The EUSTACE project: Delivering global, daily information on surface air temperature

Nick A. Rayner; Renate Auchmann; Janette Bessembinder; Stefan Brönnimann; Yuri Brugnara; Francesco Capponi; Laura Carrea; Emma M.A. Dodd; Darren Ghent; Elizabeth Good; Jacob L. Høyer; John J. Kennedy; Elizabeth C. Kent; Rachel E. Killick; Paul van der Linden; Finn Lindgren; Kristine S. Madsen; Christopher J. Merchant; Joel R. Mitchelson; Colin P. Morice; Pia Nielsen-Englyst; Patricio F. Ortiz; John J. Remedios; Gerard van der Schrier; Antonello A. Squintu; Ag Stephens; Peter W. Thorne; Rasmus T. Tonboe; Tim Trent; Karen L. Veal; Alison M. Waterfall; Kate Winfield; Jonathan Winn; R. Iestyn Woolway

doi:10.1175/BAMS-D-19-0095.1

The EUSTACE project: Delivering global, daily information on surface air temperature

Nick A. Rayner^*, Renate Auchmann, Janette Bessembinder, Stefan Brönnimann, Yuri Brugnara, Francesco Capponi, Laura Carrea, Emma M.A. Dodd, Darren Ghent, Elizabeth Good, Jacob L. Høyer, John J. Kennedy, Elizabeth C. Kent, Rachel E. Killick, Paul van der Linden, Finn Lindgren, Kristine S. Madsen, Christopher J. Merchant, Joel R. Mitchelson, Colin P. MoricePia Nielsen-Englyst, Patricio F. Ortiz, John J. Remedios, Gerard van der Schrier, Antonello A. Squintu, Ag Stephens, Peter W. Thorne, Rasmus T. Tonboe, Tim Trent, Karen L. Veal, Alison M. Waterfall, Kate Winfield, Jonathan Winn, R. Iestyn Woolway

^*Corresponding author for this work

School of Mathematics

Research output: Contribution to journal › Article › peer-review

Abstract

Day-to-day variations in surface air temperature affect society in many ways, but daily surface air temperature measurements are not available everywhere. Therefore, a global daily picture cannot be achieved with measurements made in situ alone and needs to incorporate estimates from satellite retrievals. This article presents the science developed in the EU Horizon 2020–funded EUSTACE project (2015–19, www.eustaceproject.org) to produce global and European multidecadal ensembles of daily analyses of surface air temperature complementary to those from dynamical reanalyses, integrating different ground-based and satellite-borne data types. Relationships between surface air temperature measurements and satellite-based estimates of surface skin temperature over all surfaces of Earth (land, ocean, ice, and lakes) are quantified. Information contained in the satellite retrievals then helps to estimate air temperature and create global fields in the past, using statistical models of how surface air temperature varies in a connected way from place to place; this needs efficient statistical analysis methods to cope with the considerable data volumes. Daily fields are presented as ensembles to enable propagation of uncertainties through applications. Estimated temperatures and their uncertainties are evaluated against independent measurements and other surface temperature datasets. Achievements in the EUSTACE project have also included fundamental preparatory work useful to others, for example, gathering user requirements, identifying inhomogeneities in daily surface air temperature measurement series from weather stations, carefully quantifying uncertainties in satellite skin and air temperature estimates, exploring the interaction between air temperature and lakes, developing statistical models relevant to non-Gaussian variables, and methods for efficient computation.

