High-resolution regional climate modeling and projection  over western Canada using a weather research forecasting  model with a pseudo-global warming approach

Li, Yanping; Li, Zhenhua; Zhang, Zhe; Chen, Liang; Kurkute, Sopan; Scaff, Lucia; Pan, Xicai

doi:10.5194/hess-23-4635-2019

Articles | Volume 23, issue 11

https://doi.org/10.5194/hess-23-4635-2019

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

Special issue:

Understanding and predicting Earth system and hydrological...

https://doi.org/10.5194/hess-23-4635-2019

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

Articles | Volume 23, issue 11

Research article

|

18 Nov 2019

Research article |

| 18 Nov 2019

High-resolution regional climate modeling and projection over western Canada using a weather research forecasting model with a pseudo-global warming approach

Yanping Li, Zhenhua Li, Zhe Zhang, Liang Chen, Sopan Kurkute, Lucia Scaff, and Xicai Pan

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Total article views: 6,675 (including HTML, PDF, and XML)

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PDF: 2,151
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BibTeX: 130
EndNote: 142

Views and downloads (calculated since 03 May 2019)

Month	HTML	PDF	XML	Total
May 2019	240	57	1	298
Jun 2019	48	12	1	61
Jul 2019	36	12	0	48
Aug 2019	21	15	0	36
Sep 2019	132	9	0	141
Oct 2019	93	9	0	102
Nov 2019	239	102	1	342
Dec 2019	108	160	3	271
Jan 2020	53	84	7	144
Feb 2020	76	54	4	134
Mar 2020	32	54	0	86
Apr 2020	23	25	0	48
May 2020	15	38	1	54
Jun 2020	44	33	2	79
Jul 2020	28	75	1	104
Aug 2020	30	19	2	51
Sep 2020	26	25	0	51
Oct 2020	27	21	0	48
Nov 2020	18	24	0	42
Dec 2020	25	14	1	40
Jan 2021	41	36	0	77
Feb 2021	31	15	1	47
Mar 2021	48	21	0	69
Apr 2021	27	22	1	50
May 2021	30	22	2	54
Jun 2021	18	15	0	33
Jul 2021	24	15	0	39
Aug 2021	27	15	2	44
Sep 2021	34	21	0	55
Oct 2021	15	44	1	60
Nov 2021	41	37	0	78
Dec 2021	31	17	0	48
Jan 2022	40	24	1	65
Feb 2022	26	12	2	40
Mar 2022	30	22	0	52
Apr 2022	29	17	1	47
May 2022	30	15	1	46
Jun 2022	30	7	2	39
Jul 2022	47	10	0	57
Aug 2022	106	10	0	116
Sep 2022	39	16	0	55
Oct 2022	51	10	0	61
Nov 2022	44	17	0	61
Dec 2022	35	15	0	50
Jan 2023	42	19	2	63
Feb 2023	33	13	0	46
Mar 2023	48	26	0	74
Apr 2023	25	21	4	50
May 2023	34	21	0	55
Jun 2023	48	18	1	67
Jul 2023	50	20	5	75
Aug 2023	43	16	2	61
Sep 2023	113	14	0	127
Oct 2023	232	16	0	248
Nov 2023	232	16	3	251
Dec 2023	40	10	3	53
Jan 2024	57	18	0	75
Feb 2024	34	22	2	58
Mar 2024	54	21	3	78
Apr 2024	52	11	4	67
May 2024	49	19	5	73
Jun 2024	63	15	2	80
Jul 2024	70	17	2	89
Aug 2024	61	34	6	101
Sep 2024	38	14	1	53
Oct 2024	73	10	1	84
Nov 2024	48	13	1	62
Dec 2024	62	16	3	81
Jan 2025	48	24	6	78
Feb 2025	65	31	3	99
Mar 2025	68	44	2	114
Apr 2025	51	29	2	82
May 2025	68	34	2	104
Jun 2025	83	67	0	150
Jul 2025	55	37	3	95
Aug 2025	38	36	3	77
Sep 2025	48	35	3	86
Oct 2025	52	56	1	109
Nov 2025	42	41	4	87

Cumulative views and downloads (calculated since 03 May 2019)

Month	HTML	PDF	XML	Total
May 2019	240	57	1	298
Jun 2019	48	12	1	61
Jul 2019	36	12	0	48
Aug 2019	21	15	0	36
Sep 2019	132	9	0	141
Oct 2019	93	9	0	102
Nov 2019	239	102	1	342
Dec 2019	108	160	3	271
Jan 2020	53	84	7	144
Feb 2020	76	54	4	134
Mar 2020	32	54	0	86
Apr 2020	23	25	0	48
May 2020	15	38	1	54
Jun 2020	44	33	2	79
Jul 2020	28	75	1	104
Aug 2020	30	19	2	51
Sep 2020	26	25	0	51
Oct 2020	27	21	0	48
Nov 2020	18	24	0	42
Dec 2020	25	14	1	40
Jan 2021	41	36	0	77
Feb 2021	31	15	1	47
Mar 2021	48	21	0	69
Apr 2021	27	22	1	50
May 2021	30	22	2	54
Jun 2021	18	15	0	33
Jul 2021	24	15	0	39
Aug 2021	27	15	2	44
Sep 2021	34	21	0	55
Oct 2021	15	44	1	60
Nov 2021	41	37	0	78
Dec 2021	31	17	0	48
Jan 2022	40	24	1	65
Feb 2022	26	12	2	40
Mar 2022	30	22	0	52
Apr 2022	29	17	1	47
May 2022	30	15	1	46
Jun 2022	30	7	2	39
Jul 2022	47	10	0	57
Aug 2022	106	10	0	116
Sep 2022	39	16	0	55
Oct 2022	51	10	0	61
Nov 2022	44	17	0	61
Dec 2022	35	15	0	50
Jan 2023	42	19	2	63
Feb 2023	33	13	0	46
Mar 2023	48	26	0	74
Apr 2023	25	21	4	50
May 2023	34	21	0	55
Jun 2023	48	18	1	67
Jul 2023	50	20	5	75
Aug 2023	43	16	2	61
Sep 2023	113	14	0	127
Oct 2023	232	16	0	248
Nov 2023	232	16	3	251
Dec 2023	40	10	3	53
Jan 2024	57	18	0	75
Feb 2024	34	22	2	58
Mar 2024	54	21	3	78
Apr 2024	52	11	4	67
May 2024	49	19	5	73
Jun 2024	63	15	2	80
Jul 2024	70	17	2	89
Aug 2024	61	34	6	101
Sep 2024	38	14	1	53
Oct 2024	73	10	1	84
Nov 2024	48	13	1	62
Dec 2024	62	16	3	81
Jan 2025	48	24	6	78
Feb 2025	65	31	3	99
Mar 2025	68	44	2	114
Apr 2025	51	29	2	82
May 2025	68	34	2	104
Jun 2025	83	67	0	150
Jul 2025	55	37	3	95
Aug 2025	38	36	3	77
Sep 2025	48	35	3	86
Oct 2025	52	56	1	109
Nov 2025	42	41	4	87

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Short summary

High-resolution regional climate modeling that resolves convection was conducted over western Canada for the current climate and a high-end greenhouse gas emission scenario by 2100. The simulation demonstrates its good quality in capturing the temporal and spatial variation in the major hydrometeorological variables. The warming is stronger in the northeastern domain in the cold seasons. It also shows a larger increase in high-intensity precipitation events than moderate and light ones by 2100.


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