Biomass burning and urban emission impacts in the Andes Cordillera region based on in situ measurements from the Chacaltaya observatory, Bolivia (5240&thinsp;m&thinsp;a.s.l.)

Chauvigné, Aurélien; Aliaga, Diego; Sellegri, Karine; Montoux, Nadège; Krejci, Radovan; Močnik, Griša; Moreno, Isabel; Müller, Thomas; Pandolfi, Marco; Velarde, Fernando; Weinhold, Kay; Ginot, Patrick; Wiedensohler, Alfred; Andrade, Marcos; Laj, Paolo

doi:10.5194/acp-19-14805-2019

Articles | Volume 19, issue 23

https://doi.org/10.5194/acp-19-14805-2019

© Author(s) 2019. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/acp-19-14805-2019

© Author(s) 2019. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 19, issue 23

Research article

|

10 Dec 2019

Research article |

| 10 Dec 2019

Biomass burning and urban emission impacts in the Andes Cordillera region based on in situ measurements from the Chacaltaya observatory, Bolivia (5240 m a.s.l.)

Aurélien Chauvigné, Diego Aliaga, Karine Sellegri, Nadège Montoux, Radovan Krejci, Griša Močnik, Isabel Moreno, Thomas Müller, Marco Pandolfi, Fernando Velarde, Kay Weinhold, Patrick Ginot, Alfred Wiedensohler, Marcos Andrade, and Paolo Laj

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Jul 2019	179	57	2	238
Aug 2019	54	10	1	65
Sep 2019	29	9	0	38
Oct 2019	23	18	1	42
Nov 2019	9	10	1	20
Dec 2019	118	43	2	163
Jan 2020	59	29	0	88
Feb 2020	32	13	3	48
Mar 2020	16	12	0	28
Apr 2020	27	8	0	35
May 2020	24	8	0	32
Jun 2020	25	21	2	48
Jul 2020	23	19	4	46
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Sep 2020	13	16	0	29
Oct 2020	8	15	1	24
Nov 2020	13	10	0	23
Dec 2020	12	8	0	20
Jan 2021	17	12	0	29
Feb 2021	12	11	0	23
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Apr 2021	20	9	0	29
May 2021	13	28	2	43
Jun 2021	14	8	0	22
Jul 2021	10	13	1	24
Aug 2021	15	10	0	25
Sep 2021	18	7	0	25
Oct 2021	13	38	1	52
Nov 2021	30	30	1	61
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Jan 2022	16	4	1	21
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Jan 2024	21	8	0	29
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Oct 2024	21	13	1	35
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Dec 2024	9	12	3	24
Jan 2025	28	9	0	37
Feb 2025	32	11	0	43
Mar 2025	28	11	3	42
Apr 2025	25	11	0	36
May 2025	27	3	0	30
Jun 2025	69	12	6	87
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Cumulative views and downloads (calculated since 15 Jul 2019)

Month	HTML	PDF	XML	Total
Jul 2019	179	57	2	238
Aug 2019	54	10	1	65
Sep 2019	29	9	0	38
Oct 2019	23	18	1	42
Nov 2019	9	10	1	20
Dec 2019	118	43	2	163
Jan 2020	59	29	0	88
Feb 2020	32	13	3	48
Mar 2020	16	12	0	28
Apr 2020	27	8	0	35
May 2020	24	8	0	32
Jun 2020	25	21	2	48
Jul 2020	23	19	4	46
Aug 2020	23	15	1	39
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Oct 2020	8	15	1	24
Nov 2020	13	10	0	23
Dec 2020	12	8	0	20
Jan 2021	17	12	0	29
Feb 2021	12	11	0	23
Mar 2021	4	9	2	15
Apr 2021	20	9	0	29
May 2021	13	28	2	43
Jun 2021	14	8	0	22
Jul 2021	10	13	1	24
Aug 2021	15	10	0	25
Sep 2021	18	7	0	25
Oct 2021	13	38	1	52
Nov 2021	30	30	1	61
Dec 2021	16	6	1	23
Jan 2022	16	4	1	21
Feb 2022	22	11	4	37
Mar 2022	18	9	0	27
Apr 2022	14	5	2	21
May 2022	21	9	0	30
Jun 2022	20	7	0	27
Jul 2022	17	4	0	21
Aug 2022	60	9	0	69
Sep 2022	9	9	0	18
Oct 2022	33	1	2	36
Nov 2022	36	15	1	52
Dec 2022	15	5	0	20
Jan 2023	39	8	1	48
Feb 2023	24	8	2	34
Mar 2023	25	12	0	37
Apr 2023	9	4	0	13
May 2023	6	15	1	22
Jun 2023	9	6	1	16
Jul 2023	14	3	1	18
Aug 2023	8	10	2	20
Sep 2023	16	11	0	27
Oct 2023	11	13	2	26
Nov 2023	10	5	1	16
Dec 2023	16	10	3	29
Jan 2024	21	8	0	29
Feb 2024	9	10	0	19
Mar 2024	9	17	1	27
Apr 2024	26	32	5	63
May 2024	26	13	6	45
Jun 2024	51	9	1	61
Jul 2024	23	7	3	33
Aug 2024	35	10	2	47
Sep 2024	22	3	0	25
Oct 2024	21	13	1	35
Nov 2024	17	10	1	28
Dec 2024	9	12	3	24
Jan 2025	28	9	0	37
Feb 2025	32	11	0	43
Mar 2025	28	11	3	42
Apr 2025	25	11	0	36
May 2025	27	3	0	30
Jun 2025	69	12	6	87
Jul 2025	40	11	1	52
Aug 2025	46	18	2	66
Sep 2025	118	14	5	137
Oct 2025	34	24	0	58
Nov 2025	24	14	2	40

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Short summary

The study presents for the first time the analysis of aerosol optical properties at the unique high-altitude station of Chacaltaya, Bolivia. Ideally located, the station allows us to better understand influences of urban areas and the Amazon Forest on tropospheric properties. An emerging method is applied to characterize aerosol origins and permits us to illustrate evidence of natural and anthropogenic influences.


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