A wavelet-based approach to detect climate change on the coherent and turbulent component  of the atmospheric circulation

Faranda, Davide; Defrance, Dimitri

doi:10.5194/esd-7-517-2016

Articles | Volume 7, issue 2

https://doi.org/10.5194/esd-7-517-2016

© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.

https://doi.org/10.5194/esd-7-517-2016

© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 7, issue 2

Research article

|

20 Jun 2016

Research article |

| 20 Jun 2016

A wavelet-based approach to detect climate change on the coherent and turbulent component of the atmospheric circulation

Davide Faranda and Dimitri Defrance

Viewed

Total article views: 2,937 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	Supplement	BibTeX	EndNote
1,795	987	155	2,937	286	178	213

HTML: 1,795
PDF: 987
XML: 155
Total: 2,937
Supplement: 286
BibTeX: 178
EndNote: 213

Views and downloads (calculated since 17 Feb 2016)

Month	HTML	PDF	XML	Total
Feb 2016	91	23	2	116
Mar 2016	81	19	1	101
Apr 2016	39	5	2	46
May 2016	21	6	0	27
Jun 2016	100	19	0	119
Jul 2016	84	9	2	95
Aug 2016	56	1	0	57
Sep 2016	7	3	0	10
Oct 2016	10	2	0	12
Nov 2016	6	4	1	11
Dec 2016	3	1	1	5
Jan 2017	14	8	1	23
Feb 2017	11	6	2	19
Mar 2017	19	8	2	29
Apr 2017	21	13	1	35
May 2017	19	7	2	28
Jun 2017	20	6	0	26
Jul 2017	13	6	0	19
Aug 2017	4	3	0	7
Sep 2017	9	5	0	14
Oct 2017	8	2	0	10
Nov 2017	9	6	0	15
Dec 2017	9	7	1	17
Jan 2018	8	6	1	15
Feb 2018	11	6	1	18
Mar 2018	14	8	1	23
Apr 2018	9	8	1	18
May 2018	11	7	0	18
Jun 2018	12	9	0	21
Jul 2018	11	8	0	19
Aug 2018	10	10	0	20
Sep 2018	6	7	0	13
Oct 2018	4	5	0	9
Nov 2018	10	5	1	16
Dec 2018	5	2	0	7
Jan 2019	3	2	0	5
Feb 2019	2	0	2
Mar 2019	4	9	0	13
Apr 2019	4	2	0	6
May 2019	4	7	0	11
Jun 2019	3	6	0	9
Jul 2019	4	5	0	9
Aug 2019	9	7	1	17
Sep 2019	6	7	0	13
Oct 2019	7	3	1	11
Nov 2019	7	8	3	18
Dec 2019	5	6	1	12
Jan 2020	7	3	1	11
Feb 2020	6	6	0	12
Mar 2020	7	9	0	16
Apr 2020	2	5	1	8
May 2020	5	11	0	16
Jun 2020	34	30	2	66
Jul 2020	33	50	21	104
Aug 2020	7	7	2	16
Sep 2020	10	8	0	18
Oct 2020	7	11	2	20
Nov 2020	9	7	0	16
Dec 2020	16	7	1	24
Jan 2021	15	6	0	21
Feb 2021	4	8	0	12
Mar 2021	4	6	0	10
Apr 2021	6	4	0	10
May 2021	7	8	1	16
Jun 2021	4	7	2	13
Jul 2021	2	6	1	9
Aug 2021	10	13	0	23
Sep 2021	11	9	0	20
Oct 2021	9	34	0	43
Nov 2021	6	25	0	31
Dec 2021	13	13	0	26
Jan 2022	4	7	0	11
Feb 2022	11	6	3	20
Mar 2022	6	7	0	13
Apr 2022	6	3	1	10
May 2022	4	5	0	9
Jun 2022	4	0	4
Jul 2022	3	6	1	10
Aug 2022	7	2	0	9
Sep 2022	6	2	0	8
Oct 2022	8	6	1	15
Nov 2022	11	5	1	17
Dec 2022	11	4	1	16
Jan 2023	8	10	1	19
Feb 2023	8	8	0	16
Mar 2023	10	5	0	15
Apr 2023	5	4	0	9
May 2023	20	7	0	27
Jun 2023	30	3	1	34
Jul 2023	7	3	0	10
Aug 2023	8	2	1	11
Sep 2023	3	4	1	8
Oct 2023	8	3	0	11
Nov 2023	0
Dec 2023	10	2	0	12
Jan 2024	6	2	0	8
Feb 2024	7	5	1	13
Mar 2024	6	4	1	11
Apr 2024	21	6	10	37
May 2024	10	4	1	15
Jun 2024	20	9	2	31
Jul 2024	21	16	6	43
Aug 2024	29	3	4	36
Sep 2024	5	9	1	15
Oct 2024	12	6	2	20
Nov 2024	7	5	1	13
Dec 2024	4	2	0	6
Jan 2025	12	4	2	18
Feb 2025	21	8	2	31
Mar 2025	9	4	1	14
Apr 2025	22	7	1	30
May 2025	11	6	1	18
Jun 2025	34	10	2	46
Jul 2025	29	18	3	50
Aug 2025	16	15	1	32
Sep 2025	42	13	1	56
Oct 2025	23	18	2	43
Nov 2025	21	24	3	48
Dec 2025	18	17	3	38
Jan 2026	46	9	13	68
Feb 2026	11	6	6	23
Mar 2026	16	9	3	28
Apr 2026	40	23	2	65
May 2026	18	13	2	33
Jun 2026	3	3	3	9

