MIROC MIROC6 model output prepared for CMIP6 CMIP piControl

Tatebe, Hiroaki; Watanabe, Masahiro

WCRP CMIP6 CMIP MIROC MIROC6 piControl

hdl:21.14106/c9996f109eedc9bbc7d446097c6400cfc78327bc

Tatebe, Hiroaki; Watanabe, Masahiro

Dataset Group

CMIP CMIP6 MIROC MIROC6 piControl

Summary: These data include all datasets published for 'CMIP6.CMIP.MIROC.MIROC6.piControl' with the full Data Reference Syntax following the template 'mip_era.activity_id.institution_id.source_id.experiment_id.member_id.table_id.variable_id.grid_label.version'. The MIROC6 climate model, released in 2017, includes the following components: aerosol: SPRINTARS6.0, atmos: CCSR AGCM (T85; 256 x 128 longitude/latitude; 81 levels; top level 0.004 hPa), land: MATSIRO6.0, ocean: COCO4.9 (tripolar primarily 1deg; 360 x 256 longitude/latitude; 63 levels; top grid cell 0-2 m), seaIce: COCO4.9. The model was run by the JAMSTEC (Japan Agency for Marine-Earth Science and Technology, Kanagawa 236-0001, Japan), AORI (Atmosphere and Ocean Research Institute, The University of Tokyo, Chiba 277-8564, Japan), NIES (National Institute for Environmental Studies, Ibaraki 305-8506, Japan), and R-CCS (RIKEN Center for Computational Science, Hyogo 650-0047, Japan) (MIROC) in native nominal resolutions: aerosol: 250 km, atmos: 250 km, land: 250 km, ocean: 100 km, seaIce: 100 km.

Individuals using the data must abide by terms of use for CMIP6 data (https://pcmdi.llnl.gov/CMIP6/TermsOfUse). The original license restrictions on these datasets were recorded as global attributes in the data files, but these may have been subsequently updated.
Project: CMIP6 (WCRP Coupled Model Intercomparison Project Phase 6 (CMIP6) datasets)
Contact: Dr. Hiroaki Tatebe (
tatebe@nulljamstec.go.jp
)
Location(s): global
Spatial Coverage: Longitude 0 to 360 Latitude -90 to 90
Temporal Coverage: 3200-01-01 to 3999-12-31 (gregorian)
Use constraints: Creative Commons Attribution 4.0 International (https://creativecommons.org/licenses/by/4.0/)
Data Catalog: World Data Center for Climate
Size: 5.24 TiB (5766358780575 Byte)
Format: NetCDF
Status: completely archived
Creation Date: 2018-12-12
Future Review Date: 2033-06-12

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Cite as: Tatebe, Hiroaki; Watanabe, Masahiro (2023). MIROC MIROC6 model output prepared for CMIP6 CMIP piControl. World Data Center for Climate (WDCC) at DKRZ. https://www.wdc-climate.de/ui/entry?acronym=C6_5208751

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Consistency report

as consistent as the model(s) MIROC6

Description: as consistent as the model(s) MIROC6

Technical Quality Assurance (TQA)

TQA - Technical Quality Assurance 'approved by WDCC'

Description: All TQA checks were passed for WCRP CMIP6 CMIP MIROC MIROC6 piControl.
Method: CMIP6-TQA Checks
Method Description: Checks performed by WDCC. CMIP6-TQA metrics are documented: https://redmine.dkrz.de/projects/cmip6-lta-and-data-citation/wiki/Quality_Checks
Method Url: https://redmine.dkrz.de/projects/cmip6-lta-and-data-citation/wiki/Quality_Checks
Result Date: 2025-03-18

