Regional Environmental Change

, Volume 14, Issue 2, pp 579–581

Erratum to: EURO-CORDEX: new high-resolution climate change projections for European impact research

  • Daniela Jacob
  • Juliane Petersen
  • Bastian Eggert
  • Antoinette Alias
  • Ole Bøssing Christensen
  • Laurens M. Bouwer
  • Alain Braun
  • Augustin Colette
  • Michel Déqué
  • Goran Georgievski
  • Elena Georgopoulou
  • Andreas Gobiet
  • Laurent Menut
  • Grigory Nikulin
  • Andreas Haensler
  • Nils Hempelmann
  • Colin Jones
  • Klaus Keuler
  • Sari Kovats
  • Nico Kröner
  • Sven Kotlarski
  • Arne Kriegsmann
  • Eric Martin
  • Erik van Meijgaard
  • Christopher Moseley
  • Susanne Pfeifer
  • Swantje Preuschmann
  • Christine Radermacher
  • Kai Radtke
  • Diana Rechid
  • Mark Rounsevell
  • Patrick Samuelsson
  • Samuel Somot
  • Jean-Francois Soussana
  • Claas Teichmann
  • Riccardo Valentini
  • Robert Vautard
  • Björn Weber
  • Pascal Yiou
Erratum
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Erratum to: Reg Environ Change DOI 10.1007/s10113-013-0499-2

The author would like to correct the errors in the publication of the original article. The corrected details are given below for your reading.

In result section, third sentence of the fourth paragraph should read as:

“The zone between regions in which precipitation increases in the north and decreases in the south shifts northwards in summer and southwards in winter”

The ranges in Table 3 should be:
Table 3

Projected changes of selected climate parameters and indices for 2071–2100 with respect to 1971–2000 spatially averaged for European sub-regions based on RCP4.5 and RCP8.5