Cumulative views and downloads (calculated since 17 Feb 2016)

Month	HTML	PDF	XML	Total
Feb 2016	91	23	2	116
Mar 2016	81	19	1	101
Apr 2016	39	5	2	46
May 2016	21	6	0	27
Jun 2016	100	19	0	119
Jul 2016	84	9	2	95
Aug 2016	56	1	0	57
Sep 2016	7	3	0	10
Oct 2016	10	2	0	12
Nov 2016	6	4	1	11
Dec 2016	3	1	1	5
Jan 2017	14	8	1	23
Feb 2017	11	6	2	19
Mar 2017	19	8	2	29
Apr 2017	21	13	1	35
May 2017	19	7	2	28
Jun 2017	20	6	0	26
Jul 2017	13	6	0	19
Aug 2017	4	3	0	7
Sep 2017	9	5	0	14
Oct 2017	8	2	0	10
Nov 2017	9	6	0	15
Dec 2017	9	7	1	17
Jan 2018	8	6	1	15
Feb 2018	11	6	1	18
Mar 2018	14	8	1	23
Apr 2018	9	8	1	18
May 2018	11	7	0	18
Jun 2018	12	9	0	21
Jul 2018	11	8	0	19
Aug 2018	10	10	0	20
Sep 2018	6	7	0	13
Oct 2018	4	5	0	9
Nov 2018	10	5	1	16
Dec 2018	5	2	0	7
Jan 2019	3	2	0	5
Feb 2019	2	0	2
Mar 2019	4	9	0	13
Apr 2019	4	2	0	6
May 2019	4	7	0	11
Jun 2019	3	6	0	9
Jul 2019	4	5	0	9
Aug 2019	9	7	1	17
Sep 2019	6	7	0	13
Oct 2019	7	3	1	11
Nov 2019	7	8	3	18
Dec 2019	5	6	1	12
Jan 2020	7	3	1	11
Feb 2020	6	6	0	12
Mar 2020	7	9	0	16
Apr 2020	2	5	1	8
May 2020	5	11	0	16
Jun 2020	34	30	2	66
Jul 2020	33	50	21	104
Aug 2020	7	7	2	16
Sep 2020	10	8	0	18
Oct 2020	7	11	2	20
Nov 2020	9	7	0	16
Dec 2020	16	7	1	24
Jan 2021	15	6	0	21
Feb 2021	4	8	0	12
Mar 2021	4	6	0	10
Apr 2021	6	4	0	10
May 2021	7	8	1	16
Jun 2021	4	7	2	13
Jul 2021	2	6	1	9
Aug 2021	10	13	0	23
Sep 2021	11	9	0	20
Oct 2021	9	34	0	43
Nov 2021	6	25	0	31
Dec 2021	13	13	0	26
Jan 2022	4	7	0	11
Feb 2022	11	6	3	20
Mar 2022	6	7	0	13
Apr 2022	6	3	1	10
May 2022	4	5	0	9
Jun 2022	4	0	4
Jul 2022	3	6	1	10
Aug 2022	7	2	0	9
Sep 2022	6	2	0	8
Oct 2022	8	6	1	15
Nov 2022	11	5	1	17
Dec 2022	11	4	1	16
Jan 2023	8	10	1	19
Feb 2023	8	8	0	16
Mar 2023	10	5	0	15
Apr 2023	5	4	0	9
May 2023	20	7	0	27
Jun 2023	30	3	1	34
Jul 2023	7	3	0	10
Aug 2023	8	2	1	11
Sep 2023	3	4	1	8
Oct 2023	8	3	0	11
Nov 2023	0
Dec 2023	10	2	0	12
Jan 2024	6	2	0	8
Feb 2024	7	5	1	13
Mar 2024	6	4	1	11
Apr 2024	21	6	10	37
May 2024	10	4	1	15
Jun 2024	20	9	2	31
Jul 2024	21	16	6	43
Aug 2024	29	3	4	36
Sep 2024	5	9	1	15
Oct 2024	12	6	2	20
Nov 2024	7	5	1	13
Dec 2024	4	2	0	6
Jan 2025	12	4	2	18
Feb 2025	21	8	2	31
Mar 2025	9	4	1	14
Apr 2025	22	7	1	30
May 2025	11	6	1	18
Jun 2025	34	10	2	46
Jul 2025	29	18	3	50
Aug 2025	16	15	1	32
Sep 2025	42	13	1	56
Oct 2025	23	18	2	43
Nov 2025	21	24	3	48
Dec 2025	18	17	3	38
Jan 2026	46	9	13	68
Feb 2026	11	6	6	23
Mar 2026	16	9	3	28
Apr 2026	40	23	2	65
May 2026	18	13	2	33
Jun 2026	3	3	3	9

Cited

Saved (final revised paper)

Latest update: 09 Jun 2026

Download

Article (2152 KB)
Full-text XML

Short summary

We introduce a general technique to detect a climate change signal in the coherent and turbulent components of the atmospheric circulation. Our analysis suggests that the coherent components (atmospheric waves, long-term oscillations) will experience the greatest changes in future climate, proportionally to the greenhouse gas emission scenario considered.

A wavelet-based approach to detect climate change on the coherent and turbulent component of the atmospheric circulation

Viewed

Cited

5 citations as recorded by crossref.

5 citations as recorded by crossref.

Saved (final revised paper)