Contact type	Person	ORCID	Organization
Contact	Dr. Hiroaki Tatebe	-	Japan Agency for Marine-Earth Science and Technology
Author	Dr. Hiroaki Tatebe	-	Japan Agency for Marine-Earth Science and Technology
Author	Prof. Masahiro Watanabe	-	Atmosphere and Ocean Research Institute, the University of Tokyo
Other	Dr. Hiroaki Tatebe	-	Japan Agency for Marine-Earth Science and Technology
Other	Dr. Tomoo Ogura	-	National Institute for Environmental Studies
Other	Dr. Tomoko Nitta	-	Atmosphere and Ocean Research Institute, the University of Tokyo
Other	Dr. Yoshiki Komuro	-	Japan Agency for Marine-Earth Science and Technology
Other	Dr. Koji Ogochi	-	Japan Agency for Marine-Earth Science and Technology
Other	Dr. Toshihiko Takemura	-	Research Institute for Applied Mechanics, Kyushu University
Other	Kengo Sudo	-	Graduate School of Environmental Studies, Nagoya University
Other	Dr. Miho Sekiguchi	-	Tokyo University of Marine Science and Technology
Other	Dr. Manabu Abe	-	Japan Agency for Marine-Earth Science and Technology
Other	Dr. Fuyuki Saito	-	Japan Agency for Marine-Earth Science and Technology
Other	Dr. Minoru Chikira	-	Atmosphere and Ocean Research Institute, the University of Tokyo
Other	Dr. Shingo Watanabe	-	Japan Agency for Marine-Earth Science and Technology
Other	Dr. Masato Mori	-	Research Center for Advanced Science and Technology, The University of Tokyo
Other	Dr. Nagio Hirota	-	National Institute for Environmental Studies
Other	Dr. Yoshio Kawatani	-	Japan Agency for Marine-Earth Science and Technology
Other	Dr. Takashi Mochizuki	-	Japan Agency for Marine-Earth Science and Technology
Other	Kei Yoshimura	-	Atmosphere and Ocean Research Institute, the University of Tokyo
Other	Dr. Kumiko Takata	-	National Institute for Environmental Studies
Other	Dr. Ryouta O'ishi	-	Atmosphere and Ocean Research Institute, the University of Tokyo
Other	Dr. Dai Yamazaki	-	Institute of Industrial Science, the University of Tokyo
Other	Dr. Tatsuo Suzuki	-	Japan Agency for Marine-Earth Science and Technology
Other	Dr. Masao Kurogi	-	Japan Agency for Marine-Earth Science and Technology
Other	Dr. Takahito Kataoka	-	Japan Agency for Marine-Earth Science and Technology
Other	Prof. Masahiro Watanabe	-	Atmosphere and Ocean Research Institute, the University of Tokyo
Other	Prof. Masahide Kimoto	-	Atmosphere and Ocean Research Institute, the University of Tokyo
Contributor	-	-	Atmosphere and Ocean Research Institute, the University of Tokyo
Contributor	-	-	Japan Agency for Marine-Earth Science and Technology
Contributor	-	-	National Institute for Environmental Studies
Contributor	-	-	RIKEN Center for Computational Science

Cites

[1] DOI Durack, Paul J.; Taylor, Karl E. (2017). PCMDI AMIP SST and sea-ice boundary conditions version 1.1.2. doi:10.22033/ESGF/input4MIPs.1161

[2] DOI Matthes, Katja; Funke, Bernd; Kruschke, Tim; Wahl, Sebastian. (2017). input4MIPs.SOLARIS-HEPPA.solar.CMIP.SOLARIS-HEPPA-3-2. doi:10.22033/ESGF/input4MIPs.1122

[3] DOI van Marle, Margreet J.E.; Kloster, Silvia; Magi, Brian I.; Marlon, Jennifer R.; Daniau, Anne-Laure; Field, Robert D.; Arneth, Almut; Forrest, Matthew; Hantson, Stijn; Kehrwald, Natalie M.; Knorr, Wolfgang; Lasslop, Gitta; Li, Fang; Mangeon, Stéphane; Yue, Chao; Kaiser, Johannes W.; van der Werf, Guido R. (2016). Biomass Burning emissions for CMIP6 (v1.2). doi:10.22033/ESGF/input4MIPs.1117

