Temporal evolution of flow-like landslide hazard for a road infrastructure in the municipality of Nocera Inferiore (southern Italy) under the effect of climate change

Uzielli, Marco; Rianna, Guido; Ciervo, Fabio; Mercogliano, Paola; Eidsvig, Unni K.

doi:https://doi.org/10.5194/nhess-18-3019-2018

Articles | Volume 18, issue 11

https://doi.org/10.5194/nhess-18-3019-2018

© 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-18-3019-2018

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

Articles | Volume 18, issue 11

Research article

|

14 Nov 2018

Research article |

| 14 Nov 2018

Temporal evolution of flow-like landslide hazard for a road infrastructure in the municipality of Nocera Inferiore (southern Italy) under the effect of climate change

Marco Uzielli, Guido Rianna, Fabio Ciervo, Paola Mercogliano, and Unni K. Eidsvig

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Oct 2018	13	14	0	27
Nov 2018	159	82	4	245
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Jan 2019	40	15	2	57
Feb 2019	17	6	0	23
Mar 2019	15	19	1	35
Apr 2019	24	15	0	39
May 2019	15	14	0	29
Jun 2019	27	15	0	42
Jul 2019	17	14	0	31
Aug 2019	10	19	1	30
Sep 2019	14	7	0	21
Oct 2019	39	21	1	61
Nov 2019	14	9	1	24
Dec 2019	18	5	2	25
Jan 2020	19	10	2	31
Feb 2020	16	8	0	24
Mar 2020	7	7	0	14
Apr 2020	31	10	0	41
May 2020	28	10	3	41
Jun 2020	21	8	1	30
Jul 2020	21	21	2	44
Aug 2020	13	12	2	27
Sep 2020	19	10	0	29
Oct 2020	12	6	1	19
Nov 2020	18	8	2	28
Dec 2020	13	14	1	28
Jan 2021	40	18	1	59
Feb 2021	7	4	0	11
Mar 2021	17	15	0	32
Apr 2021	9	6	1	16
May 2021	20	13	0	33
Jun 2021	9	8	0	17
Jul 2021	10	9	0	19
Aug 2021	7	10	0	17
Sep 2021	16	8	0	24
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Jan 2022	15	10	0	25
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Mar 2022	18	4	0	22
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May 2022	13	6	1	20
Jun 2022	9	2	3	14
Jul 2022	15	5	0	20
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Nov 2022	36	9	2	47
Dec 2022	47	6	0	53
Jan 2023	46	15	2	63
Feb 2023	48	9	2	59
Mar 2023	54	10	4	68
Apr 2023	12	10	0	22
May 2023	10	10	3	23
Jun 2023	9	4	0	13
Jul 2023	21	8	3	32
Aug 2023	7	8	2	17
Sep 2023	14	13	0	27
Oct 2023	12	13	1	26
Nov 2023	5	0	5
Dec 2023	20	8	0	28
Jan 2024	22	11	1	34
Feb 2024	10	14	5	29
Mar 2024	10	14	2	26
Apr 2024	41	18	8	67
May 2024	22	13	3	38
Jun 2024	23	8	2	33
Jul 2024	37	16	4	57
Aug 2024	18	3	3	24
Sep 2024	15	8	1	24
Oct 2024	26	11	2	39
Nov 2024	2	2	1	5

Cumulative views and downloads (calculated since 05 Dec 2017)

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Jan 2018	85	14	3	102
Feb 2018	36	7	7	50
Mar 2018	21	9	0	30
Apr 2018	14	3	1	18
May 2018	11	8	1	20
Jun 2018	13	4	0	17
Jul 2018	11	6	1	18
Aug 2018	6	3	0	9
Sep 2018	10	5	0	15
Oct 2018	13	14	0	27
Nov 2018	159	82	4	245
Dec 2018	101	24	2	127
Jan 2019	40	15	2	57
Feb 2019	17	6	0	23
Mar 2019	15	19	1	35
Apr 2019	24	15	0	39
May 2019	15	14	0	29
Jun 2019	27	15	0	42
Jul 2019	17	14	0	31
Aug 2019	10	19	1	30
Sep 2019	14	7	0	21
Oct 2019	39	21	1	61
Nov 2019	14	9	1	24
Dec 2019	18	5	2	25
Jan 2020	19	10	2	31
Feb 2020	16	8	0	24
Mar 2020	7	7	0	14
Apr 2020	31	10	0	41
May 2020	28	10	3	41
Jun 2020	21	8	1	30
Jul 2020	21	21	2	44
Aug 2020	13	12	2	27
Sep 2020	19	10	0	29
Oct 2020	12	6	1	19
Nov 2020	18	8	2	28
Dec 2020	13	14	1	28
Jan 2021	40	18	1	59
Feb 2021	7	4	0	11
Mar 2021	17	15	0	32
Apr 2021	9	6	1	16
May 2021	20	13	0	33
Jun 2021	9	8	0	17
Jul 2021	10	9	0	19
Aug 2021	7	10	0	17
Sep 2021	16	8	0	24
Oct 2021	8	38	0	46
Nov 2021	20	24	0	44
Dec 2021	15	15	0	30
Jan 2022	15	10	0	25
Feb 2022	8	7	1	16
Mar 2022	18	4	0	22
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Jun 2022	9	2	3	14
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Sep 2022	10	2	0	12
Oct 2022	15	6	2	23
Nov 2022	36	9	2	47
Dec 2022	47	6	0	53
Jan 2023	46	15	2	63
Feb 2023	48	9	2	59
Mar 2023	54	10	4	68
Apr 2023	12	10	0	22
May 2023	10	10	3	23
Jun 2023	9	4	0	13
Jul 2023	21	8	3	32
Aug 2023	7	8	2	17
Sep 2023	14	13	0	27
Oct 2023	12	13	1	26
Nov 2023	5	0	5
Dec 2023	20	8	0	28
Jan 2024	22	11	1	34
Feb 2024	10	14	5	29
Mar 2024	10	14	2	26
Apr 2024	41	18	8	67
May 2024	22	13	3	38
Jun 2024	23	8	2	33
Jul 2024	37	16	4	57
Aug 2024	18	3	3	24
Sep 2024	15	8	1	24
Oct 2024	26	11	2	39
Nov 2024	2	2	1	5

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Short summary

Landslide hazard at a given location may change over time due to climate change, since the frequency and intensity of landslide-triggering factors such as rainfall can vary significantly. It is important for stakeholders and decision-makers to predict trends in landslide hazard to mitigate the risk of losing lives and material assets. This study contributes an innovative method for the prediction of future variations of rainfall-induced landslides and shows its application to an Italian site.

Temporal evolution of flow-like landslide hazard for a road infrastructure in the municipality of Nocera Inferiore (southern Italy) under the effect of climate change

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10 citations as recorded by crossref.

10 citations as recorded by crossref.


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