and operates include atmospheric general circulation models (AGCMs) and coupled atmosphere-ocean models. Such computer models numerically solve fundamental equations describing the conservation of mass, energy, momentum, etc. for each atmospheric gridbox, while taking into account the transfer of those quantities between gridboxes. They also consider, often in parameterized form, the physical processes within the boxes, including sources and sinks of these quantities.\n</li>\n</ol>\n</div>", "modified": "2014-09-28", "ob_ref": 11426 }, { "id": 10306, "key": "moles2.provider", "value": "badc.nerc.ac.uk", "modified": "2014-09-28", "ob_ref": 11494 }, { "id": 10313, "key": "moles2.provider", "value": "badc.nerc.ac.uk", "modified": "2014-09-28", "ob_ref": 11518 }, { "id": 10316, "key": "moles2.provider", "value": "badc.nerc.ac.uk", "modified": "2014-09-28", "ob_ref": 11521 }, { "id": 10317, "key": "Computation.content.contact", "value": "<div property=\"cedacat:contact\">\n<div class=\"contact\">Who to contact</div>\n<p>If you have queries about these pages or about obtaining the CMAM data from the BADC then you should contact <a href=\"http://www.ceda.ac.uk/contact/\">CEDA Support</a>. Your query should be answered within one working day. When follow-up work is required, the CEDA support will carry out the work as quickly and efficiently as possible, and in any case, the user will be kept informed of progress.</p>\n</div>\n\n", "modified": "2014-09-28", "ob_ref": 11523 }, { "id": 10318, "key": "Computation.content.links", "value": "<div property=\"cedacat:links\">\n<div class=\"operation\">Operational Details</div>\n<ol>\n<li>\n<div class=\"operationTitle\">{Insert title of operation here}</div>\n{insert content here}\n</li>\n</ol>\n</div>", "modified": "2014-09-28", "ob_ref": 11523 }, { "id": 10331, "key": "Computation.content.all", "value": "More details to follow", "modified": "2014-09-28", "ob_ref": 11540 }, { "id": 10350, "key": "moles2.provider", "value": "neodc.nerc.ac.uk", "modified": "2014-09-28", "ob_ref": 11577 }, { "id": 10351, "key": "project.moles2_activity_subtype", "value": "dgActivityDataCampaign", "modified": "2014-09-28", "ob_ref": 11579 }, { "id": 10352, "key": "moles2.provider", "value": "badc.nerc.ac.uk", "modified": "2014-09-28", "ob_ref": 11580 }, { "id": 10355, "key": "moles2.provider", "value": "badc.nerc.ac.uk", "modified": "2014-09-28", "ob_ref": 11590 }, { "id": 10367, "key": "moles2.provider", "value": "badc.nerc.ac.uk", "modified": "2014-09-28", "ob_ref": 11602 }, { "id": 10370, "key": "observation.content.citation", "value": "<div property=\"cedacat:citation\">\r\n<div class=\"citation\">Citation</div>\r\nUniversity of East Anglia Climatic Research Unit (CRU); [Tim Osborn]. CRUTEM4.2.0.0-2013-03: Climatic Research Unit (CRU) Gridded Dataset of Global Historical Near-Surface Air TEMperature Anomalies Over Land (version 4.2.0.0 Jan.1850 - Mar.2013), [Internet]. NCAS British Atmospheric Data Centre, 2013, 20th September 2013. Available from doi:10.5285/EECBA94F-62F9-4B7C-88D3-482F2C93C468 \r\n</div>", "modified": "2025-04-30", "ob_ref": 11602 }, { "id": 10976, "key": "doi.citation.date", "value": "29 November 2011", "modified": "2014-09-28", "ob_ref": 11018 }, { "id": 10991, "key": "observation.content.access-restricted", "value": "<div property=\"cedacat:access-restricted\">\r\n<div class=\"access-restricted\"><b>Access Restrictions</b></div>\r\n\r\n\r\n<p>Access to <a href=\"http://neodc.nerc.ac.uk/browse/neodc/esacci_sst\">ESA CCI SST data</a> is made available to all registered users under a <a href=\"http://creativecommons.org/licenses/by/3.0/\"> Creative Commons Licence by attribution</a>.\r\n</p><p>\r\nTo download these data, you are invited to <a href=\"http://www.neodc.rl.ac.uk/cgi-infrastructure/mybadc/webreg.cgi.pl\">register as a NEODC user</a>. This online registration only takes a few minutes.\r\n</p>\r\n<p>The authors request an acknowledgement of the data source (cite both citation above and <it>\"Merchant, C. J., Embury, O., Roberts-Jones, J., Fiedler, E., Bulgin, C. E., Corlett, G. K., Good, S., McLaren, A., Rayner, N., Morak-Bozzo, S. and Donlon, C. (2014), Sea surface temperature datasets for climate applications from Phase 1 of the European Space Agency Climate Change Initiative (SST CCI). Geoscience Data Journal. doi: 10.1002/gdj3.20 )\"</it> if they are used in any publication. </p>\r\n</div>", "modified": "2019-08-06", "ob_ref": 11697 }, { "id": 10993, "key": "Instrument.content.all", "value": "OC-EC measurements made on PM2.5 filters collected by the York hivol sampler at the North Kensington site (London) during the ClearfLo winter IOP 2012\n\n\nPM2.5 filter samples are collected with a day-night time resolution using a undenuded HiVol sampler (1.13 m3/min flow rate) owned by the University of York. \nPre-baked quartz filters (QMA, 20.3x25.4 cm, Whatman) are used for collection, wrapped in aluminum foil and stored at -18 Celsius degrees until analysis. OC-EC data were taken using a Sunset OC-EC analyser owned by the University of Birmingham. \nOC-EC analyses were performed on 1.5 cm2 filter portions following the EUSAAR2 thermal protocol and each sample was measured at least twice\nReference on OC-EC measurements and the EUSAAR2 protocol can be found in Cavalli et al., Atmos. Meas. Tech., 3 (79 to 89) 2010\nThe uncertainties for OC, EC and TC