[4] DOI Hurtt, George; Chini, Louise; Sahajpal, Ritvik; Frolking, Steve; Bodirsky, Benjamin Leon; Calvin, Kate; Doelman, Jonathan; Fisk, Justin; Fujimori, Shinichiro; Goldewijk, Kees Klein; Hasegawa, Tomoko; Havlik, Petr; Heinimann, Andreas; Humpenöder, Florian; Jungclaus, Johann; Kaplan, Jed; Krisztin, Tamás; Lawrence, David; Lawrence, Peter; Mertz, Ole; Pongratz, Julia; Popp, Alexander; Riahi, Keywan; Shevliakova, Elena; Stehfest, Elke; Thornton, Peter; van Vuuren, Detlef; Zhang, Xin. (2017). Harmonization of global land use scenarios (LUH2): Historical v2.1h 850 - 2015. doi:10.22033/ESGF/input4MIPs.1127

[5] DOI Hoesly, Rachel; Smith, Steven; Feng, Leyang; Klimont, Zbigniew; Janssens-Maenhout, Greet; Pitkanen, Tyler; Seibert, Jonathan J.; Vu, Linh; Andres, Robert J.; Bolt, Ryan M.; Bond, Tami C.; Dawidowski, Laura; Kholod, Nazar; Kurokawa, Jun-ichi; Li, Meng; Liu, Liang; Lu, Zifeng; Moura, Maria Cecilia P.; O'Rourke, Patrick R.; Zhang, Qiang. (2017). Historical Emissions (1750 - 2014) - CEDS - v2017-05-18. doi:10.22033/ESGF/input4MIPs.1241

[6] DOI Kennedy, John; Titchner, Holly; Rayner, Nick; Roberts, Malcolm. (2017). input4MIPs.MOHC.SSTsAndSeaIce.HighResMIP.MOHC-HadISST-2-2-0-0-0. doi:10.22033/ESGF/input4MIPs.1221

[7] DOI Meinshausen, Malte; Vogel, Elisabeth. (2016). input4MIPs.UoM.GHGConcentrations.CMIP.UoM-CMIP-1-2-0. doi:10.22033/ESGF/input4MIPs.1118

Is part of

[1] DOI Tatebe, Hiroaki; Watanabe, Masahiro. (2018). MIROC MIROC6 model output prepared for CMIP6 CMIP piControl. doi:10.22033/ESGF/CMIP6.5711

Is referenced by

[1] DOI Yamagami, Yoko; Watanabe, Masahiro; Mori, Masato; Ono, Jun. (2022). Barents-Kara sea-ice decline attributed to surface warming in the Gulf Stream. doi:10.1038/s41467-022-31117-6

[2] DOI McKenna, Christine M.; Maycock, Amanda C.; Forster, Piers M.; Smith, Christopher J.; Tokarska, Katarzyna B. (2020). Stringent mitigation substantially reduces risk of unprecedented near-term warming rates. doi:10.1038/s41558-020-00957-9

[3] DOI Paulot, Fabien; Naik, Vaishali; W. Horowitz, Larry. (2022). Reduction in Near‐Surface Wind Speeds With Increasing CO2 May Worsen Winter Air Quality in the Indo‐Gangetic Plain. doi:10.1029/2022gl099039

[4] DOI Rogers, Matthew H.; Furtado, Jason; Anderson, Bruce. (2021). The Pacific Decadal Precession and its Relationship to Tropical Pacific Decadal Variability in CMIP6 Models. doi:10.21203/rs.3.rs-390152/v1

[5] DOI Jönsson, Aiden R.; Bender, Frida A.-M. (2022). The response of hemispheric differences in Earth’s albedo to CO<sub>2</sub> forcing in coupled models and its implications for shortwave radiative feedback strength. doi:10.5194/egusphere-2022-811

