Physically based approaches incorporating evaporation for early warning predictions of rainfall-induced landslides

Reder, Alfredo; Rianna, Guido; Pagano, Luca

doi:10.5194/nhess-18-613-2018

Articles | Volume 18, issue 2

https://doi.org/10.5194/nhess-18-613-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 4.0 License.

Special issue:

Landslide early warning systems: monitoring systems, rainfall...

https://doi.org/10.5194/nhess-18-613-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 18, issue 2

Research article

|

28 Feb 2018

Research article |

| 28 Feb 2018

Physically based approaches incorporating evaporation for early warning predictions of rainfall-induced landslides

Alfredo Reder, Guido Rianna, and Luca Pagano

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Cumulative views and downloads (calculated since 07 Sep 2017)

Month	HTML	PDF	XML	Total
Sep 2017	144	42	2	188
Oct 2017	92	19	0	111
Nov 2017	35	6	0	41
Dec 2017	15	7	1	23
Jan 2018	30	8	1	39
Feb 2018	62	19	8	89
Mar 2018	124	45	4	173
Apr 2018	62	14	4	80
May 2018	23	14	1	38
Jun 2018	20	15	3	38
Jul 2018	16	12	1	29
Aug 2018	25	10	4	39
Sep 2018	17	16	1	34
Oct 2018	23	20	1	44
Nov 2018	17	12	1	30
Dec 2018	14	12	1	27
Jan 2019	5	9	0	14
Feb 2019	9	12	0	21
Mar 2019	7	14	0	21
Apr 2019	11	14	1	26
May 2019	7	4	2	13
Jun 2019	25	10	0	35
Jul 2019	9	14	1	24
Aug 2019	10	11	1	22
Sep 2019	6	6	0	12
Oct 2019	10	10	1	21
Nov 2019	6	6	0	12
Dec 2019	6	8	2	16
Jan 2020	11	8	3	22
Feb 2020	7	0	7
Mar 2020	4	14	1	19
Apr 2020	10	7	0	17
May 2020	8	5	1	14
Jun 2020	24	16	2	42
Jul 2020	21	20	7	48
Aug 2020	9	11	6	26
Sep 2020	9	4	0	13
Oct 2020	4	23	0	27
Nov 2020	8	13	2	23
Dec 2020	13	8	0	21
Jan 2021	15	4	0	19
Feb 2021	11	9	1	21
Mar 2021	8	6	0	14
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Oct 2021	4	42	0	46
Nov 2021	4	25	0	29
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Jan 2022	13	8	1	22
Feb 2022	9	9	2	20
Mar 2022	3	12	0	15
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Feb 2024	8	8	4	20
Mar 2024	9	13	1	23
Apr 2024	19	13	3	35
May 2024	16	11	1	28
Jun 2024	19	10	2	31
Jul 2024	14	13	3	30
Aug 2024	16	2	3	21
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Oct 2024	10	7	0	17
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Nov 2025	19	17	1	37
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Short summary

Recently, landslides affecting pyroclastic covers of Campania Region caused many deaths and huge costs. The development of early warning systems represents a key issue for the area. However, the features of such soils make the development of reliable predictive tools challenging. The relevance of accounting for evaporative losses in slope hydrological balance regulating safety conditions is here discussed. To that end, the 2005 landslide in Nocera Inferiore is used as test case.


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