were 13.5%, 10.2% and 11.7% respectively. The uncertainties were estimated by using the sum of the squares of the variability of the filter samples measured in replicate within the same day\nNo blank correction has been applied as the measured blanks were found always below the limit of detection (LoD of TC was 0.2 ug/cm2),TC was found to be at least 10 times above the LoD in all samples", "modified": "2014-12-22", "ob_ref": 11723 }, { "id": 10995, "key": "Instrument.content.all", "value": "The 5 cm cell is a fixed pathlength sample cell which fits in the sample compartment of one of the MSF spectrometers. It s configured with platinum resistance thermometers for remotely monitoring the sample conditions throughout the course of measurements. The cell is constructed of stainless steel and is coolable down to 77 K. It can be configures with optical windows to allow operation from FIR to UV.", "modified": "2014-12-22", "ob_ref": 11725 }, { "id": 10996, "key": "Instrument.content.all", "value": "Empty content", "modified": "2014-12-22", "ob_ref": 11726 }, { "id": 10998, "key": "Computation.content.all", "value": "Empty content", "modified": "2014-12-22", "ob_ref": 11728 }, { "id": 11000, "key": "Instrument.content.all", "value": "Empty content", "modified": "2014-12-22", "ob_ref": 11730 }, { "id": 11001, "key": "Instrument.content.all", "value": "Three Rotating Drum Impactors (RDI) are operated for the CLEARFLO monitoring project at Marylebone Road, North Kensington and Detling project sites in London. These particle samplers measure the elemental composition of particle in the ranges PM10-2.5, PM2.5-1.0, and PM1.0-0.1 starting from January 2012 with 2 hourly resolution.", "modified": "2014-12-22", "ob_ref": 11731 }, { "id": 11002, "key": "Instrument.content.all", "value": "Empty content", "modified": "2014-12-22", "ob_ref": 11732 }, { "id": 11003, "key": "Instrument.content.all", "value": "Metadata document ", "modified": "2014-12-22", "ob_ref": 11733 }, { "id": 11004, "key": "Instrument.content.all", "value": "The SPAC is configured with dedicated gas handling, temperature, and pressure measurement systems for accurately filling the cell and remotely monitoring the sample conditions throughout the course of measurements.\r\n\r\nThe SPAC is a White-type multi reflection cells in which high reflectance mirrors are used to fold paths of up to 22 metres into compact absorption systems. It can be cooled to 77 K or heated to 470 K and used at pressures up to 5 bar. The cell can be connected to the very high-resolution Bruker spectrometer by using evacuated paths.", "modified": "2018-04-09", "ob_ref": 11734 }, { "id": 11005, "key": "Instrument.content.all", "value": "TEI 49i ozone analyser measuring ozone (O3) and Ecophysics 780TR NO analyser with BLC NO2 converter measuring NOx - operated by University of York, Department of Chemistry. Data produced are annual files with 5 minute averaging.", "modified": "2014-12-22", "ob_ref": 11735 }, { "id": 11006, "key": "Instrument.content.all", "value": "Empty content", "modified": "2014-12-22", "ob_ref": 11736 }, { "id": 11007, "key": "Computation.content.all", "value": "Empty content", "modified": "2014-12-22", "ob_ref": 11737 }, { "id": 11008, "key": "Computation.content.all", "value": "Empty content", "modified": "2014-12-22", "ob_ref": 11738 }, { "id": 11009, "key": "Computation.content.all", "value": "Empty content", "modified": "2014-12-22", "ob_ref": 11739 }, { "id": 11010, "key": "Computation.content.links", "value": "<div property=\"cedacat:links\">\n<div class=\"links\">Documentation and Links to further information and references</div>\n{insert content here}\n</div>\n\n\n", "modified": "2014-12-22", "ob_ref": 11740 }, { "id": 11011, "key": "Computation.content.citation", "value": "<div property=\"cedacat:citation\">\n<div class=\"citation\">Citation</div>\n{insert content here}\n</div>\n\n\n", "modified": "2014-12-22", "ob_ref": 11740 }, { "id": 11012, "key": "Computation.content.contact", "value": "<div property=\"cedacat:contact\">\n<div class=\"contact\">Who to contact</div>\n{insert content here}\n</div>", "modified": "2014-12-22", "ob_ref": 11740 }, { "id": 11013, "key": "Computation.content.formats", "value": "<div property=\"cedacat:formats\">\n<div class=\"formats\">Data availability and file format</div>\n{insert content here}\n</div>\n\n\n", "modified": "2014-12-22", "ob_ref": 11740 }, { "id": 11014, "key": "Computation.content.access-restricted", "value": "<div property=\"cedacat:access-restricted\">\n<div class=\"access-restricted\">Restricted Data Access</div>\n{insert content here}\n</div>\n\n\n", "modified": "2014-12-22", "ob_ref": 11740 }, { "id": 11015, "key": "Instrument.content.extra", "value": " <h2>Met Office Counter flow Virtual Impactor (CVI)</h2>\r\n\r\n <p>The Counter flow Virtual Impactor (CVI) is an inlet (operated on the FAAM BAe-146 aircraft) designed to initially separate cloud particles from the ambient atmosphere. Once captured, cloud particles are evaporated in a clean, dry airstream. </p>\r\n\r\n <p>Instruments downstream analyse the resulting water vapour and cloud condensation nuclei (CCN), or ice nuclei (IN) as applicable. Such instruments include a <a href=\"http://badc.nerc.ac.uk/view/badc.nerc.ac.uk__ATOM__dpt_12211459703926562\">Condensation Particle Counter - CPC3010 (TSI)</a>, a <a href=\"http://badc.nerc.ac.uk/view/badc.nerc.ac.uk__ATOM__dpt_11634276873610506\">Passive Cavity Aerosol Spectrometer Probe PCASP-x (DMT)\r\n(later SPP200)</a>, and a custom built <a href=\"http://badc.nerc.ac.uk/view/badc.nerc.ac.uk__ATOM__dpt_11721027101915377\">Lyman-Alpha absorption hygrometer.