Original language	English
Pages (from-to)	E1924-E1947
Journal	Bulletin of the American Meteorological Society
Volume	101
Issue number	11
DOIs	https://doi.org/10.1175/BAMS-D-19-0095.1
Publication status	Published - 1 Nov 2020

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10.1175/BAMS-D-19-0095.1

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Rayner, N. A., Auchmann, R., Bessembinder, J., Brönnimann, S., Brugnara, Y., Capponi, F., Carrea, L., Dodd, E. M. A., Ghent, D., Good, E., Høyer, J. L., Kennedy, J. J., Kent, E. C., Killick, R. E., van der Linden, P., Lindgren, F., Madsen, K. S., Merchant, C. J., Mitchelson, J. R., ... Iestyn Woolway, R. (2020). The EUSTACE project: Delivering global, daily information on surface air temperature. Bulletin of the American Meteorological Society, 101(11), E1924-E1947. https://doi.org/10.1175/BAMS-D-19-0095.1

@article{24be4c2734b946278cd62b154a305d75,

title = "The EUSTACE project: Delivering global, daily information on surface air temperature",

abstract = "Day-to-day variations in surface air temperature affect society in many ways, but daily surface air temperature measurements are not available everywhere. Therefore, a global daily picture cannot be achieved with measurements made in situ alone and needs to incorporate estimates from satellite retrievals. This article presents the science developed in the EU Horizon 2020–funded EUSTACE project (2015–19, www.eustaceproject.org) to produce global and European multidecadal ensembles of daily analyses of surface air temperature complementary to those from dynamical reanalyses, integrating different ground-based and satellite-borne data types. Relationships between surface air temperature measurements and satellite-based estimates of surface skin temperature over all surfaces of Earth (land, ocean, ice, and lakes) are quantified. Information contained in the satellite retrievals then helps to estimate air temperature and create global fields in the past, using statistical models of how surface air temperature varies in a connected way from place to place; this needs efficient statistical analysis methods to cope with the considerable data volumes. Daily fields are presented as ensembles to enable propagation of uncertainties through applications. Estimated temperatures and their uncertainties are evaluated against independent measurements and other surface temperature datasets. Achievements in the EUSTACE project have also included fundamental preparatory work useful to others, for example, gathering user requirements, identifying inhomogeneities in daily surface air temperature measurement series from weather stations, carefully quantifying uncertainties in satellite skin and air temperature estimates, exploring the interaction between air temperature and lakes, developing statistical models relevant to non-Gaussian variables, and methods for efficient computation.",

author = "Rayner, {Nick A.} and Renate Auchmann and Janette Bessembinder and Stefan Br{\"o}nnimann and Yuri Brugnara and Francesco Capponi and Laura Carrea and Dodd, {Emma M.A.} and Darren Ghent and Elizabeth Good and H{\o}yer, {Jacob L.} and Kennedy, {John J.} and Kent, {Elizabeth C.} and Killick, {Rachel E.} and {van der Linden}, Paul and Finn Lindgren and Madsen, {Kristine S.} and Merchant, {Christopher J.} and Mitchelson, {Joel R.} and Morice, {Colin P.} and Pia Nielsen-Englyst and Ortiz, {Patricio F.} and Remedios, {John J.} and {van der Schrier}, Gerard and Squintu, {Antonello A.} and Ag Stephens and Thorne, {Peter W.} and Tonboe, {Rasmus T.} and Tim Trent and Veal, {Karen L.} and Waterfall, {Alison M.} and Kate Winfield and Jonathan Winn and {Iestyn Woolway}, R.",

note = "Funding Information: E U Surface Temperature for All Corners of Earth (EUSTACE, www.eustaceproject.org) is a 4-yr research project funded by the European Union Horizon 2020 research and innovation program (EU H2020; Grant Agreement 640171; see appendix A for a list of the Consortium{\textquoteright}s institutions) that started on 1 January 2015. EUSTACE has used temperature estimates from satellites to boost the amount of information available beyond that provided by weather stations and ships to help to construct a prototype global, multidecadal daily air temperature record presented on a 0.25° latitude × 0.25° longitude grid. Funding Information: Acknowledgments. The EUSTACE project received funding from the European Union{\textquoteright}s Horizon 2020 research and innovation program under Grant Agreement 640171. We thank Professor Doug Nychka for his advice throughout EUSTACE as part of the External Expert Advisory Board and Gary Corlett for validation of interim versions of the EUSTACE air temperature estimates over ocean. We also thank Esther Conway for her work on the data management plan and Roy Mandemakers for provision of a step-by-step guide for using the Climate4Impact portal as part of the EUSTACE user guides. ECK contribution was funded under NERC Grant NE/J020788/1. We thank three anonymous reviewers for their comments, which improved the manuscript. Publisher Copyright: {\textcopyright} 2020 American Meteorological Society. Copyright: Copyright 2020 Elsevier B.V., All rights reserved.",

