The MeteoMet2 project – highlights and results
Launched in 2011 within the European Metrology Research Programme (EMRP) of EURAMET, the joint research project 'MeteoMet'—Metrology for Meteorology—is the largest EMRP consortium; national metrology institutes, universities, meteorological and climate agencies, research institutes, collab...
Published in: | Measurement Science and Technology |
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Main Authors: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
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Format: | Article in Journal/Newspaper |
Language: | English |
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2018
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Online Access: | http://hdl.handle.net/2318/1667420 https://doi.org/10.1088/1361-6501/aa99fc |
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Università degli studi di Torino: AperTo (Archivio Istituzionale ad Accesso Aperto) |
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metrology for meteorology and climatology atmospheric air temperature humidity and pressure measurements sea temperature and salinity measurements weather station albedo soil moisture and permafrost interlaboratory comparison |
spellingShingle |
metrology for meteorology and climatology atmospheric air temperature humidity and pressure measurements sea temperature and salinity measurements weather station albedo soil moisture and permafrost interlaboratory comparison A. Merlone Francesca Sanna G. Beges S. Bell G. Beltramino J. Bojkovski M. Brunet D. del Campo A. Castrillo N. Chiodo M. Colli G. Coppa R. Cuccaro M. Dobre J. Drnovsek V. Ebert V. Fernicola A. Garcia-Benadí C. Garcia-Izquierdo T. Gardiner E. Georgin A. Gonzalez D. Groselj M. Heinonen S. Hernandez R. Högström D. Hudoklin M. Kalemci A. Kowal L. Lanza P. Miao C. Musacchio J. Nielsen M. Nogueras-Cervera S. Oguz Aytekin P. Pavlasek M. de Podesta M. K. Rasmussen J. del-Río-Fernández L. Rosso H. Sairanen J. Salminen D. Sestan L. Šindelářová D. Smorgon F. Sparasci R. Strnad R. Underwood A. Uytun M. Voldan The MeteoMet2 project – highlights and results |
topic_facet |
metrology for meteorology and climatology atmospheric air temperature humidity and pressure measurements sea temperature and salinity measurements weather station albedo soil moisture and permafrost interlaboratory comparison |
description |
Launched in 2011 within the European Metrology Research Programme (EMRP) of EURAMET, the joint research project 'MeteoMet'—Metrology for Meteorology—is the largest EMRP consortium; national metrology institutes, universities, meteorological and climate agencies, research institutes, collaborators and manufacturers are working together, developing new metrological techniques, as well as improving existing ones, for use in meteorological observations and climate records. The project focuses on humidity in the upper and surface atmosphere, air temperature, surface and deep-sea temperatures, soil moisture, salinity, permafrost temperature, precipitation, and the snow albedo effect on air temperature. All tasks are performed using a rigorous metrological approach and include the design and study of new sensors, new calibration facilities, the investigation of sensor characteristics, improved techniques for measurements of essential climate variables with uncertainty evaluation, traceability, laboratory proficiency and the inclusion of field influencing parameters, long-lasting measurements, and campaigns in remote and extreme areas. The vision for MeteoMet is to take a step further towards establishing full data comparability, coherency, consistency, and long-term continuity, through a comprehensive evaluation of the measurement uncertainties for the quantities involved in the global climate observing systems and the derived observations. The improvement in quality of essential climate variables records, through the inclusion of measurement uncertainty budgets, will also highlight possible strategies for the reduction of the uncertainty. This contribution presents selected highlights of the MeteoMet project and reviews the main ongoing activities, tasks and deliverables, with a view to its possible future evolution and extended impact. |