</a></p>\r\n\r\n <p>The sample may also distributed to other instruments, including an Aerosol Mass Spectrometer (TofAMS - Aerodyne), Single Particle Soot\r\nPhotometer (SP2 - DMT), and Ultra High Sensitivity Aerosol Spectrometer (UHSAS - DMT) operated by University of Manchester. It is possible to\r\nsupply other instrumentation, and requests to do so are welcomed, and encouraged.</p>", "modified": "2015-11-11", "ob_ref": 11793 }, { "id": 11016, "key": "Instrument.content.extra", "value": "<br />\r\n <br />Frequency 915.0 MHz\r\n <br />Height resolution (High/Low res.) 60 / 200m\r\n <br />Height range (High/Low res.) 0.3km to 8.0km\r\n <br />Averaging period 30 minutes\r\n <br />This instrument was operated at the NERC MST Radar site at Capel Dewi, near Aberystwyth between November 1999 and March 2002; it was then relocated to South Uist until May 2005 and is currently located on the Isle of Man.", "modified": "2018-12-04", "ob_ref": 11873 }, { "id": 11017, "key": "Instrument.content.all", "value": "Empty content", "modified": "2014-12-22", "ob_ref": 11890 }, { "id": 11018, "key": "Computation.content.all", "value": "Empty content", "modified": "2014-12-22", "ob_ref": 11891 }, { "id": 11019, "key": "Instrument.content.all", "value": "Empty content", "modified": "2014-12-22", "ob_ref": 11892 }, { "id": 11020, "key": "Instrument.content.all", "value": "Empty content", "modified": "2014-12-22", "ob_ref": 11893 }, { "id": 11023, "key": "Platform.content.all", "value": "Dimensions:\r\n\r\n Length: 22.67 m; Height: 7.75 m; Wingspan: 24.57 m; \r\n\r\n\r\nFlying performances:\r\n\r\n Speed:\r\n Min speed: 70 m/s\r\n Max speed: 134 m/s\r\n Usual speed during measurements: 100 m/s\r\n Usual speed during transit flights: 134 m/s\r\n Ascent rate: 6 m/s\r\n\r\n Altitude:\r\n (1 ft = 0.31 m)\r\n Min altitude:\r\n Above sea: 200 ft\r\n Above ground: 500 ft\r\n Max ceiling: 25000 ft\r\n Usual ceiling during measurements: 21000 ft\r\n\r\n\r\n Payload:\r\n Empty weight: 11300 kg\r\n Max take-off weight: 16900 kg\r\n Max payload: 4600 kg\r\n Max scientific payload: 3300 kg ... (X-coordinate of 2nd point)\r\n Usual scientific payload during measurements: 2000 kg\r\n Scientific payload for max endurance: 100 kg ... (X-coordinate of 1st point)\r\n Endurance:\r\n Max endurance: 6 h (at min scientific payload and max fuel) (Y-coordinate of 1st point)\r\n Endurance at max scientific payload: 2 h ... (Y-coordinate of 2nd point)\r\n \t\r\n Range:\r\n Max range: 2200 km (at min scientific payload and max fuel)\r\n Range at max scientific payload: 500 km\r\n Usual range during measurement flight: 1500 km\r\n\r\n Other:\r\n Weather conditions limitations:\r\n Certified VFR/IFR and icing conditions\r\n Take-off runway length: 1200 m\r\n Avionics:\r\n EFIS equipped \r\n\r\nCrew and scientists on board:\r\n\r\n Crew (pilots + operators): 2 pilots, 2 flight engineers;\r\n Seats available for scientists: up to 7 scientists\r\n\r\nCabin:\r\n\r\n Length: 11,56m\r\n Width: 2,57m\r\n Height: Width at floor : 2,26m ; Height : 1,91 m\r\n\r\n Apertures:\r\n Main door : Width : 0,75m ; Height : 1,75 m ;\r\n Forward Cargo door : Width : 1,275 m ; Height : 1,53 m;\r\n Cabin pressurized:\r\n Yes \r\n\r\nAircraft modifications:\r\n\r\n Nose boom:\r\n Equipped with a 5 holes probe in the nose for high rate turbulence measurements\r\n Windows:\r\n All windows can be equipped with scientific instruments\r\n Openings:\r\n Many openings have been made.\r\n Top fuselage:\r\n - 2 holes diam 150mm\r\n - 1 hole diam 200mm\r\n - 1 hole diam 400mm above ground opening\r\n Bottom of fuselage:\r\n - large front opening 400*600mm\r\n - large back opening 400*700mm\r\n - 2 holes diam 150mm\r\n - 1 hole diam 200mm\r\n\r\n Hard points:\r\n PMS carrying points under the wings (3 per wing max.)\r\n Other heavier carrying point around fuselage (4 points)\r\n Inlets:\r\n - Isokinetic Aerosol inlet on the front right window\r\n - CVI aerosol inlet on the top left of fuselage (on demand)\r\n - many chemistry inflow or reverse flow inlets.\r\n Additionnal systems:\r\n See all aircraft modifications in the attached document \r\n\r\nAcquisition systems:\r\n\r\n Data acquisition is centralized and each scientist can display all parameters on his/her screen. Time series of all data can be provided after each flight (within 2 hours).\r\n\r\nElectrical power:\r\n\r\n Aircraft total electrical power (kW):\r\n 18 kW at ground with external power\r\n 20 kW in flight\r\n 14 kW in hotel mode (On ground with engine running. When no ground power unit available)\r\n Electrical power (kW) and voltages (V) available for scientists:\r\n 15 kW at ground, 20 kW in flight. 