year = "2020",

month = nov,

day = "1",

doi = "10.1175/BAMS-D-19-0095.1",

language = "English",

volume = "101",

pages = "E1924--E1947",

journal = "Bulletin of the American Meteorological Society",

issn = "0003-0007",

publisher = "American Meteorological Society",

number = "11",

}

Rayner, NA, Auchmann, R, Bessembinder, J, Brönnimann, S, Brugnara, Y, Capponi, F, Carrea, L, Dodd, EMA, Ghent, D, Good, E, Høyer, JL, Kennedy, JJ, Kent, EC, Killick, RE, van der Linden, P, Lindgren, F, Madsen, KS, Merchant, CJ, Mitchelson, JR, Morice, CP, Nielsen-Englyst, P, Ortiz, PF, Remedios, JJ, van der Schrier, G, Squintu, AA, Stephens, A, Thorne, PW, Tonboe, RT, Trent, T, Veal, KL, Waterfall, AM, Winfield, K, Winn, J & Iestyn Woolway, R 2020, 'The EUSTACE project: Delivering global, daily information on surface air temperature', Bulletin of the American Meteorological Society, vol. 101, no. 11, pp. E1924-E1947. https://doi.org/10.1175/BAMS-D-19-0095.1

TY - JOUR

T1 - The EUSTACE project: Delivering global, daily information on surface air temperature

AU - Rayner, Nick A.

AU - Auchmann, Renate

AU - Bessembinder, Janette

AU - Brönnimann, Stefan

AU - Brugnara, Yuri

AU - Capponi, Francesco

AU - Carrea, Laura

AU - Dodd, Emma M.A.

AU - Ghent, Darren

AU - Good, Elizabeth

AU - Høyer, Jacob L.

AU - Kennedy, John J.

AU - Kent, Elizabeth C.

AU - Killick, Rachel E.

AU - van der Linden, Paul

AU - Lindgren, Finn

AU - Madsen, Kristine S.

AU - Merchant, Christopher J.

AU - Mitchelson, Joel R.

AU - Morice, Colin P.

AU - Nielsen-Englyst, Pia

AU - Ortiz, Patricio F.

AU - Remedios, John J.

AU - van der Schrier, Gerard

AU - Squintu, Antonello A.

AU - Stephens, Ag

AU - Thorne, Peter W.

AU - Tonboe, Rasmus T.

AU - Trent, Tim

AU - Veal, Karen L.

AU - Waterfall, Alison M.

AU - Winfield, Kate

AU - Winn, Jonathan

AU - Iestyn Woolway, R.

N1 - Funding Information: E U Surface Temperature for All Corners of Earth (EUSTACE, www.eustaceproject.org) is a 4-yr research project funded by the European Union Horizon 2020 research and innovation program (EU H2020; Grant Agreement 640171; see appendix A for a list of the Consortium’s institutions) that started on 1 January 2015. EUSTACE has used temperature estimates from satellites to boost the amount of information available beyond that provided by weather stations and ships to help to construct a prototype global, multidecadal daily air temperature record presented on a 0.25° latitude × 0.25° longitude grid. Funding Information: Acknowledgments. The EUSTACE project received funding from the European Union’s Horizon 2020 research and innovation program under Grant Agreement 640171. We thank Professor Doug Nychka for his advice throughout EUSTACE as part of the External Expert Advisory Board and Gary Corlett for validation of interim versions of the EUSTACE air temperature estimates over ocean. We also thank Esther Conway for her work on the data management plan and Roy Mandemakers for provision of a step-by-step guide for using the Climate4Impact portal as part of the EUSTACE user guides. ECK contribution was funded under NERC Grant NE/J020788/1. We thank three anonymous reviewers for their comments, which improved the manuscript. Publisher Copyright: © 2020 American Meteorological Society. Copyright: Copyright 2020 Elsevier B.V., All rights reserved.

