Future summer warming pattern under climate  change is affected by lapse-rate changes

Brogli, Roman; Lund Sørland, Silje; Kröner, Nico; Schär, Christoph

doi:10.5194/wcd-2-1093-2021

Articles | Volume 2, issue 4

https://doi.org/10.5194/wcd-2-1093-2021

© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/wcd-2-1093-2021

© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 2, issue 4

Research article

| Highlight paper

|

23 Nov 2021

Research article | Highlight paper |

| 23 Nov 2021

Future summer warming pattern under climate change is affected by lapse-rate changes

Roman Brogli, Silje Lund Sørland, Nico Kröner, and Christoph Schär

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Month	HTML	PDF	XML	Total
Jun 2021	132	54	5	191
Jul 2021	63	25	3	91
Aug 2021	51	28	6	85
Sep 2021	32	24	4	60
Oct 2021	22	62	2	86
Nov 2021	197	75	5	277
Dec 2021	102	31	1	134
Jan 2022	103	44	3	150
Feb 2022	104	25	1	130
Mar 2022	86	35	2	123
Apr 2022	69	13	1	83
May 2022	79	14	0	93
Jun 2022	56	5	0	61
Jul 2022	60	5	0	65
Aug 2022	143	13	0	156
Sep 2022	58	13	1	72
Oct 2022	72	9	2	83
Nov 2022	59	12	0	71
Dec 2022	62	9	0	71
Jan 2023	44	22	0	66
Feb 2023	21	32	0	53
Mar 2023	36	44	0	80
Apr 2023	21	11	0	32
May 2023	25	10	0	35
Jun 2023	41	16	1	58
Jul 2023	35	15	0	50
Aug 2023	47	17	1	65
Sep 2023	35	17	0	52
Oct 2023	88	14	1	103
Nov 2023	23	6	0	29
Dec 2023	41	21	0	62
Jan 2024	44	8	0	52
Feb 2024	39	20	2	61
Mar 2024	48	25	1	74
Apr 2024	117	10	13	140
May 2024	49	22	0	71
Jun 2024	106	18	3	127
Jul 2024	57	14	3	74
Aug 2024	62	22	4	88
Sep 2024	89	12	1	102
Oct 2024	65	14	2	81
Nov 2024	35	11	2	48
Dec 2024	27	6	3	36
Jan 2025	41	13	2	56
Feb 2025	28	8	1	37
Mar 2025	50	10	2	62
Apr 2025	45	21	2	68
May 2025	60	12	1	73
Jun 2025	78	54	1	133
Jul 2025	66	21	1	88
Aug 2025	107	30	3	140
Sep 2025	142	21	0	163
Oct 2025	72	30	2	104
Nov 2025	97	28	2	127
Dec 2025	146	47	1	194
Jan 2026	137	72	8	217
Feb 2026	86	32	4	122
Mar 2026	104	95	3	202
Apr 2026	137	88	7	232
May 2026	196	49	0	245
Jun 2026	23	15	3	41

Cumulative views and downloads (calculated since 14 Jun 2021)

Month	HTML	PDF	XML	Total
Jun 2021	132	54	5	191
Jul 2021	63	25	3	91
Aug 2021	51	28	6	85
Sep 2021	32	24	4	60
Oct 2021	22	62	2	86
Nov 2021	197	75	5	277
Dec 2021	102	31	1	134
Jan 2022	103	44	3	150
Feb 2022	104	25	1	130
Mar 2022	86	35	2	123
Apr 2022	69	13	1	83
May 2022	79	14	0	93
Jun 2022	56	5	0	61
Jul 2022	60	5	0	65
Aug 2022	143	13	0	156
Sep 2022	58	13	1	72
Oct 2022	72	9	2	83
Nov 2022	59	12	0	71
Dec 2022	62	9	0	71
Jan 2023	44	22	0	66
Feb 2023	21	32	0	53
Mar 2023	36	44	0	80
Apr 2023	21	11	0	32
May 2023	25	10	0	35
Jun 2023	41	16	1	58
Jul 2023	35	15	0	50
Aug 2023	47	17	1	65
Sep 2023	35	17	0	52
Oct 2023	88	14	1	103
Nov 2023	23	6	0	29
Dec 2023	41	21	0	62
Jan 2024	44	8	0	52
Feb 2024	39	20	2	61
Mar 2024	48	25	1	74
Apr 2024	117	10	13	140
May 2024	49	22	0	71
Jun 2024	106	18	3	127
Jul 2024	57	14	3	74
Aug 2024	62	22	4	88
Sep 2024	89	12	1	102
Oct 2024	65	14	2	81
Nov 2024	35	11	2	48
Dec 2024	27	6	3	36
Jan 2025	41	13	2	56
Feb 2025	28	8	1	37
Mar 2025	50	10	2	62
Apr 2025	45	21	2	68
May 2025	60	12	1	73
Jun 2025	78	54	1	133
Jul 2025	66	21	1	88
Aug 2025	107	30	3	140
Sep 2025	142	21	0	163
Oct 2025	72	30	2	104
Nov 2025	97	28	2	127
Dec 2025	146	47	1	194
Jan 2026	137	72	8	217
Feb 2026	86	32	4	122
Mar 2026	104	95	3	202
Apr 2026	137	88	7	232
May 2026	196	49	0	245
Jun 2026	23	15	3	41

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Short summary

In a warmer future climate, climate simulations predict that some land areas will experience excessive warming during summer. We show that the excessive summer warming is related to the vertical distribution of warming within the atmosphere. In regions characterized by excessive warming, much of the warming occurs close to the surface. In other regions, most of the warming is redistributed to higher levels in the atmosphere, which weakens the surface warming.