28 V DC, 110V AC 400 Hz, 220V AC-50 Hz ", "modified": "2017-01-31", "ob_ref": 11911 }, { "id": 11024, "key": "Platform.content.all", "value": "Dimensions:\n\n Length: 30.90 m; Height: 7.90 m; Wingspan: 28.50 m; \n\n\nFlying performances:\n\n Speed:\n Min speed: 92 m/s\n Max speed: 258 m/s\n Usual speed during measurements: 175 m/s\n Ascent rate: 10 m/s\n\n Altitude:\n (1 ft = 0.31 m)\n Min altitude:\n Above sea: 200 ft\n Above ground: 500 ft\n Max ceiling: 51000 ft\n Usual ceiling during measurements: 47000 ft\n Ceiling limitations:\n Data - Sheet EASA\n Airframe and Engine determined \n\n Payload:\n Empty weight: 22120 kg\n Max take-off weight: 41277 kg\n Max payload: 3000 kg\n Max scientific payload: 3000 kg ... (X-coordinate of 2nd point)\n Usual scientific payload during measurements: 1000 kg\n Scientific payload for max endurance: 1000 kg ... (X-coordinate of 1st point)\n Endurance:\n Max endurance: 13 h (at min scientific payload and max fuel) (Y-coordinate of 1st point)\n Endurance at max scientific payload: 11 h ... (Y-coordinate of 2nd point)\n \t\n Range:\n Conditions for max range:\n FL410 - FL510 stepclimb Mach 0.77\n\n Other:\n Weather conditions limitations:\n VFR and IFR (generally in icing conditions)\n Take-off runway length: 1830 m\n Engines:\n Rolls Royce BR710 (2 x 15.385 lbs up to 30°C)\n ;\n Avionics:\n Honeywell Primus Epic Planview \n\nCrew and scientists on board:\n\n Crew (pilots + operators): 2 pilots for all operations;\n Seats available for scientists: up to max. 15 seats + 1 jumpseat\n\nCabin:\n\n Length: 13,39\n Width: 2,2 center fuselage\n Height: 1,9\n\n Apertures:\n Maindoor: 1,52 x 0,88 / Baggagedoor 0,91 x 0,96\n ;\n Cabin pressurized:\n Yes, equivalent 6.000ft cabin altitude\n at 51.000 diff.press. 10,17 psid \n\nAircraft modifications:\n\n Nose boom:\n 1,5 m length in front of aircraft nose, made of CFK for carrying measuring probes\n\n Windows:\n 2 coverable viewports in the bottom and 2 on top\n of the fuselage with a diameter of 20\" each.\n\n Openings:\n 10 apertures on top each 10 x 7\" ; 2 apertures\n 10 x 14\" ; bottom: 1 aperture 10 x 7\" ;\n 9 apertures 10 x 7\"\n Hard points:\n under the wings: 6 hardpoint stations (3 each wing) to carry loads up to 400 kg each. \n Inlets:\n possible: 12 upper, 10 lower fuselage possible\n on apertures and viewports\n Additionnal systems:\n not available, for the time being. \n\nAcquisition systems:\n\n TBD (under development)\n\nElectrical power:\n\n Aircraft total electrical power (kW):\n 115V/400Hz - 2 x 40 KW\n Electrical power (kW) and voltages (V) available for scientists:\n 2 x 20KW - 115V - 400Hz 3Phase ; 115V/400Hz\n each phase 20A fused ; 28V DC - 2 x 250A via\n TRU - fused on 20A and 50A sockets\n 230V/50Hz = 2 x 3,5KW ", "modified": "2014-12-22", "ob_ref": 11912 }, { "id": 11025, "key": "Platform.content.all", "value": "Dimensions:\n\n Length: 8.00 m; Height: 3.00 m; Wingspan: 11.00 m; \n\n\nFlying performances:\n\n Speed:\n Min speed: 40 m/s\n Max speed: 80 m/s\n Usual speed during measurements: 55 m/s\n Usual speed during transit flights: 65 m/s\n Ascent rate: 6 m/s\n\n Altitude:\n (1 ft = 0.31 m)\n Min altitude:\n Above sea: 250 ft\n Above ground: 250 ft\n Max ceiling: 20000 ft\n Usual ceiling during measurements: 15000 ft\n\n\n Payload:\n Empty weight: 1300 kg\n Max take-off weight: 2100 kg\n Max payload: 800 kg\n Max scientific payload: 100 kg ... (X-coordinate of 2nd point)\n Usual scientific payload during measurements: 40 kg\n Scientific payload for max endurance: 40 kg ... (X-coordinate of 1st point)\n Endurance:\n Max endurance: 5 h (at min scientific payload and max fuel) (Y-coordinate of 1st point)\n Endurance at max scientific payload: 5 h ... (Y-coordinate of 2nd point)\n \t\n Range:\n Max range: 970 km (at min scientific payload and max fuel)\n Usual range during measurement flight: 450 km\n\n Other:\n Weather conditions limitations:\n VFR + IFR\n\nCrew and scientists on board:\n\n Crew (pilots + operators): 2 + 2;\n Seats available for scientists: 2\n\nCabin:\n\n -\n\nAircraft modifications:\n\n Nose boom:\n Mobile Flux Platform probe, 9 holes pressure sphere, CO2, H2O, temperature\n Openings:\n Two downward looking openings at centre of aircraft\n\nAcquisition systems:\n\n -\n\nElectrical power:\n\n Electrical power (kW) and voltages (V) available for scientists:\n 0.8 kW at 12VDC ", "modified": "2014-12-22", "ob_ref": 11913 }, { "id": 11026, "key": "Platform.content.contact", "value": "<div property=\"cedacat:contact\">\n<div class=\"contact\">Who to contact</div>\n<p>If you have queries about these pages or about obtaining the Met Office surface stations data from the BADC then you should contact <a href=\"http://www.ceda.ac.uk/contact/\">CEDA Support</a>. Your query should be answered within one working day. When follow-up work is required, the CEDA support will carry out the work as quickly and efficiently as possible, and in any case, the user will be kept informed of progress.</p>\n</div>", "modified": "2014-12-22", "ob_ref": 11914 }, { "id": 11027, "key": "Platform.content.links", "value": "<div property=\"cedacat:links\">\n<div class=\"links\">Documentation and Links to further information and references</div>\n<p>For more information on the observation stations and instruments used to collect measurements which are transmitted in a CHECK message, the <a href=\"http://badc.nerc.ac.uk/data/ukmo-midas/ukmo_guide.html\">Met Office Surface Data Users Guide</a>, describes the meteorological surface data in the Met Office Database - MIDAS.</p>\n<p>For more information about the observation stations which transmit the Check NCM message, the <a href=\"http://archive.ceda.ac.uk/cgi-bin/midas_stations/midas_googlemap.cgi\">MIDAS stations map</a> gives the exact locations of all conforming observation stations.