Projections of Selenga river runoff in the XXI century and uncertainty estimates

Millionshchikova, Tatiana

doi:10.5194/piahs-381-107-2019

Articles | Volume 381

https://doi.org/10.5194/piahs-381-107-2019

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

https://doi.org/10.5194/piahs-381-107-2019

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

Articles | Volume 381

Post-conference publication

|

01 Aug 2019

Post-conference publication |

| 01 Aug 2019

Projections of Selenga river runoff in the XXI century and uncertainty estimates

Tatiana Millionshchikova

Viewed

Total article views: 2,037 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	BibTeX	EndNote
1,578	389	70	2,037	101	138

HTML: 1,578
PDF: 389
XML: 70
Total: 2,037
BibTeX: 101
EndNote: 138

Views and downloads (calculated since 01 Aug 2019)

Month	HTML	PDF	XML	Total
Aug 2019	77	24	0	101
Sep 2019	150	8	0	158
Oct 2019	143	9	1	153
Nov 2019	190	7	1	198
Dec 2019	118	2	1	121
Jan 2020	58	4	0	62
Feb 2020	20	7	1	28
Mar 2020	5	9	0	14
Apr 2020	16	4	1	21
May 2020	22	5	0	27
Jun 2020	57	11	1	69
Jul 2020	114	19	21	154
Aug 2020	8	2	1	11
Sep 2020	7	3	0	10
Oct 2020	9	5	0	14
Nov 2020	3	5	0	8
Dec 2020	12	6	0	18
Jan 2021	8	4	0	12
Feb 2021	2	2	0	4
Mar 2021	2	4	0	6
Apr 2021	6	2	0	8
May 2021	3	2	0	5
Jun 2021	11	5	0	16
Jul 2021	4	4	0	8
Aug 2021	3	5	0	8
Sep 2021	2	3	0	5
Oct 2021	5	18	0	23
Nov 2021	7	13	0	20
Dec 2021	12	2	0	14
Jan 2022	11	10	0	21
Feb 2022	5	3	0	8
Mar 2022	5	3	1	9
Apr 2022	6	3	1	10
May 2022	6	4	0	10
Jun 2022	4	3	0	7
Jul 2022	21	0	21
Aug 2022	21	3	1	25
Sep 2022	6	2	0	8
Oct 2022	5	1	1	7
Nov 2022	5	4	0	9
Dec 2022	7	4	0	11
Jan 2023	4	4	0	8
Feb 2023	7	4	0	11
Mar 2023	10	1	1	12
Apr 2023	2	2	0	4
May 2023	3	3	0	6
Jun 2023	4	5	1	10
Jul 2023	5	2	0	7
Aug 2023	2	3	0	5
Sep 2023	3	3	1	7
Oct 2023	2	2	1	5
Nov 2023	1	0	1
Dec 2023	9	3	3	15
Jan 2024	2	1	0	3
Feb 2024	3	1	0	4
Mar 2024	10	10	1	21
Apr 2024	13	4	4	21
May 2024	8	4	1	13
Jun 2024	28	2	3	33
Jul 2024	22	5	0	27
Aug 2024	31	4	5	40
Sep 2024	12	2	1	15
Oct 2024	4	0	4
Nov 2024	10	2	2	14
Dec 2024	1	1	2
Jan 2025	9	4	2	15
Feb 2025	12	2	1	15
Mar 2025	5	8	0	13
Apr 2025	7	3	1	11
May 2025	4	1	1	6
Jun 2025	17	7	1	25
Jul 2025	14	13	0	27
Aug 2025	27	7	1	35
Sep 2025	57	14	2	73
Oct 2025	23	17	2	42
Nov 2025	31	12	2	45

Cumulative views and downloads (calculated since 01 Aug 2019)

Month	HTML	PDF	XML	Total
Aug 2019	77	24	0	101
Sep 2019	150	8	0	158
Oct 2019	143	9	1	153
Nov 2019	190	7	1	198
Dec 2019	118	2	1	121
Jan 2020	58	4	0	62
Feb 2020	20	7	1	28
Mar 2020	5	9	0	14
Apr 2020	16	4	1	21
May 2020	22	5	0	27
Jun 2020	57	11	1	69
Jul 2020	114	19	21	154
Aug 2020	8	2	1	11
Sep 2020	7	3	0	10
Oct 2020	9	5	0	14
Nov 2020	3	5	0	8
Dec 2020	12	6	0	18
Jan 2021	8	4	0	12
Feb 2021	2	2	0	4
Mar 2021	2	4	0	6
Apr 2021	6	2	0	8
May 2021	3	2	0	5
Jun 2021	11	5	0	16
Jul 2021	4	4	0	8
Aug 2021	3	5	0	8
Sep 2021	2	3	0	5
Oct 2021	5	18	0	23
Nov 2021	7	13	0	20
Dec 2021	12	2	0	14
Jan 2022	11	10	0	21
Feb 2022	5	3	0	8
Mar 2022	5	3	1	9
Apr 2022	6	3	1	10
May 2022	6	4	0	10
Jun 2022	4	3	0	7
Jul 2022	21	0	21
Aug 2022	21	3	1	25
Sep 2022	6	2	0	8
Oct 2022	5	1	1	7
Nov 2022	5	4	0	9
Dec 2022	7	4	0	11
Jan 2023	4	4	0	8
Feb 2023	7	4	0	11
Mar 2023	10	1	1	12
Apr 2023	2	2	0	4
May 2023	3	3	0	6
Jun 2023	4	5	1	10
Jul 2023	5	2	0	7
Aug 2023	2	3	0	5
Sep 2023	3	3	1	7
Oct 2023	2	2	1	5
Nov 2023	1	0	1
Dec 2023	9	3	3	15
Jan 2024	2	1	0	3
Feb 2024	3	1	0	4
Mar 2024	10	10	1	21
Apr 2024	13	4	4	21
May 2024	8	4	1	13
Jun 2024	28	2	3	33
Jul 2024	22	5	0	27
Aug 2024	31	4	5	40
Sep 2024	12	2	1	15
Oct 2024	4	0	4
Nov 2024	10	2	2	14
Dec 2024	1	1	2
Jan 2025	9	4	2	15
Feb 2025	12	2	1	15
Mar 2025	5	8	0	13
Apr 2025	7	3	1	11
May 2025	4	1	1	6
Jun 2025	17	7	1	25
Jul 2025	14	13	0	27
Aug 2025	27	7	1	35
Sep 2025	57	14	2	73
Oct 2025	23	17	2	42
Nov 2025	31	12	2	45

Viewed (geographical distribution)

Total article views: 1,581 (including HTML, PDF, and XML) Thereof 1,569 with geography defined and 12 with unknown origin.

Country	#	Views	%

1

1

Latest update: 27 Nov 2025

Short summary

The Selenga River, which takes its origin in Mongolia, contributes nearly 50% of the total inflow into Lake Baikal. Since 1996, a longest low-flow period has been observed. This paper explores the opportunities of spatially distributed process-based modeling for the assessment of possible runoff changes under climate projections in the XXI century using an ensemble of global climate models as inputs.


Total:	0
HTML:	0
PDF:	0
XML:	0