author2 |
A. Merlone, Francesca Sanna, G. Beges, S. Bell, G. Beltramino, J. Bojkovski, M. Brunet, D. del Campo, A. Castrillo, N. Chiodo, M. Colli, G. Coppa, R. Cuccaro, M. Dobre, J. Drnovsek, V. Ebert, V. Fernicola, A. Garcia-Benadí, C. Garcia-Izquierdo, T. Gardiner, E. Georgin, A. Gonzalez, D. Groselj, M. Heinonen, S. Hernandez, R. Högström, D. Hudoklin, M. Kalemci, A. Kowal, L. Lanza, P. Miao, C. Musacchio, J. Nielsen, M. Nogueras-Cervera, S. Oguz Aytekin, P. Pavlasek, M. de Podesta, M. K. Rasmussen, J. del-Río-Fernández, L. Rosso, H. Sairanen, J. Salminen, D. Sestan, L. Šindelářová, D. Smorgon, F. Sparasci, R. Strnad, R. Underwood, A. Uytun, M. Voldan |
format |
Article in Journal/Newspaper |
author |
A. Merlone Francesca Sanna G. Beges S. Bell G. Beltramino J. Bojkovski M. Brunet D. del Campo A. Castrillo N. Chiodo M. Colli G. Coppa R. Cuccaro M. Dobre J. Drnovsek V. Ebert V. Fernicola A. Garcia-Benadí C. Garcia-Izquierdo T. Gardiner E. Georgin A. Gonzalez D. Groselj M. Heinonen S. Hernandez R. Högström D. Hudoklin M. Kalemci A. Kowal L. Lanza P. Miao C. Musacchio J. Nielsen M. Nogueras-Cervera S. Oguz Aytekin P. Pavlasek M. de Podesta M. K. Rasmussen J. del-Río-Fernández L. Rosso H. Sairanen J. Salminen D. Sestan L. Šindelářová D. Smorgon F. Sparasci R. Strnad R. Underwood A. Uytun M. Voldan |
author_facet |
A. Merlone Francesca Sanna G. Beges S. Bell G. Beltramino J. Bojkovski M. Brunet D. del Campo A. Castrillo N. Chiodo M. Colli G. Coppa R. Cuccaro M. Dobre J. Drnovsek V. Ebert V. Fernicola A. Garcia-Benadí C. Garcia-Izquierdo T. Gardiner E. Georgin A. Gonzalez D. Groselj M. Heinonen S. Hernandez R. Högström D. Hudoklin M. Kalemci A. Kowal L. Lanza P. Miao C. Musacchio J. Nielsen M. Nogueras-Cervera S. Oguz Aytekin P. Pavlasek M. de Podesta M. K. Rasmussen J. del-Río-Fernández L. Rosso H. Sairanen J. Salminen D. Sestan L. Šindelářová D. Smorgon F. Sparasci R. Strnad R. Underwood A. Uytun M. Voldan |
author_sort |
A. Merlone |
title |
The MeteoMet2 project – highlights and results |
title_short |
The MeteoMet2 project – highlights and results |
title_full |
The MeteoMet2 project – highlights and results |
title_fullStr |
The MeteoMet2 project – highlights and results |
title_full_unstemmed |
The MeteoMet2 project – highlights and results |
title_sort |
meteomet2 project – highlights and results |
publishDate |
2018 |
url |
http://hdl.handle.net/2318/1667420 https://doi.org/10.1088/1361-6501/aa99fc |
genre |
permafrost |
genre_facet |
permafrost |
op_relation |
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info:eu-repo/semantics/openAccess |
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https://doi.org/10.1088/1361-6501/aa99fc |
container_title |
Measurement Science and Technology |
container_volume |
29 |
container_issue |
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container_start_page |
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spelling |