PY - 2020/11/1

Y1 - 2020/11/1

N2 - Day-to-day variations in surface air temperature affect society in many ways, but daily surface air temperature measurements are not available everywhere. Therefore, a global daily picture cannot be achieved with measurements made in situ alone and needs to incorporate estimates from satellite retrievals. This article presents the science developed in the EU Horizon 2020–funded EUSTACE project (2015–19, www.eustaceproject.org) to produce global and European multidecadal ensembles of daily analyses of surface air temperature complementary to those from dynamical reanalyses, integrating different ground-based and satellite-borne data types. Relationships between surface air temperature measurements and satellite-based estimates of surface skin temperature over all surfaces of Earth (land, ocean, ice, and lakes) are quantified. Information contained in the satellite retrievals then helps to estimate air temperature and create global fields in the past, using statistical models of how surface air temperature varies in a connected way from place to place; this needs efficient statistical analysis methods to cope with the considerable data volumes. Daily fields are presented as ensembles to enable propagation of uncertainties through applications. Estimated temperatures and their uncertainties are evaluated against independent measurements and other surface temperature datasets. Achievements in the EUSTACE project have also included fundamental preparatory work useful to others, for example, gathering user requirements, identifying inhomogeneities in daily surface air temperature measurement series from weather stations, carefully quantifying uncertainties in satellite skin and air temperature estimates, exploring the interaction between air temperature and lakes, developing statistical models relevant to non-Gaussian variables, and methods for efficient computation.

AB - Day-to-day variations in surface air temperature affect society in many ways, but daily surface air temperature measurements are not available everywhere. Therefore, a global daily picture cannot be achieved with measurements made in situ alone and needs to incorporate estimates from satellite retrievals. This article presents the science developed in the EU Horizon 2020–funded EUSTACE project (2015–19, www.eustaceproject.org) to produce global and European multidecadal ensembles of daily analyses of surface air temperature complementary to those from dynamical reanalyses, integrating different ground-based and satellite-borne data types. Relationships between surface air temperature measurements and satellite-based estimates of surface skin temperature over all surfaces of Earth (land, ocean, ice, and lakes) are quantified. Information contained in the satellite retrievals then helps to estimate air temperature and create global fields in the past, using statistical models of how surface air temperature varies in a connected way from place to place; this needs efficient statistical analysis methods to cope with the considerable data volumes. Daily fields are presented as ensembles to enable propagation of uncertainties through applications. Estimated temperatures and their uncertainties are evaluated against independent measurements and other surface temperature datasets. Achievements in the EUSTACE project have also included fundamental preparatory work useful to others, for example, gathering user requirements, identifying inhomogeneities in daily surface air temperature measurement series from weather stations, carefully quantifying uncertainties in satellite skin and air temperature estimates, exploring the interaction between air temperature and lakes, developing statistical models relevant to non-Gaussian variables, and methods for efficient computation.

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UR - http://10.1175/BAMS-D-19-0095.2

U2 - 10.1175/BAMS-D-19-0095.1

DO - 10.1175/BAMS-D-19-0095.1

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AN - SCOPUS:85091482335

SN - 0003-0007

VL - 101

SP - E1924-E1947

JO - Bulletin of the American Meteorological Society

JF - Bulletin of the American Meteorological Society

IS - 11

ER -

The EUSTACE project: Delivering global, daily information on surface air temperature

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