FN Archimer Export Format PT Rapport TI SCOR WG 142: Quality Control Procedures for Oxygen and Other Biogeochemical Sensors on Floats and Gliders. Recommendation for oxygen measurements from Argo floats, implementation of in-air-measurement routine to assure highest long-term accuracy BT AF BITTIG, Henry Kortzinger, Arne Johnson, Ken CLAUSTRE, Hervé Emerson, Steve Fennel, Katja Garcia, Hernan Gilbert, Denis GRUBER, Nicolas KANG, Dong-Jin Naqvi, Wajih Prakash, Satya Riser, Steven THIERRY, Virginie Tilbrook, Bronte Uchida, Hiroshi Ulloa, Osvaldo Xing, Xiagang AS 1:1;2:2;3:3;4:1;5:5;6:8;7:16;8:6;9:15;10:14;11:11;12:12;13:5;14:4;15:7;16:13;17:9;18:10; FF 1:;2:;3:;4:;5:;6:;7:;8:;9:;10:;11:;12:;13:;14:PDG-ODE-LPO;15:;16:;17:;18:; C1 CNRS, UMR 7093, Laboratoire d’Océanographie de Villefranche (LOV), Villefranche sur Mer, France Helmholtz-Center for Ocean Research Kiel, Germany MBARI, USA Ifremer, LPO, France University of Washington, USA Fisheries and Oceans, Canada CSIRO Marine and Atmospheric Research, Tasmania, australia Dalhousie University, Halifax, Canada Universidad de Concepción, Chile Second Institute of Oceanography, Hangzhou, China National Institute of Oceanography, Goa, India INCOIS, Hyderabad, India JAMSTEC, Yokosuka, Japan KIOST, Ansan-si, South Korea ETH Zürich, Switzerland National Oceanographic Data Center, NOAA, Silver Spring, USA C2 CNRS, FRANCE HELMHOLTZ CTR OCEAN RES, GERMANY MBARI, USA IFREMER, FRANCE UNIV WASHINGTON, USA FISHERIES & OCEANS, CANADA CSIRO, AUSTRALIA UNIV DALHOUSIE, CANADA UNIV CONCEPCION, CHILE SIO, CHINA NIO, INDIA INCOIS, INDIA JAMSTEC, JAPAN KIOST, SOUTH KOREA ETH ZURICH, SWITZERLAND NOAA, USA SI BREST SE PDG-ODE-LPO UR https://archimer.ifremer.fr/doc/00348/45917/46180.pdf LA English DT Report DE ;argo;bio-argo;oxygen AB Recommendation for Oxygen Measurements from Argo Floats: Implementation of In-Air-Measurement Routine to Assure Highest Long-term Accuracy As Argo has entered its second decade and chemical/biological sensor technology is improving constantly, the marine biogeochemistry community is starting to embrace the successful Argo float program. An augmentation of the global float observatory, however, has to follow rather stringent constraints regarding sensor characteristics as well as data processing and quality control routines. Owing to the fairly advanced state of oxygen sensor technology and the high scientific value of oceanic oxygen measurements (Gruber et al., 2010), an expansion of the Argo core mission to routine oxygen measurements is perhaps the most mature and promising candidate (Freeland et al., 2010). In this context, SCOR Working Group 142 “Quality Control Procedures for Oxygen and Other Biogeochemical Sensors on Floats and Gliders” (www.scor-int.org/SCOR_WGs_WG142.htm) set out in 2014 to assess the current status of biogeochemical sensor technology with particular emphasis on float-readiness, develop pre- and post-deployment quality control metrics and procedures for oxygen sensors, and to disseminate procedures widely to ensure rapid adoption in the community. PY 2015 DI 10.13155/45917 ID 45917 ER EF