\n</p></div>\n\n\n", "modified": "2018-09-03", "ob_ref": 11914 }, { "id": 11028, "key": "Platform.content.all", "value": "Dimensions:\n\n Length: 10.00 m; Height: 5.00 m; Wingspan: 11.00 m; \n\n\nFlying performances:\n\n Speed:\n Min speed: 35 m/s\n Max speed: 70 m/s\n Usual speed during measurements: 50 m/s\n Usual speed during transit flights: 70 m/s\n\n Altitude:\n (1 ft = 0.31 m)\n Min altitude:\n Above sea: 164 ft\n Above ground: 500 ft\n Max ceiling: 10000 ft\n Usual ceiling during measurements: 5000 ft\n Ceiling limitations:\n 8000 \n\n Payload:\n Max take-off weight: 1275 kg\n Max payload: 264 kg\n Max scientific payload: 264 kg ... (X-coordinate of 2nd point)\n Usual scientific payload during measurements: 100 kg\n Scientific payload for max endurance: 125 kg ... (X-coordinate of 1st point)\n Endurance:\n Max endurance: 5 h (at min scientific payload and max fuel) (Y-coordinate of 1st point)\n Endurance at max scientific payload: 3 h ... (Y-coordinate of 2nd point)\n \t\n Range:\n Max range: 1089 km (at min scientific payload and max fuel)\n Conditions for max range:\n Pilot only, no operator\n Range at max scientific payload: 800 km\n Usual range during measurement flight: 300 km\n\n Other:\n Weather conditions limitations:\n IFR/VFR, non-icing\n Take-off runway length: 400 m\n Engines:\n 1;\n Avionics:\n Garmin GPS, Radar altitude\n JAVAD Differential GPS 20Hz using Cruciform Antennae\n AIMMS-20 GPS/Inertial \n\nCrew and scientists on board:\n\n Crew (pilots + operators): 2;\n Seats available for scientists: 1\n\nCabin:\n\n Length: 2.7\n Width: 1.8\n Height: 1.8\n\n Apertures:\n 4 apertures: 2 up, 2 down cabin-tail, 4 1/4\" gas inlets -2 per wing,\n two large diameter inlets - one per wing 1/2\", 2 exhaust apertures\n cabin;\n Cabin pressurized:\n No\n More information:\n http://cloudbase.phy.umist.ac.uk/field/; \n\nAircraft modifications:\n\n Nose boom:\n None\n Windows:\n 3\n Openings:\n Downward aperture for UV spectrometer/KT-19 IR Sensor\n Upward aperture for UV broadband and SPP100 broadband\n Hard points:\n 1 on each wing - USAA cradle attached certified for PMS pod\n USAA cradle adaptor for AIMMS-20 Turbulence Sensor\n Inlets:\n 1 x 1/2\" pipe per wing outside prop wash - water vapour/T\n sensors.\n 2 x 1/4\" SS port wing with teflon tubing to cabin.\n 3 x 1/4\" SS starboard wing with teflon tubing to cabin.\n Additionnal systems:\n Rear seats removed and replaced with certified removable\n instrument pannier. Instruments can be attached to pannier floor\n with proviso that they not extend above window sill level.\n\n JAVAD 20Hz Differential GPS\n AIMMS Inertial Motion System \n\nAcquisition systems:\n\n In house built/customised DAS Windows-LabView 7 based.\n Single backplane with 2 x P-4 Processors - networked with PSU\n adaptors - entire system self-contained and can be removed in\n single box.\n 32 x 16 Bit A/D; 10 x RS232; 4 x USB; Ethernet hub\n 4 x spare PCI slots\n Dedicated Multi-processor board PC/Notebook DAS can be\n flown also.\n Motorola satellite telephone fitted - can be used to transmit\n limited amounts of data to ground.\n\nElectrical power:\n\n Aircraft total electrical power (kW):\n 28V DC at 100A/115 V AC at 1kW\n Electrical power (kW) and voltages (V) available for scientists:\n 28V DC at 100A/115 V AC at 1kW ", "modified": "2014-12-22", "ob_ref": 11915 }, { "id": 11029, "key": "Platform.content.all", "value": "Dimensions:\n\n Length: 18.09 m; Height: 5.06 m; Wingspan: 14.10 m; \n\n\nFlying performances:\n\n Speed:\n Min speed: 33 m/s\n Max speed: 128 m/s\n Usual speed during measurements: 100 m/s\n Usual speed during transit flights: 128 m/s\n Ascent rate: 2400 m/s\n\n Altitude:\n (1 ft = 0.31 m)\n Min altitude:\n Above sea: 1640 ft\n Above ground: 1640 ft\n Max ceiling: 25000 ft\n Usual ceiling during measurements: 20000 ft\n Ceiling limitations:\n To be defined. \n\n Payload:\n Empty weight: 4080 kg\n Max take-off weight: 5670 kg\n Max payload: 1450 kg\n Usual scientific payload during measurements: 1350 kg\n Endurance:\n Max endurance: 6 h (at min scientific payload and max fuel) (Y-coordinate of 1st point)\n Endurance at max scientific payload: 4 h ... (Y-coordinate of 2nd point)\n \t\n Range:\n Max range: 2300 km (at min scientific payload and max fuel)\n Conditions for max range:\n Minimu crew, landing gear retracted\n with cruise altitude : 20000 ft\n with 2450 kg fuel\n with 70 kg payload\n Range at max scientific payload: 880 km\n\n Other:\n Weather conditions limitations:\n IFR, VFR, Approved for flight into known icing conditions\n Take-off runway length: 800 m\n Engines:\n AiResearch TPE 331-3UW-304G engines, producing 625 kW (840 SHP) continuously and 700 kW (940 SHP) with water injection.;\n Avionics:\n The aircraft is equipped with all required civil communication, navigation and avionics systems, GPS, and a flight Director/Autopilot.\n - Programmable Electronic Flight Instrument System (EFIS) in right instrument panel.