[6] DOI de Vries, Iris Elisabeth; Sippel, Sebastian; Pendergrass, Angeline Greene; Knutti, Reto. (2023). Robust global detection of forced changes in mean and extreme precipitation despite observational disagreement on the magnitude of change. doi:10.5194/esd-14-81-2023

[7] DOI Jönsson, Aiden. (2022). Reply on RC1. doi:10.5194/egusphere-2022-811-ac1

[8] DOI Jönsson, Aiden. (2022). Reply on RC2. doi:10.5194/egusphere-2022-811-ac2

[9] DOI Aylmer, Jake R.; Ferreira, David; Feltham, Daniel L. (2024). Impact of ocean heat transport on sea ice captured by a simple energy balance model. doi:10.1038/s43247-024-01565-7

[10] DOI de Vries, Iris Elisabeth; Sippel, Sebastian; Pendergrass, Angeline Greene; Knutti, Reto. (2022). Robust global detection of forced changes in mean and extreme precipitation despite observational disagreement on the magnitude of change. doi:10.5194/egusphere-2022-568

References

[1] DOI Tatebe, Hiroaki; Ogura, Tomoo; Nitta, Tomoko; Komuro, Yoshiki; Ogochi, Koji; Takemura, Toshihiko; Sudo, Kengo; Sekiguchi, Miho; Abe, Manabu; Saito, Fuyuki; Chikira, Minoru; Watanabe, Shingo; Mori, Masato; Hirota, Nagio; Kawatani, Yoshio; Mochizuki, Takashi; Yoshimura, Kei; Takata, Kumiko; O&apos;ishi, Ryouta; Yamazaki, Dai; Suzuki, Tatsuo; Kurogi, Masao; Kataoka, Takahito; Watanabe, Masahiro; Kimoto, Masahide. (2018). Description and basic evaluation of simulated mean state, internal variability, and climate sensitivity in MIROC6. doi:10.5194/gmd-2018-155

[2] DOI Tatebe, Hiroaki; Ogura, Tomoo; Nitta, Tomoko; Komuro, Yoshiki; Ogochi, Koji; Takemura, Toshihiko; Sudo, Kengo; Sekiguchi, Miho; Abe, Manabu; Saito, Fuyuki; Chikira, Minoru; Watanabe, Shingo; Mori, Masato; Hirota, Nagio; Kawatani, Yoshio; Mochizuki, Takashi; Yoshimura, Kei; Takata, Kumiko; O'ishi, Ryouta; Yamazaki, Dai; Suzuki, Tatsuo; Kurogi, Masao; Kataoka, Takahito; Watanabe, Masahiro; Kimoto, Masahide. (1900). Description and basic evaluation of simulated mean state, internal variability, and climate sensitivity in MIROC6. doi:10.5194/gmd-12-2727-2019

Is related to

[1] DOI Rogers, Matthew H.; Furtado, Jason C.; Anderson, Bruce T. (2022). The pacific decadal precession and its relationship to tropical pacific decadal variability in CMIP6 models. doi:10.1007/s00382-021-06114-y

[2] DOI Kim, Hyo-Jeong; An, Soon-Il; Park, Jae-Heung; Sung, Mi-Kyung; Kim, Daehyun; Choi, Yeonju; Kim, Jin-Soo. (2023). North Atlantic Oscillation impact on the Atlantic Meridional Overturning Circulation shaped by the mean state. doi:10.1038/s41612-023-00354-x

Is cited by

[1] DOI Lee, J.-Y.; Marotzke, J.; Bala, G.; Cao, L.; Corti, S.; Dunne, J.P.; Engelbrecht, F.; Fischer, E.; Fyfe, J.C; Jones, C.; Maycock, A.; Mutemi, J.; Ndiaye, O.; Panickal, S.; Zhou,T. (2023). Future Global Climate: Scenario-Based Projections and Near-Term Information. In Climate Change 2021: The Physical Science Basis. Contribution of Working Group I to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change [Masson-Delmotte, V., P. Zhai, A. Pirani, S.L. Connors, C. Péan, S. Berger, N. Caud, Y. Chen, L. Goldfarb, M.I. Gomis, M. Huang, K. Leitzell, E. Lonnoy, J.B.R. Matthews, T.K. Maycock, T. Waterfield, O. Yelekçi, R. Yu, and B. Zhou (eds.)]. doi:10.1017/9781009157896.006

