The EUSTACE Project: Delivering Global, Daily Information on Surface Air Temperature

Research output: Contribution to journalArticlepeer-review

Electronic versions

DOI

  • Nick A. Rayner
    Met Office
  • Renate Auchmann
    University of Bern
  • Janette Bessembinder
    Royal Netherlands Meteorological Institute
  • Stefan Bronnimann
    University of Bern
  • Yuri Brugnara
    Bern University
  • Francesco Capponi
    Met Office
  • Laura Carrea
    University of Reading
  • Emma M. A. Dodd
    University of Leicester
  • Darren Ghent
    University of Leicester
  • Elizabeth Good
    Met Office
  • Jacob L. Hoyer
    Danish Meteorological Institute
  • John J. Kennedy
    Met Office
  • Elizabeth C. Kent
    National Oceanography Centre, Southampton
  • Rachel E. Killick
    Met Office
  • Paul van der Linden
    Met Office
  • Finn Lindgren
    Met Office
  • Kristine S. Madsen
    Danish Meteorological Institute
  • Christopher J. Merchant
    University of Reading
  • Joel R. Mitchelson
    Met Office
  • Colin P. Morice
    Met Office
  • Pia Nielsen-Englyst
    Danish Meteorological Institute
  • Patricio F. Ortiz
    University of Leicester
  • John J. Remedios
    University of Leicester
  • Gerard van der Schrier
    Royal Netherlands Meteorological Institute
  • Antonello A. Squintu
    Royal Netherlands Meteorological Institute
  • Ag Stephens
    Science and Technology Facilities Council, Didcot
  • Peter W. Thorne
    NUI Galway, Ireland
  • Rasmus T. Tonboe
    Danish Meteorological Institute
  • Tim Trent
    University of Leicester
  • Karen L. Veal
    University of Leicester
  • Alison M. Waterfall
    Science and Technology Facilities Council, Didcot
  • Kate Winfield
    Science and Technology Facilities Council, Didcot
  • Jonathan Winn
    Met Office
  • R. Iestyn Woolway
    University of Reading
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 con-nected 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 mea-surement 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 languageEnglish
Pages (from-to)E1924-E1947
JournalBulletin of the American Meteorological Society
Volume101
Issue number11
Early online date17 Nov 2020
DOIs
Publication statusPublished - Nov 2020
View graph of relations