\n - Research flight management system\n - Highly accurate position reference system (cm accuracy)\n - Test equipment control panel\n - Special electrical system to feed test equipment\n - Numerous adaptations in cockpit and cabin to accomodate test equiment \n\nCrew and scientists on board:\n\n Crew (pilots + operators): 2 pilots1 test flight engineer in case of standart experiments.;\n Seats available for scientists: 6\n\nCabin:\n\n Length: 10.09 m\n Width: max : 1.50 mfloor: 1.13 m\n Height: 1.46 m\n\n Apertures:\n Entrance door, left forward fuselage\n Size : width : 0.64 m\n Cargo door : left side : 1.345 x 1.3\n Emergency overwing exits : 2 right side, 1 left side;\n Cabin pressurized:\n 7 PSI max\n More information:\n Cabine Volume : 17 m3; \n\nAircraft modifications:\n\n Nose boom:\n length : 2.3 m\n Windows:\n 9 left hand side (with sun shades)\n 10 right hand side (with sun shades)\n Openings:\n - A 0.61 m x 0.61 m camera hatch with 40 mm optical glass, which can be replaced by metal plates for mounting special equipment (e;g; antennas, trailing static tube).\n -Opening in bottom fuselage at copilots seat for navigation sights\n Hard points:\n Hard point under fuselage at wing intersection (max load 160 kg) for an instrumentation pod, antennas or other equipment.\n Antenna support on the top of the fuselage.\n Additionnal systems:\n Numerous facilities in the cabin and cockpit for accomodating test equipment\n A \"roof rack\" can be installed on top of the fuselage that can accomodate multiple antennas. \n\nAcquisition systems:\n\n A multi-channel digital data acquisition and recording system that can handle a large number of parameters with high accuracy at a high sample rate is installed.\n\nElectrical power:\n\n Aircraft total electrical power (kW):\n 2 x 300 A , 28 VDC\n Electrical power (kW) and voltages (V) available for scientists:\n A separate electrical system dedicated to powering on-board test equipment, (28 VDC, 115 VAC 400 Hz, 220 VAC)Total available for experiments : 300 A, 28 VDC ", "modified": "2014-12-22", "ob_ref": 11916 }, { "id": 11030, "key": "Computation.content.contact", "value": "<div property=\"cedacat:contact\">\n<div class=\"contact\">Who to contact</div>\nFor assistance accessing these data please contact the <a href=\"mailto:support@ceda.ac.uk?subject=[CEDA-BADC]: 20th Century Reanalysis Dataset question\">Centre for Environmental Data Archival</a>.\n</div>", "modified": "2014-12-22", "ob_ref": 11917 }, { "id": 11039, "key": "project.moles2_activity_subtype", "value": "dgActivityDataProject", "modified": "2015-01-08", "ob_ref": 11971 }, { "id": 11040, "key": "project.moles2_activity_subtype", "value": "dgActivityDataCampaign", "modified": "2015-01-08", "ob_ref": 11972 }, { "id": 11041, "key": "project.content.introduction", "value": "<div property=\"cedacat:introduction\">\r\n<div class=\"intjavascript:;roduction\">Introduction</div>\r\n<p>\r\nExploratory climate change studies for the UK indicate that an increase in the frequency of extreme events and associated flood risk is likely. Given that floods cause damage of over £1bn per year under present climatic conditions, climate change bears significant consequences for flood risk management. In order to evaluate these consequences, hydrological and flood inundation models are forced with projections of precipitation from atmospheric models for a range of Greenhouse gas emission scenarios to produce future flood predictions. However the validity and uncertainty of these model-based input precipitation fields are of key concern, as they potentially constitute a major source of ambiguity for hydrological and hydraulic modelling. Additionally, uncertainty is associated with the hydrological and inundation models themselves, such as for example the models ability to represent the dominating physical processes and to uniquely identify effective model factors (parameters and any other model variables) that will shape future forecasts. As the non-linear interaction of all model components will influence the total uncertainty associated with hydrological impact assessments these need to be comprehensively assessed. Therefore, a key and exciting challenge is to describe and quantify the origin and propagation of uncertainty from climate to hydrological to flood inundation models. \r\n</p><p>This project aims to develop a novel holistic modelling approach for doing this. The region of focus will be the River Severn catchment because of concerns about current and future flood risk. Specifically Project Investigators will:\r\n</p><ul>\r\n<li> (1) Quantify the \"top-end\" uncertainties associated with climate change hydrological impact assessments by analyzing precipitation fields produced by two contrasting methods and assess how these affect the nature of flood and inundation predictions\r\n</li><li> (2) Evaluate all uncertainties between and within a cascade modeling framework for flood inundation predictions in a fully coupled and dynamic way </li><li>(3) Use novel techniques of uncertainty analysis including global sensitivity analysis and a new efficient functional similarity sampling approach to enable an effective evaluation of the uncertainties in the modeling cascade.\r\n\r\n</li><li>(4) Assess the likely flood hazard change for the River Severn catchment over the next 100 years for various climate, landuse and soil moisture scenarios.\r\n</li></ul>\r\n<p> This project will deliver an insightful scientific methodology which can be used in future research assessments and catapult UK science to the forefront of an exciting, socially, and politically important international research area. \r\n</p><p>Project Duration: December 2006 - September 2010. \r\n</p><p>This project is funded by NERC - Grant Ref. NE/E002242/1 - through the <a href=\"http://badc.nerc.ac.uk/data/free/free_intro.html\">Flood Risk for Extreme Events (FREE) NERC directed mode programme</a>.