[2] DOI Eyring, V.; Gillett, N.P.; Achuta Rao, K.M.; Barimalala, R.; Barreiro Parrillo, M.; Bellouin, N.; Cassou, C.; Durack, P.J.; Kosaka, Y.; McGregor, S.; Min, S.; Morgenstern, O.; Sun, Y. (2023). Human Influence on the Climate System. In Climate Change 2021: The Physical Science Basis. Contribution of Working Group I to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change [Masson-Delmotte, V., P. Zhai, A. Pirani, S.L. Connors, C. Péan, S. Berger, N. Caud, Y. Chen, L. Goldfarb, M.I. Gomis, M. Huang, K. Leitzell, E. Lonnoy, J.B.R. Matthews, T.K. Maycock, T. Waterfield, O. Yelekçi, R. Yu, and B. Zhou (eds.)]. doi:10.1017/9781009157896.005

[3] DOI Doblas-Reyes, F.J.; Sörensson, A.A.; Almazroui, M.; Dosio, A.; Gutowski, W.J.; Haarsma, R.; Hamdi, R.; Hewitson, B.; Kwon, W.-T.; Lamptey, B.L.; Maraun, D.; Stephenson, T.S.; Takayabu, I.; Terray, L.; Turner, A.; Zuo, Z. (2023). Linking Global to Regional Climate Change. In Climate Change 2021: The Physical Science Basis. Contribution of Working Group I to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change [Masson-Delmotte, V., P. Zhai, A. Pirani, S.L. Connors, C. Péan, S. Berger, N. Caud, Y. Chen, L. Goldfarb, M.I. Gomis, M. Huang, K. Leitzell, E. Lonnoy, J.B.R. Matthews, T.K. Maycock, T. Waterfield, O. Yelekçi, R. Yu, and B. Zhou (eds.)]. doi:10.1017/9781009157896.012

[4] DOI Intergovernmental Panel on Climate Change (IPCC). (2023). Climate Change 2021: The Physical Science Basis. Contribution of Working Group I to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change [Masson-Delmotte, V., P. Zhai, A. Pirani, S.L. Connors, C. Péan, S. Berger, N. Caud, Y. Chen, L. Goldfarb, M.I. Gomis, M. Huang, K. Leitzell, E. Lonnoy, J.B.R. Matthews, T.K. Maycock, T. Waterfield, O. Yelekçi, R. Yu, and B. Zhou (eds.)]. doi:10.1017/9781009157896

[5] DOI Douville, H.; Raghavan, K.; Renwick, J.; Allan, R.P.; Arias, P.A.; Barlow, M.; Cerezo-Mota, R.; Cherchi, A.; Gan, T.Y.; Gergis, J.; Jiang, D.; Khan, A.; Pokam Mba, W.; Rosenfeld, D.; Tierney, J.; Zolina, O. (2023). Water Cycle Changes. In Climate Change 2021: The Physical Science Basis. Contribution of Working Group I to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change [Masson-Delmotte, V., P. Zhai, A. Pirani, S.L. Connors, C. Péan, S. Berger, N. Caud, Y. Chen, L. Goldfarb, M.I. Gomis, M. Huang, K. Leitzell, E. Lonnoy, J.B.R. Matthews, T.K. Maycock, T. Waterfield, O. Yelekçi, R. Yu, and B. Zhou (eds.)]. doi:10.1017/9781009157896.010

Parent

WCRP CMIP6 CMIP MIROC MIROC6

Details

Attached Datasets ( 198 )

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Parent project(s)

WCRP Coupled Model Intercomparison Project Phase 6 (CMIP6) datasets

[Entry acronym: C6_5208751] [Entry id: 5208751]