Historical and future trends in wetting and drying in 291 catchments across China

Chen, Zhongwang; Lei, Huimin; Yang, Hanbo; Yang, Dawen; Cao, Yongqiang

doi:10.5194/hess-21-2233-2017

Articles | Volume 21, issue 4

https://doi.org/10.5194/hess-21-2233-2017

© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.

https://doi.org/10.5194/hess-21-2233-2017

© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 21, issue 4

Research article

|

26 Apr 2017

Research article |

| 26 Apr 2017

Historical and future trends in wetting and drying in 291 catchments across China

Zhongwang Chen, Huimin Lei, Hanbo Yang, Dawen Yang, and Yongqiang Cao

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Total article views: 3,605 (including HTML, PDF, and XML)

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2,275	1,199	131	3,605	512	116	167

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XML: 131
Total: 3,605
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BibTeX: 116
EndNote: 167

Views and downloads (calculated since 25 Nov 2016)

Month	HTML	PDF	XML	Total
Nov 2016	52	17	3	72
Dec 2016	43	7	1	51
Jan 2017	35	1	0	36
Feb 2017	17	3	0	20
Mar 2017	17	8	3	28
Apr 2017	203	50	5	258
May 2017	470	85	12	567
Jun 2017	46	23	3	72
Jul 2017	25	12	0	37
Aug 2017	20	20	2	42
Sep 2017	28	21	1	50
Oct 2017	11	10	0	21
Nov 2017	10	8	0	18
Dec 2017	9	10	0	19
Jan 2018	10	8	0	18
Feb 2018	10	4	0	14
Mar 2018	14	12	0	26
Apr 2018	12	9	0	21
May 2018	15	12	0	27
Jun 2018	7	8	0	15
Jul 2018	12	6	0	18
Aug 2018	15	8	0	23
Sep 2018	17	15	0	32
Oct 2018	12	11	0	23
Nov 2018	15	9	0	24
Dec 2018	12	8	1	21
Jan 2019	11	8	0	19
Feb 2019	8	6	3	17
Mar 2019	4	8	0	12
Apr 2019	13	6	0	19
May 2019	13	7	0	20
Jun 2019	5	8	1	14
Jul 2019	14	11	0	25
Aug 2019	5	2	0	7
Sep 2019	6	5	0	11
Oct 2019	11	8	1	20
Nov 2019	11	10	0	21
Dec 2019	6	3	1	10
Jan 2020	11	11	3	25
Feb 2020	8	6	0	14
Mar 2020	8	5	0	13
Apr 2020	9	10	0	19
May 2020	4	2	0	6
Jun 2020	25	16	1	42
Jul 2020	22	19	4	45
Aug 2020	5	11	4	20
Sep 2020	15	9	0	24
Oct 2020	6	6	2	14
Nov 2020	11	11	0	22
Dec 2020	9	11	0	20
Jan 2021	19	12	0	31
Feb 2021	13	2	0	15
Mar 2021	8	9	0	17
Apr 2021	10	9	0	19
May 2021	11	9	1	21
Jun 2021	9	9	0	18
Jul 2021	12	10	0	22
Aug 2021	9	12	0	21
Sep 2021	12	14	0	26
Oct 2021	11	37	0	48
Nov 2021	10	29	1	40
Dec 2021	18	13	1	32
Jan 2022	9	9	0	18
Feb 2022	13	4	3	20
Mar 2022	8	6	1	15
Apr 2022	5	5	0	10
May 2022	6	8	1	15
Jun 2022	10	5	1	16
Jul 2022	4	3	0	7
Aug 2022	16	5	0	21
Sep 2022	13	11	1	25
Oct 2022	11	4	2	17
Nov 2022	10	3	0	13
Dec 2022	15	8	0	23
Jan 2023	11	14	1	26
Feb 2023	16	9	1	26
Mar 2023	30	6	0	36
Apr 2023	26	6	1	33
May 2023	18	9	1	28
Jun 2023	7	2	0	9
Jul 2023	11	11	4	26
Aug 2023	9	8	2	19
Sep 2023	7	11	2	20
Oct 2023	6	3	0	9
Nov 2023	11	7	1	19
Dec 2023	8	3	2	13
Jan 2024	6	6	1	13
Feb 2024	8	9	0	17
Mar 2024	6	9	2	17
Apr 2024	21	8	4	33
May 2024	20	10	5	35
Jun 2024	22	6	1	29
Jul 2024	35	14	9	58
Aug 2024	28	7	6	41
Sep 2024	11	10	3	24
Oct 2024	14	12	0	26
Nov 2024	16	12	0	28
Dec 2024	16	8	1	25
Jan 2025	22	5	4	31
Feb 2025	39	13	3	55
Mar 2025	16	16	1	33
Apr 2025	25	16	1	42
May 2025	19	7	1	27
Jun 2025	44	22	1	67
Jul 2025	24	16	1	41
Aug 2025	17	24	1	42
Sep 2025	28	14	3	45
Oct 2025	19	24	3	46
Nov 2025	20	22	2	44