\r\n\r\n</p>\r\n\r\n<p /></div>", "modified": "2019-02-19", "ob_ref": 11973 }, { "id": 11042, "key": "project.content.formats", "value": "<div property=\"cedacat:formats\">\r\n<div class=\"formats\">Availability of data</div>\r\n<p>\r\nThis project will create a framework to cascade climate models into hydrological and then into flood inundation models, and then assess the origin and propagation of uncertainty through this system. This study will be based on the region of the River Severn basin. In establishing this framework it is intended that observational data sets, namely rainfall and river flow data for the Severn basin will be used. If these are collected specifically by the project team (and not e.g. by the Environment agency) then they should be archived at the NERC Centre for Ecology and Hydrology (CEH).\r\n<br />\r\nIn addition, notable output datasets generated by the climate and hydrological model runs may be archived, particularly if they are used in publications.\r\n\r\n</p><p>\r\nThe data from this project will be stored at the <a href=\"http://www.ceh.ac.uk>\">NERC Centre for Ecology and Hydrology (CEH)</a>. \r\n\r\n</p></div>", "modified": "2019-02-19", "ob_ref": 11973 }, { "id": 11043, "key": "project.content.contact", "value": "<div property=\"cedacat:contact\">\r\n<div class=\"contact\">Who to contact</div>\r\n<p>\r\n\r\nThis FREE project is headed by <a href=\"mailto:glenn.mcgregor@kcl.ac.uk\">Prof Glenn McGregor</a> of King's College London, with co-investigators at King's College London, University of Bristol, Lancaster University, University of Exeter.</p>\r\n<p> The project data contact is <a href=\"mailto:hannah.cloke@kcl.ac.uk\">Dr Hannah Cloke</a>, King's College London.\r\n\r\n</p><p>General queries about these pages should be directed to the <a href=\"http://badc.nerc.ac.uk/help/contact.html\">BADC support line</a>. \r\n\r\n</p><p>\r\n</p></div>", "modified": "2015-12-16", "ob_ref": 11973 }, { "id": 11044, "key": "project.content.links", "value": "<div property=\"cedacat:links\">\r\n<div class=\"links\">Links to further information and references</div>\r\n<p>\r\n\r\n</p><ul>\r\n<li>CEH website - <a href=\"http://www.ceh.ac.uk\">http://www.ceh.ac.uk/</a>\r\n</li><li>Hazard and Risk Projects group, King's College London - ,<a href=\"http://www.umds.ac.uk/schools/sspp/geography/research/hrgsection/efas.html\">http://www.umds.ac.uk/schools/sspp/geography/research/hrg/</a>\r\n</li><li><a href=\"http://floods.jrc.ec.europa.eu/efas-flood-forecasts\">EFAS Flood Forecasts</a>\r\n</li></ul>\r\n<p>\r\nFREE Programme documentation:\r\n</p><ul><li>List of <a href=\"http://badc.nerc.ac.uk/data/free/projects_contacts.html\">projects</a> funded under the <i>FREE</i> programme.\r\n</li><li><a href=\"http://badc.nerc.ac.uk/data/free/FREE_scienceplan.pdf\"><i>FREE</i> Science Plan</a>\r\n</li><li><a href=\"http://badc.nerc.ac.uk/data/free/FREE_implementplan.pdf\"><i>FREE</i> Implementation Plan</a> (January 2008)\r\n</li><li><a href=\"http://badc.nerc.ac.uk/data/free/FREE_200805progress-report.pdf\"><i>FREE</i> Progress Report</a> (May 2008)\r\n</li><li><a href=\"http://badc.nerc.ac.uk/data/free/FREE_200810progress-report.pdf\"><i>FREE</i> Progress Report</a> (Oct 2008)\r\n</li><li><a href=\"http://badc.nerc.ac.uk/data/free/Data_inputs_to_FREE_projects.html\">Data Inputs to FREE projects</a></li></ul>\r\n</div>", "modified": "2019-02-19", "ob_ref": 11973 }, { "id": 11045, "key": "project.content.extra", "value": "<p>\r\n</p>", "modified": "2019-02-19", "ob_ref": 11973 }, { "id": 11046, "key": "project.moles2_activity_subtype", "value": "dgActivityDataCollection", "modified": "2015-01-08", "ob_ref": 11973 }, { "id": 11049, "key": "project.moles2_activity_subtype", "value": "dgActivityDataProject", "modified": "2015-01-08", "ob_ref": 11975 }, { "id": 11050, "key": "project.content.introduction", "value": "<div property=\"cedacat:introduction\">\r\n<div class=\"introduction\">Introduction</div>\r\n<p>\r\nA hybrid physical-statistical model for very extreme rainfall statistics will be crtically examined. This model will be tested against mesoscale model simulations and its limitations explored numerically. In particular two hypotheses will be examined. The first hypotheis is that regional simulations of very extreme rainfall are consistent with the proposed hybrid model. The second hypothisis is that the hybrid model is suitable for finite time periods and can be adjusted for non-stationary parameters. \r\n</p><p>Project Duration: January 2008 - January 2010.\r\n</p><p>This project is funded by NERC - Grant Ref. NE/F011822/1 - through the <a href=\"http://badc.nerc.ac.uk/data/free/free_intro.html\">Flood Risk for Extreme Events (FREE) NERC directed mode programme</a>\r\n\r\n</p><p>\r\n</p></div>", "modified": "2019-02-19", "ob_ref": 11976 }, { "id": 11051, "key": "project.content.formats", "value": "<div property=\"cedacat:formats\">\r\n<div class=\"formats\">Availability of data</div>\r\n<p>\r\n\r\nThis project will critically examine a hybrid physical-statistical model for very extreme rainfall statistics and test it against two hypotheses. \r\n</p><p>\r\nThis study will use the Met Office UM model forced by operational analyses as a control run to model the July 2007 storm and then simulate humidity perturbations to explore the assumptions of the hybrid model. The project will also study model convergence and sensitivity to record length. \r\n</p><p>\r\nNo new data sets will be archived by this project although output or initialization conditions from notable UM model runs such as those used in publications- should be preserved.