ftunivtorino:oai:iris.unito.it:2318/1667420 2023-10-29T02:39:28+01:00 The MeteoMet2 project – highlights and results A. Merlone Francesca Sanna G. Beges S. Bell G. Beltramino J. Bojkovski M. Brunet D. del Campo A. Castrillo N. Chiodo M. Colli G. Coppa R. Cuccaro M. Dobre J. Drnovsek V. Ebert V. Fernicola A. Garcia-Benadí C. Garcia-Izquierdo T. Gardiner E. Georgin A. Gonzalez D. Groselj M. Heinonen S. Hernandez R. Högström D. Hudoklin M. Kalemci A. Kowal L. Lanza P. Miao C. Musacchio J. Nielsen M. Nogueras-Cervera S. Oguz Aytekin P. Pavlasek M. de Podesta M. K. Rasmussen J. del-Río-Fernández L. Rosso H. Sairanen J. Salminen D. Sestan L. Šindelářová D. Smorgon F. Sparasci R. Strnad R. Underwood A. Uytun M. Voldan A. Merlone, Francesca Sanna, G. Beges, S. Bell, G. Beltramino, J. Bojkovski, M. Brunet, D. del Campo, A. Castrillo, N. Chiodo, M. Colli, G. Coppa, R. Cuccaro, M. Dobre, J. Drnovsek, V. Ebert, V. Fernicola, A. Garcia-Benadí, C. Garcia-Izquierdo, T. Gardiner, E. Georgin, A. Gonzalez, D. Groselj, M. Heinonen, S. Hernandez, R. Högström, D. Hudoklin, M. Kalemci, A. Kowal, L. Lanza, P. Miao, C. Musacchio, J. Nielsen, M. Nogueras-Cervera, S. Oguz Aytekin, P. Pavlasek, M. de Podesta, M. K. Rasmussen, J. del-Río-Fernández, L. Rosso, H. Sairanen, J. Salminen, D. Sestan, L. Šindelářová, D. Smorgon, F. Sparasci, R. Strnad, R. Underwood, A. Uytun, M. Voldan 2018 http://hdl.handle.net/2318/1667420 https://doi.org/10.1088/1361-6501/aa99fc eng eng info:eu-repo/semantics/altIdentifier/wos/WOS:000423100500001 volume:29 issue:2 firstpage:25802 lastpage:25818 numberofpages:17 journal:MEASUREMENT SCIENCE & TECHNOLOGY http://hdl.handle.net/2318/1667420 doi:10.1088/1361-6501/aa99fc info:eu-repo/semantics/altIdentifier/scopus/2-s2.0-85040963546 info:eu-repo/semantics/openAccess metrology for meteorology and climatology atmospheric air temperature humidity and pressure measurements sea temperature and salinity measurements weather station albedo soil moisture and permafrost interlaboratory comparison info:eu-repo/semantics/article 2018 ftunivtorino https://doi.org/10.1088/1361-6501/aa99fc 2023-10-03T22:27:33Z Launched in 2011 within the European Metrology Research Programme (EMRP) of EURAMET, the joint research project 'MeteoMet'—Metrology for Meteorology—is the largest EMRP consortium; national metrology institutes, universities, meteorological and climate agencies, research institutes, collaborators and manufacturers are working together, developing new metrological techniques, as well as improving existing ones, for use in meteorological observations and climate records. The project focuses on humidity in the upper and surface atmosphere, air temperature, surface and deep-sea temperatures, soil moisture, salinity, permafrost temperature, precipitation, and the snow albedo effect on air temperature. All tasks are performed using a rigorous metrological approach and include the design and study of new sensors, new calibration facilities, the investigation of sensor characteristics, improved techniques for measurements of essential climate variables with uncertainty evaluation, traceability, laboratory proficiency and the inclusion of field influencing parameters, long-lasting measurements, and campaigns in remote and extreme areas. The vision for MeteoMet is to take a step further towards establishing full data comparability, coherency, consistency, and long-term continuity, through a comprehensive evaluation of the measurement uncertainties for the quantities involved in the global climate observing systems and the derived observations. The improvement in quality of essential climate variables records, through the inclusion of measurement uncertainty budgets, will also highlight possible strategies for the reduction of the uncertainty. This contribution presents selected highlights of the MeteoMet project and reviews the main ongoing activities, tasks and deliverables, with a view to its possible future evolution and extended impact. Article in Journal/Newspaper permafrost Università degli studi di Torino: AperTo (Archivio Istituzionale ad Accesso Aperto) Measurement Science and Technology 29 2 025802 |