Effects of precipitation seasonality, irrigation, vegetation cycle and soil type on enhanced weathering – modeling of cropland case studies across four sites

Cipolla, Giuseppe; Calabrese, Salvatore; Porporato, Amilcare; Noto, Leonardo V.

doi:10.5194/bg-19-3877-2022

Articles | Volume 19, issue 16

https://doi.org/10.5194/bg-19-3877-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/bg-19-3877-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 19, issue 16

Research article

|

26 Aug 2022

Research article |

| 26 Aug 2022

Effects of precipitation seasonality, irrigation, vegetation cycle and soil type on enhanced weathering – modeling of cropland case studies across four sites

Giuseppe Cipolla, Salvatore Calabrese, Amilcare Porporato, and Leonardo V. Noto

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Total article views: 3,555 (including HTML, PDF, and XML)

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Views and downloads (calculated since 19 Apr 2022)

Month	HTML	PDF	XML	Total
Apr 2022	137	44	8	189
May 2022	110	28	2	140
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Jul 2022	13	4	1	18
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Jan 2023	40	20	0	60
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Jan 2024	40	13	0	53
Feb 2024	39	15	0	54
Mar 2024	34	20	2	56
Apr 2024	28	10	2	40
May 2024	43	6	5	54
Jun 2024	41	15	2	58
Jul 2024	33	6	4	43
Aug 2024	49	4	4	57
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Jan 2025	66	6	2	74
Feb 2025	31	11	0	42
Mar 2025	44	13	1	58
Apr 2025	24	13	1	38
May 2025	30	9	0	39
Jun 2025	52	14	0	66
Jul 2025	57	18	2	77
Aug 2025	70	10	0	80
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Oct 2025	86	11	2	99
Nov 2025	86	15	4	105
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Feb 2026	239	13	2	254
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Apr 2026	0

Cumulative views and downloads (calculated since 19 Apr 2022)

Month	HTML	PDF	XML	Total
Apr 2022	137	44	8	189
May 2022	110	28	2	140
Jun 2022	34	12	0	46
Jul 2022	13	4	1	18
Aug 2022	145	50	5	200
Sep 2022	134	31	1	166
Oct 2022	43	20	0	63
Nov 2022	54	19	1	74
Dec 2022	30	14	1	45
Jan 2023	40	20	0	60
Feb 2023	86	22	1	109
Mar 2023	39	8	1	48
Apr 2023	24	14	0	38
May 2023	26	17	1	44
Jun 2023	32	8	1	41
Jul 2023	25	13	2	40
Aug 2023	19	15	3	37
Sep 2023	30	18	0	48
Oct 2023	31	28	2	61
Nov 2023	14	9	0	23
Dec 2023	27	11	1	39
Jan 2024	40	13	0	53
Feb 2024	39	15	0	54
Mar 2024	34	20	2	56
Apr 2024	28	10	2	40
May 2024	43	6	5	54
Jun 2024	41	15	2	58
Jul 2024	33	6	4	43
Aug 2024	49	4	4	57
Sep 2024	20	7	1	28
Oct 2024	29	6	1	36
Nov 2024	32	7	1	40
Dec 2024	28	4	0	32
Jan 2025	66	6	2	74
Feb 2025	31	11	0	42
Mar 2025	44	13	1	58
Apr 2025	24	13	1	38
May 2025	30	9	0	39
Jun 2025	52	14	0	66
Jul 2025	57	18	2	77
Aug 2025	70	10	0	80
Sep 2025	135	7	2	144
Oct 2025	86	11	2	99
Nov 2025	86	15	4	105
Dec 2025	88	41	17	146
Jan 2026	144	23	7	174
Feb 2026	239	13	2	254
Mar 2026	49	27	3	79
Apr 2026	0

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Short summary

Enhanced weathering (EW) is a promising strategy for carbon sequestration. Since models may help to characterize field EW, the present work applies a hydro-biogeochemical model to four case studies characterized by different rainfall seasonality, vegetation and soil type. Rainfall seasonality strongly affects EW dynamics, but low carbon sequestration suggests that an in-depth analysis at the global scale is required to see if EW may be effective to mitigate climate change.


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