\r\n</p><p>\r\nThe data from this project will be stored at the BADC.\r\n\r\n<!--<p>The data filenames should follow the BADC <a href=\"http://badc.nerc.ac.uk/help/file_naming.html\">File Name convention</a> and the data file format should be <a href=\"https://help.ceda.ac.uk/article/106-netcdf\">NetCDF</a> or <a href=\"http://cedadocs.ceda.ac.uk/73/4/index.html\">NASA-Ames</a>.\r\n</div>\r\n<P>\r\n<div property=\"cedacat:access-restricted\">\r\n<div class=\"access-restricted\">Access Restrictions</div>\r\n<P>Data and metadata from this project will be stored in the BADC <a href=\"http://data.ceda.ac.uk/badc/free/data/NE-F011822-1_hybrid_model\">FREE Hybrid model project archive</a>.\r\n<P>Access to FREE data held at the BADC will be restricted to the FREE participants during a restricted access period ending two years after the end date of each project. Data will be made publicly accessible after that date. \r\n\r\nIf you are a FREE participant and wish to access restricted FREE data, please<ul>\r\n<li><a href=\"http://badc.nerc.ac.uk/reg/user_register_info.html\">register</a> as a BADC user — if you are already a registered BADC user, skip this step; if you have forgotten your BADC user ID and/or password, please contact the BADC helpdesk at <a href=\"mailto:badc@rl.ac.uk\">badc@rl.ac.uk</a>;\r\n<li><a href=\"http://badc.nerc.ac.uk/cgi-bin/dataset_registration/dataset_info.cgi.pl?datasetid=free\">apply</a> for access to the <i>free</i> archive — you will be asked to abide by the <i>FREE</i> <a href=\"http://badc.nerc.ac.uk/data/free/data-protocol.html\">Data Protocol</a> clauses. </ul>\r\n\r\n<P></div>\r\n<div property=\"cedacat:submit\">\r\n<div class=\"submit\">Data, Software and Metadata submission</div>\r\n<P>FREE participants wishing to submit data should read the <a href=\"http://badc.nerc.ac.uk/data/free/submission.html\">submission instructions</a>. \r\n\r\nIf you have publications arising from FREE research please send details [title, author(s), reference] to the \r\n<a href=\"mailto:badc@rl.ac.uk\">BADC help desk</a> for inclusion in the archive.<p>\r\n</div>\r\n<P>\r\n\r\n-->\r\n\r\n</p><div property=\"cedacat:links\">\r\n<div class=\"links\">Links to further information and references</div>\r\n<p>\r\n</p><ul><li>Imperial College London website - <a href=\"http://www.imperial.ac.uk/\">http://www.imperial.ac.uk/</a><br />\r\n</li><li>NERC - <a href=\"http://www.nerc.ac.uk\">http://www.nerc.ac.uk/</a>\r\n</li></ul>\r\n<strong>References:</strong>\r\n<br />Tamsin L. Edwards, Michel Crucifix, and Sandy P. Harrison. (2007). <a href=\"http://dx.doi.org/10.1177/0309133307083295\">Using the past to constrain the future: how the palaeorecord can improve estimates of global warming.</a> Progress in Physical Geography, 31:5, 481-500\r\n\r\n<p>FREE Programme documentation:\r\n</p><ul><li>List of <a href=\"http://badc.nerc.ac.uk/data/free/projects_contacts.html\">projects</a> funded under the <i>FREE</i> programme.\r\n</li><li><a href=\"http://badc.nerc.ac.uk/data/free/FREE_scienceplan.pdf\"><i>FREE</i> Science Plan</a>\r\n</li><li><a href=\"http://badc.nerc.ac.uk/data/free/FREE_implementplan.pdf\"><i>FREE</i> Implementation Plan</a> (January 2008)\r\n</li><li><a href=\"http://badc.nerc.ac.uk/data/free/FREE_200805progress-report.pdf\"><i>FREE</i> Progress Report</a> (May 2008)\r\n</li><li><a href=\"http://badc.nerc.ac.uk/data/free/FREE_200810progress-report.pdf\"><i>FREE</i> Progress Report</a> (Oct 2008)\r\n</li><li><a href=\"http://badc.nerc.ac.uk/data/free/Data_inputs_to_FREE_projects.html\">Data Inputs to FREE projects</a></li></ul>\r\n\r\n<!--\r\n<P></div>\r\n<div property=\"cedacat:citation\">\r\n<div class=\"citation\">Citation</div>\r\n<P>\r\n<ul> Natural Environment Research Council, [Toumi, R.] . FREE - A hybrid model for predicting the probablity of very extreme rainfall, [Internet]. NCAS British Atmospheric Data Centre, 2008-, <i>Date of citation</i>. Available from http://badc.nerc.ac.uk/view/badc.nerc.ac.uk__ATOM__dataent_12275573779926949\r\n</ul>\r\n-->\r\n\r\n<p>\r\n</p></div>\r\n<div property=\"cedacat:contact\">\r\n<div class=\"contact\">Who to contact</div>\r\n<p>\r\n\r\nThis FREE project is headed by <a href=\"mailto:r.toumi@imperial.ac.uk\">Prof Ralf Toumi</a> of Imperial College London.\r\n\r\nGeneral queries about these pages or browsing the data should be directed to the <a href=\"http://badc.nerc.ac.uk/help/contact.html\">BADC support line</a>.\r\n</p></div></div>", "modified": "2018-09-03", "ob_ref": 11976 }, { "id": 11052, "key": "project.content.contact", "value": "<div property=\"cedacat:contact\">\r\n<div class=\"contact\">Who to contact</div>\r\n<p>\r\n\r\nThis FREE project is headed by <a href=\"mailto:r.toumi@imperial.ac.uk\">Prof Ralf Toumi</a> of Imperial College London.\r\n\r\nGeneral queries about these pages or browsing the data should be directed to the <a href=\"http://badc.nerc.ac.uk/help/contact.html\">BADC support line</a>.\r\n</p></div>", "modified": "2015-12-16", "ob_ref": 11976 } ] }