Cumulative views and downloads (calculated since 25 Nov 2016)

Month	HTML	PDF	XML	Total
Nov 2016	52	17	3	72
Dec 2016	43	7	1	51
Jan 2017	35	1	0	36
Feb 2017	17	3	0	20
Mar 2017	17	8	3	28
Apr 2017	203	50	5	258
May 2017	470	85	12	567
Jun 2017	46	23	3	72
Jul 2017	25	12	0	37
Aug 2017	20	20	2	42
Sep 2017	28	21	1	50
Oct 2017	11	10	0	21
Nov 2017	10	8	0	18
Dec 2017	9	10	0	19
Jan 2018	10	8	0	18
Feb 2018	10	4	0	14
Mar 2018	14	12	0	26
Apr 2018	12	9	0	21
May 2018	15	12	0	27
Jun 2018	7	8	0	15
Jul 2018	12	6	0	18
Aug 2018	15	8	0	23
Sep 2018	17	15	0	32
Oct 2018	12	11	0	23
Nov 2018	15	9	0	24
Dec 2018	12	8	1	21
Jan 2019	11	8	0	19
Feb 2019	8	6	3	17
Mar 2019	4	8	0	12
Apr 2019	13	6	0	19
May 2019	13	7	0	20
Jun 2019	5	8	1	14
Jul 2019	14	11	0	25
Aug 2019	5	2	0	7
Sep 2019	6	5	0	11
Oct 2019	11	8	1	20
Nov 2019	11	10	0	21
Dec 2019	6	3	1	10
Jan 2020	11	11	3	25
Feb 2020	8	6	0	14
Mar 2020	8	5	0	13
Apr 2020	9	10	0	19
May 2020	4	2	0	6
Jun 2020	25	16	1	42
Jul 2020	22	19	4	45
Aug 2020	5	11	4	20
Sep 2020	15	9	0	24
Oct 2020	6	6	2	14
Nov 2020	11	11	0	22
Dec 2020	9	11	0	20
Jan 2021	19	12	0	31
Feb 2021	13	2	0	15
Mar 2021	8	9	0	17
Apr 2021	10	9	0	19
May 2021	11	9	1	21
Jun 2021	9	9	0	18
Jul 2021	12	10	0	22
Aug 2021	9	12	0	21
Sep 2021	12	14	0	26
Oct 2021	11	37	0	48
Nov 2021	10	29	1	40
Dec 2021	18	13	1	32
Jan 2022	9	9	0	18
Feb 2022	13	4	3	20
Mar 2022	8	6	1	15
Apr 2022	5	5	0	10
May 2022	6	8	1	15
Jun 2022	10	5	1	16
Jul 2022	4	3	0	7
Aug 2022	16	5	0	21
Sep 2022	13	11	1	25
Oct 2022	11	4	2	17
Nov 2022	10	3	0	13
Dec 2022	15	8	0	23
Jan 2023	11	14	1	26
Feb 2023	16	9	1	26
Mar 2023	30	6	0	36
Apr 2023	26	6	1	33
May 2023	18	9	1	28
Jun 2023	7	2	0	9
Jul 2023	11	11	4	26
Aug 2023	9	8	2	19
Sep 2023	7	11	2	20
Oct 2023	6	3	0	9
Nov 2023	11	7	1	19
Dec 2023	8	3	2	13
Jan 2024	6	6	1	13
Feb 2024	8	9	0	17
Mar 2024	6	9	2	17
Apr 2024	21	8	4	33
May 2024	20	10	5	35
Jun 2024	22	6	1	29
Jul 2024	35	14	9	58
Aug 2024	28	7	6	41
Sep 2024	11	10	3	24
Oct 2024	14	12	0	26
Nov 2024	16	12	0	28
Dec 2024	16	8	1	25
Jan 2025	22	5	4	31
Feb 2025	39	13	3	55
Mar 2025	16	16	1	33
Apr 2025	25	16	1	42
May 2025	19	7	1	27
Jun 2025	44	22	1	67
Jul 2025	24	16	1	41
Aug 2025	17	24	1	42
Sep 2025	28	14	3	45
Oct 2025	19	24	3	46
Nov 2025	20	22	2	44

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Total article views: 3,605 (including HTML, PDF, and XML) Thereof 3,466 with geography defined and 139 with unknown origin.

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1

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Short summary

The significant climate changes remind us to characterize the hydrological response to it. Based on the long-term observed hydrological and meteorological data in 291 catchments across China, we find a pattern of the response stating that drier regions are more likely to become drier, whereas wetter regions are more likely to become wetter. We also reveal that the precipitation changes play the most significant role in this process.


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