An inter-hemispheric seasonal comparison of polar amplification using radiative forcing of a quadrupling CO<sub>2</sub> experiment

Casagrande, Fernanda; Buss de Souza, Ronald; Nobre, Paulo; Lanfer Marquez, Andre

doi:https://doi.org/10.5194/angeo-38-1123-2020

Articles | Volume 38, issue 5

https://doi.org/10.5194/angeo-38-1123-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

Special issue:

7th Brazilian meeting on space geophysics and aeronomy

https://doi.org/10.5194/angeo-38-1123-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 38, issue 5

Regular paper

|

29 Oct 2020

Regular paper |

| 29 Oct 2020

An inter-hemispheric seasonal comparison of polar amplification using radiative forcing of a quadrupling CO₂ experiment

Fernanda Casagrande, Ronald Buss de Souza, Paulo Nobre, and Andre Lanfer Marquez

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Total article views: 2,746 (including HTML, PDF, and XML)

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1,859	794	93	2,746	124	172

HTML: 1,859
PDF: 794
XML: 93
Total: 2,746
BibTeX: 124
EndNote: 172

Views and downloads (calculated since 21 Aug 2019)

Month	HTML	PDF	XML	Total
Aug 2019	82	19	3	104
Sep 2019	32	8	1	41
Oct 2019	53	18	1	72
Nov 2019	16	7	2	25
Dec 2019	14	9	1	24
Jan 2020	23	8	0	31
Feb 2020	39	4	2	45
Mar 2020	4	6	1	11
Apr 2020	10	8	0	18
May 2020	7	5	1	13
Jun 2020	13	5	0	18
Jul 2020	20	12	8	40
Aug 2020	7	9	2	18
Sep 2020	6	6	0	12
Oct 2020	45	15	2	62
Nov 2020	159	34	0	193
Dec 2020	86	31	1	118
Jan 2021	33	15	0	48
Feb 2021	20	13	0	33
Mar 2021	23	31	0	54
Apr 2021	20	29	0	49
May 2021	15	22	1	38
Jun 2021	14	15	0	29
Jul 2021	11	9	0	20
Aug 2021	12	11	1	24
Sep 2021	19	16	0	35
Oct 2021	11	30	1	42
Nov 2021	18	20	1	39
Dec 2021	19	18	0	37
Jan 2022	9	9	0	18
Feb 2022	10	2	1	13
Mar 2022	19	11	0	30
Apr 2022	8	4	1	13
May 2022	8	7	0	15
Jun 2022	12	6	1	19
Jul 2022	15	15	2	32
Aug 2022	130	5	0	135
Sep 2022	11	10	1	22
Oct 2022	11	3	0	14
Nov 2022	18	15	0	33
Dec 2022	14	3	0	17
Jan 2023	15	10	2	27
Feb 2023	18	6	0	24
Mar 2023	14	6	0	20
Apr 2023	13	5	3	21
May 2023	19	9	3	31
Jun 2023	11	3	0	14
Jul 2023	11	7	2	20
Aug 2023	10	7	1	18
Sep 2023	9	2	2	13
Oct 2023	19	5	0	24
Nov 2023	8	0	8
Dec 2023	14	5	2	21
Jan 2024	8	4	0	12
Feb 2024	12	8	0	20
Mar 2024	10	12	2	24
Apr 2024	11	6	1	18
May 2024	19	10	7	36
Jun 2024	29	7	3	39
Jul 2024	20	7	3	30
Aug 2024	24	6	5	35
Sep 2024	13	6	0	19
Oct 2024	28	6	2	36
Nov 2024	12	4	1	17
Dec 2024	11	3	1	15
Jan 2025	18	9	0	27
Feb 2025	27	9	0	36
Mar 2025	21	5	2	28
Apr 2025	21	15	0	36
May 2025	26	2	1	29
Jun 2025	41	15	3	59
Jul 2025	34	10	3	47
Aug 2025	87	23	2	112
Sep 2025	99	24	6	129
Oct 2025	31	15	1	47

Cumulative views and downloads (calculated since 21 Aug 2019)

Month	HTML	PDF	XML	Total
Aug 2019	82	19	3	104
Sep 2019	32	8	1	41
Oct 2019	53	18	1	72
Nov 2019	16	7	2	25
Dec 2019	14	9	1	24
Jan 2020	23	8	0	31
Feb 2020	39	4	2	45
Mar 2020	4	6	1	11
Apr 2020	10	8	0	18
May 2020	7	5	1	13
Jun 2020	13	5	0	18
Jul 2020	20	12	8	40
Aug 2020	7	9	2	18
Sep 2020	6	6	0	12
Oct 2020	45	15	2	62
Nov 2020	159	34	0	193
Dec 2020	86	31	1	118
Jan 2021	33	15	0	48
Feb 2021	20	13	0	33
Mar 2021	23	31	0	54
Apr 2021	20	29	0	49
May 2021	15	22	1	38
Jun 2021	14	15	0	29
Jul 2021	11	9	0	20
Aug 2021	12	11	1	24
Sep 2021	19	16	0	35
Oct 2021	11	30	1	42
Nov 2021	18	20	1	39
Dec 2021	19	18	0	37
Jan 2022	9	9	0	18
Feb 2022	10	2	1	13
Mar 2022	19	11	0	30
Apr 2022	8	4	1	13
May 2022	8	7	0	15
Jun 2022	12	6	1	19
Jul 2022	15	15	2	32
Aug 2022	130	5	0	135
Sep 2022	11	10	1	22
Oct 2022	11	3	0	14
Nov 2022	18	15	0	33
Dec 2022	14	3	0	17
Jan 2023	15	10	2	27
Feb 2023	18	6	0	24
Mar 2023	14	6	0	20
Apr 2023	13	5	3	21
May 2023	19	9	3	31
Jun 2023	11	3	0	14
Jul 2023	11	7	2	20
Aug 2023	10	7	1	18
Sep 2023	9	2	2	13
Oct 2023	19	5	0	24
Nov 2023	8	0	8
Dec 2023	14	5	2	21
Jan 2024	8	4	0	12
Feb 2024	12	8	0	20
Mar 2024	10	12	2	24
Apr 2024	11	6	1	18
May 2024	19	10	7	36
Jun 2024	29	7	3	39
Jul 2024	20	7	3	30
Aug 2024	24	6	5	35
Sep 2024	13	6	0	19
Oct 2024	28	6	2	36
Nov 2024	12	4	1	17
Dec 2024	11	3	1	15
Jan 2025	18	9	0	27
Feb 2025	27	9	0	36
Mar 2025	21	5	2	28
Apr 2025	21	15	0	36
May 2025	26	2	1	29
Jun 2025	41	15	3	59
Jul 2025	34	10	3	47
Aug 2025	87	23	2	112
Sep 2025	99	24	6	129
Oct 2025	31	15	1	47

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Short summary

Polar amplification is possibly one of the most important sensitive indicators of climate change. Our results showed that the polar regions are much more vulnerable to large warming due to an increase in atmospheric CO₂ forcing than the rest of the world, particularly during the cold season. Despite the asymmetry in warming between the Arctic and Antarctic, both poles show systematic polar amplification in all climate models.

An inter-hemispheric seasonal comparison of polar amplification using radiative forcing of a quadrupling CO₂ experiment

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An inter-hemispheric seasonal comparison of polar amplification using radiative forcing of a quadrupling CO2 experiment

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8 citations as recorded by crossref.

Discussed (preprint)

An inter-hemispheric seasonal comparison of polar amplification using radiative forcing of a quadrupling CO₂ experiment