@article{989,
  keywords = {Atmospheric temperature, climate change, Repair, Bayesian hierarchical modelling, Climate model simulations, Common Era, Heat waves, Medieval climate anomalies, Paleoclimatology, Summer temperature, Climate models, Bayesian analysis, climate modeling, heat flow, hierarchical system, Little Ice Age, Medieval Warm Period, paleoclimate, paleotemperature, reconstruction, Roman era, spatiotemporal analysis, summer, Europe},
  author = {J. Luterbacher and J.P. Werner and J.E. Smerdon and L. Fernández-Donado and F.J. González-Rouco and D. Barriopedro and F.C. Ljungqvist and U. Büntgen and E. Zorita and S. Wagner and J. Esper and D. McCarroll and A. Toreti and D. Frank and J.H. Jungclaus and M. Barriendos and C. Bertolin and O. Bothe and R. Brázdil and D. Camuffo and P. Dobrovolný and M. Gagen and E. García-Bustamante and Q. Ge and J.J. Gómez-Navarro and J. Guiot and Z. Hao and G.C. Hegerl and K. Holmgren and V.V. Klimenko and J. Martín-Chivelet and C. Pfister and N. Roberts and A. Schindler and A. Schurer and O. Solomina and L. Von Gunten and E. Wahl and H. Wanner and O. Wetter and E. Xoplaki and N. Yuan and D. Zanchettin and H. Zhang and C. Zerefos},
  title = {European summer temperatures since Roman times},
  year = {2016},
  journal = {Environmental Research Letters},
  url = {https://www.scopus.com/inward/record.uri?eid=2-s2.0-84959421909&doi=10.1088%2f1748-9326%2f11%2f2%2f024001&partnerID=40&md5=b56e1aae3caba729c3327ae4eb046a85},
  doi = {10.1088/1748-9326/11/2/024001},
}