Scenarios

Climate parameters

Measure

Alpine

Atlantic

Continental

Northern

Southern

RCP 4.5

RCP 8.5

RCP 4.5

RCP 8.5

RCP 4.5

RCP 8.5

RCP 4.5

RCP 8.5

RCP 4.5

RCP 8.5

2071–2100 minus 1971–2000

Mean annual temperature in K

Median

2.4

4.6

1.7

3.2

2.1

4.1

2.9

5.2

2.0

4.2

Min

1.8

3.8

1.3

2.5

1.6

3.6

2.0

4.1

1.9

3.8

Likely in the range

1.9–3.4

3.9–6.0

1.4–2.1

2.7–3.6

1.6–3.2

3.7–5.2

2.0–4.2

4.1–6.2

1.9–2.7

3.9–5.4

Max

3.6

6.3

2.9

4.2

3.2

5.3

4.3

6.5

3.2

5.7

Frost days (1) per year

Median

−40

−70

−28

−40

−34

−62

−40

−68

−22

−43

Min

−25

−55

−12

−21

−16

−46

−24

−58

−10

−22

Likely in the range

−26 to −41

−57 to −85

−15 to −30

−26 to −50

−18 to −40

−50 to −65

−26 to −43

−60 to −83

−11 to −30

−23 to −51

Max

−47

−93

−33

−60

−41

−73

−52

−93

−31

−51

Summer days (2) per year

Median

8

19

11

24

20

37

4

13

27

54

Min

3

10

6

17

11

27

2

5

21

43

Likely in the range

4–14

12–24

6–14

22–28

13–24

30–46

2–16

6–22

25–33

46–60

Max

18

25

33

38

28

49

23

28

37

67

Tropical nights (4) per year

Median

1

4

3

7

9

22

1

1

20

45

Min

0

1

0

3

2

11

0

0

7

23

Likely in the range

1–3

2–5

1–5

3–12

9–27

17–31

0–5

1–3

11–24

25–57

Max

8

6

18

17

30

37

7

13

41

58

Growing season length (5) days per growing season

Median

31

61

39

58

26

58

23

55

27

49

Min

23

52

24

41

17

52

17

37

16

34

Likely in the range

23–39

52–83

27–43

47–68

20–38

53–71

19–33

41–60

17–33

38–53

Max

45

95

45

75

41

75

42

78

38

58

Warm spell duration index (14) days per year

Median

34

96

20

65

23

73

35

82

34

124

Min

26

73

17

46

16

52

22

64

28

90

Likely in the range

29–55

77–136

20–31

49–87

18–42

58–93

23–42

75–113

32–69

98–177

Max

69

162

55

102

54

106

63

130

83

186

Cold spell duration index (15) days per year

Median

−5

−5

−5

−5

−6

−6

−7

−6

−5

−5

Min

−3

−3

−2

−4

−3

−5

−4

−4

−3

−4

Likely in the range

−4 to −7

−4 to −6

−3 to −6

−4 to −5

−4 to −7

−5 to −8

−6 to −8

−5 to −7

−3 to −5

−4 to −5

Max

−7

−6

−6

−6

−7

−8

−8

−8

−6

−6

Annual total precipitation (27) in  %

Median

5

14

1

4

9

10

10

22

−6

−10

Min

3

5

−1

−2

0

0

7

18

2

0

Likely in the range

4 to 8

7 to 16

−1 to 7

2 to 9

1 to 13

4 to 19

8 to 17

19 to 32

−10 to 0

−21 to −2

Max

12

18

9

9

16

29

22

34

−11

−27

Annual total precipitation where RR >99p of 1971/2000 (26) in  %

Median

38

79

36

71

44

65

43

82

36

49

Min

24

41

20

48

17

37

27

64

23

30

Likely in the range

25–60

44–105

25–70

49–105

33–60

44–75

28–65

66–110

31–57

38–58

Max

73

119

73

118

73

106

70

120

62

65

Numbers are based on 8 (RCP4.5) and 9 (RCP8.5) regional model simulations. The likely range defines the range of 66 % of all projected changes around the ensemble median

Cold spell duration index, Max, Continental, RCP8.5 from −6 to −8.

Annual total precipitation, Min, Southern, RCP4.5 from −11 to 2.

Annual total precipitation, Max, Southern, RCP4.5 from 2 to −11.

The correct Table 3 is given in the following page.

Copyright information

© Springer-Verlag Berlin Heidelberg 2014

Authors and Affiliations

  • Daniela Jacob
    • 1
    • 2
  • Juliane Petersen
    • 1
    • 2
  • Bastian Eggert
    • 1
  • Antoinette Alias
    • 3
  • Ole Bøssing Christensen
    • 4
  • Laurens M. Bouwer
    • 5
    • 20
  • Alain Braun
    • 3
  • Augustin Colette
    • 6
  • Michel Déqué
    • 3
  • Goran Georgievski
    • 7
  • Elena Georgopoulou
    • 8
  • Andreas Gobiet
    • 9
  • Laurent Menut
    • 10
  • Grigory Nikulin
    • 11
  • Andreas Haensler
    • 1
  • Nils Hempelmann
    • 1
  • Colin Jones
    • 11
  • Klaus Keuler
    • 7
  • Sari Kovats
    • 12
  • Nico Kröner
    • 13
  • Sven Kotlarski
    • 13
  • Arne Kriegsmann
    • 1
  • Eric Martin
    • 3
  • Erik van Meijgaard
    • 14
  • Christopher Moseley
    • 1
    • 2
  • Susanne Pfeifer
    • 1
  • Swantje Preuschmann
    • 1
  • Christine Radermacher
    • 2
  • Kai Radtke
    • 7
  • Diana Rechid
    • 1
    • 2
  • Mark Rounsevell
    • 15
  • Patrick Samuelsson
    • 11
  • Samuel Somot
    • 3
  • Jean-Francois Soussana
    • 16
  • Claas Teichmann
    • 1
    • 2
  • Riccardo Valentini
    • 17
    • 18
  • Robert Vautard
    • 19
  • Björn Weber
    • 1
  • Pascal Yiou
    • 19
  1. 1.Climate Service Center (CSC)Helmholtz-Zentrum GeesthachtHamburgGermany
  2. 2.Max Planck Institute for Meteorology (MPIM)HamburgGermany
  3. 3.Météo-France/CNRS, Centre National de Recherches Météorologiques (CNRM-GAME)Toulouse Cedex 1France
  4. 4.Danish Climate CentreDanish Meteorological Institute (DMI)CopenhagenDenmark
  5. 5.Institute for Environmental StudiesVrije UniversiteitAmsterdamThe Netherlands
  6. 6.Institut National de l’Environnement Industriel et des Risques (INERIS)Verneuil-en-HalatteFrance
  7. 7.Environmental MeteorologyBrandenburg University of TechnologyCottbusGermany
  8. 8.Institute for Environmental Research and Sustainable Development (IERSD)National Observatory of AthensThissioGreece
  9. 9.Wegener Center for Climate and Global Change and Institute for Geophysics, Astrophysics, and MeteorologyUniversity of GrazGrazAustria
  10. 10.Laboratoire de Météorologie Dynamique (IPSL)Ecole PolytechniquePalaiseau CedexFrance
  11. 11.Swedish Meteorological and Hydrological Institute (SMHI)NorrköpingSweden
  12. 12.London School of Hygiene and Tropical MedicineLondonUK
  13. 13.Institute for Atmospheric and Climate ScienceETH ZurichZurichSwitzerland
  14. 14.Royal Netherlands Meteorological Institute (KNMI)De BiltThe Netherlands
  15. 15.David Kinloch Michie Chair of Rural Economy & Environmental Sustainability, Institute of Geography & the Lived Environment, School of GeoSciencesThe University of EdinburghEdinburghUK
  16. 16.INRA, UR874, Grassland Ecosystems Research (UREP)Clermont-FerrandFrance
  17. 17.Department of Forest Science and EnvironmentUniversity of TusciaViterboItaly
  18. 18.Euro–Mediterranean Center for Climate ChangeViterboItaly
  19. 19.Laboratoire des Sciences du Climat et de l’Environnement, IPSL, CEA/CNRS/UVSQGif sur YvetteFrance
  20. 20.DeltaresDelftThe Netherlands

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