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O2/N2 ratio _ RYO _ surface - insitu _ AIST _ data1
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In line with the GAW Data Policy, users should contact the contributors of all data of interest and propose co-authorship or acknowledgement.


 Organization

NO 6
Acronym AIST
Name National Institute of Advanced Industrial Science and Technology
Address 1 Environmental Management Research Institute
Address 2 National Institute of Advanced Industrial Science and Technology (AIST)
Address 3 AIST Tsukuba West, 16-1 Onogawa, Tsukuba, Ibaraki 305-8569, Japan
Country/Territory Japan
Website https://unit.aist.go.jp/env-mri/117aerg/en/index-e.html

 Contact(s)

Name Shigeyuki Ishidoya
Prefix
Email s-ishidoya@aist.go.jp
Organization No 6
Organization acronym AIST
Organization name National Institute of Advanced Industrial Science and Technology
Organization country/territory Japan
Address 1
Address 2 Environmental Management Research Institute
Address 3 16-1 Onogawa, Tsukuba, Ibaraki 305-8569
Country/territory Japan
Tel +81-29-861-8352
Fax +81-29-861-8358
Last updated date 2023-11-08


NO 1
Acronym JMA
Name Japan Meteorological Agency
Person
Name TAKATSUJI Shinya
Prefix Mr.
Email ghg_obs@met.kishou.go.jp
Address 1 Atmosphere and Ocean Department
Address 2 Atmospheric Environment and Ocean Division
Address 3 3-6-9 Toranomon, Minato City, Tokyo 105-8431
Country/territory Japan
Tel +81-3-3434-9127
Fax
 Monitoring background conditions, and the influence of air pollution
 UTC+09:00
 per meg
 9999-12-31 00:00:00 - 9999-12-31 23:59:59: EMRI/AIST scale
 9999-12-31 00:00:00 - 9999-12-31 23:59:59: POM-6E, Japan Air Liquid(Paramagnetic Analyzer)
 9999-12-31 00:00:00 - 9999-12-31 23:59:59: 20 (m)
 70 minutes
 The delta(O2/N2) of sample air is determined against working standard air using a paramagnetic analyzer. The delta(O2/N2) of the working standard air are determined against our primary standard air (cylinder No. CRC00045) using a mass spectrometer. The measurement method is detailed in Ishidoya et al. (2017 SOLA) and Ishidoya & Murayama (2014 Tellus B).
 
 [Hourly]
 [Daily]
 [Monthly]
 
 Operational/Reporting
 
 Wind direction:
 Wind speed:
 Relative humidity:
 Precipitation amount:
 Air pressure:
 Air temperature:
 Dew point temperature:
 Sea water temperature:
 Sea surface water temperature:
 Sea water salinity:
 Sea surface water salinity:
Meteorological data may remain as first provided, even when greenhouse gas data are updated.
 

 DOI Metadata

DOI
o2n2_ryo_surface-insitu_6_9999-9999_event.nc 10.50849/WDCGG_0006-2012-7001-01-01-9999
o2n2_ryo_surface-insitu_6_9999-9999_event.txt 10.50849/WDCGG_0006-2012-7001-01-01-9999
Version 2023-11-08-0331 (Data Version History)
* DOIs and file names may have multiple versions. Be sure to check the data version.
Title Atmospheric O2/N2 ratio at Ryori by National Institute of Advanced Industrial Science and Technology, dataset published as O2/N2 ratio_RYO_surface-insitu_AIST_data1 at WDCGG
Creator National Institute of Advanced Industrial Science and Technology
Shigeyuki Ishidoya (JMA)
Publisher World Data Centre for Greenhouse Gases
Publication Date 2023-11-10 (Last Updated: 2023-11-10)
Format Text (WDCGG Data Format Table, WDCGG Meteorological Data Format Table), NetCDF
Relation List (Is Part Of) All O2/N2 ratio data contributed to WDCGG by GAW stations and mobiles by 2023-11-10
Geolocation Point
Latitude (north: +; south: -) 39.0319
Longitude (east: +; west: -) 141.8222

 GAW Data Policy

"For Scientific purposes, access to these data is unlimited and provided without charge. By their use you accept that an offer of co-authorship will be made through personal contact with the data providers or owners whenever substantial use is made of their data. In all cases, an acknowledgement must be made to the data providers or owners and to the data centre when these data are used within a publication."

 Citation format

This format is an example of the WDCGG standard citation.
Please follow the citation format which the data providers or owners indicate.
Shigeyuki Ishidoya (AIST), Atmospheric O2/N2 ratio at Ryori by National Institute of Advanced Industrial Science and Technology , dataset published as O2/N2 ratio_RYO_ surface-insitu_AIST_data1 at WDCGG, ver. 2023-11-08-0331, https://doi.org/10.50849/WDCGG_0006-2012-7001-01-01-9999 (Reference date*: YYYY/MM/DD)

* As the reference date, please indicate the date you downloaded the files.

 Reference(s)

1  Ishidoya, S. and S. Murayama, 2014: Development of a new high precision continuous measuring system for atmospheric O2/N2 and Ar/N2 and its application to the observation in Tsukuba, Japan, Tellus B, 66, 22574, http://dx.doi.org/10.3402/tellusb.v66.22574.
2  Ishidoya, S., K. Tsuboi, S. Murayama, H. Matsueda, N. Aoki, T. Shimosaka, H. Kondo, and K. Saito, 2017: Development of a continuous measurement system for atmospheric O2/N2 ratio using a paramagnetic analyzer and its application in Minamitorishima Island, Japan, SOLA, Vol. 13, 230-234.
3  Ishidoya, S., Tsuboi, K., Kondo, H., Ishijima, K., Aoki, N., Matsueda, H., and Kazuyuki Saito, K., 2022: Measurement report: Method for evaluating CO2 emission from a cement plant by atmosphere O2 / N2 and CO2 measurements and its applicability to the detection of CO2 capture signals, Atmos. Chem. Phys., Discuss., https://doi.org/10.5194/acp-2022-570, in review.