Predicting Extreme-Precipitation Effects on the Geomorphology of Small Mountain Catchments: Towards an Improved Understanding of the Consequences for Freshwater Biodiversity and Ecosystems

Predicting Extreme-Precipitation Effects on the Geomorphology of Small Mountain Catchments: Towards an Improved Understanding of the Consequences for Freshwater Biodiversity and Ecosystems

In 2015 an intense rainfall event hit the Valleys of the Trebbia, Nure, and Aveto watercourses in the Northern Apennines. In about 6 h a mesoscale convective system deployed a stunning amount of precipitation of 340 mm, with an extreme hourly rainfall intensity of >100 mm/h. It triggered debr...

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Main Authors: Stefano Segadelli, Federico Grazzini, Michele Adorni, Maria Teresa De Nardo, Anna Fornasiero, Alessandro Chelli, Marco Cantonati
Format: Article
Language:English
Published: MDPI AG 2019-12-01
Series:Water
Subjects:
inland waters’ ecosystems
catchment
biodiversity
extreme rainfall events
ecological effects
northern apennines
cloudburst
Online Access:https://www.mdpi.com/2073-4441/12/1/79
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spelling doaj-eb317b9479fd4c8582338475373333e32020-11-24T23:59:26ZengMDPI AGWater2073-44412019-12-011217910.3390/w12010079w12010079Predicting Extreme-Precipitation Effects on the Geomorphology of Small Mountain Catchments: Towards an Improved Understanding of the Consequences for Freshwater Biodiversity and EcosystemsStefano Segadelli0Federico Grazzini1Michele Adorni2Maria Teresa De Nardo3Anna Fornasiero4Alessandro Chelli5Marco Cantonati6Servizio Geologico, Sismico e dei Suoli, Regione Emilia-Romagna, Viale della Fiera 8, 40127 Bologna, ItalyAgenzia Prevenzione Ambiente Energia Emilia-Romagna, Servizio Idro-Meteo-Clima (ARPAE-SIMC), Regione Emilia-Romagna, Viale Silvani 6, 40122 Bologna, ItalyBiologist freelance, Via degli Alpini 7, 43037 Lesignano de’ Bagni, Parma, ItalyServizio Geologico, Sismico e dei Suoli, Regione Emilia-Romagna, Viale della Fiera 8, 40127 Bologna, ItalyAgenzia Prevenzione Ambiente Energia Emilia-Romagna, Servizio Idro-Meteo-Clima (ARPAE-SIMC), Regione Emilia-Romagna, Viale Silvani 6, 40122 Bologna, ItalyDepartment of Chemistry, Life Sciences and Environmental Sustainability, University of Parma, 43100 Parma, ItalyMUSE—Museo delle Scienze, Limnology & Phycology Section, Corso del Lavoro e della Scienza 3, I-38123 Trento, ItalyIn 2015 an intense rainfall event hit the Valleys of the Trebbia, Nure, and Aveto watercourses in the Northern Apennines. In about 6 h a mesoscale convective system deployed a stunning amount of precipitation of 340 mm, with an extreme hourly rainfall intensity of >100 mm/h. It triggered debris flows along slopes and stream channels, landslides and floods, which caused serious damages. Through the optimal combination of rainfall data and radar volumes, in this work we present a detailed rainfall analysis, which will serve as a basis to create a quantitative correlation with debris flows over elementary hydrological units. We aim at providing an objective basis for future predictions, starting from the recognition of the forcing meteorological events, and then arriving at the prediction of triggering phenomena and to the debris-flow type. We further provide seven observations/case studies on the effects of extreme-precipitation events on freshwater environments in small mountain catchments. Extreme-precipitation events are becoming more frequent and widespread globally but their ecological effects are still insufficiently understood. In general, the effects of extreme events on inland-waters’ ecosystems are highly context-dependent, ranging from deleterious to beneficial. We therefore highlight the necessity of further studies to characterize these effects in more depth to be able to include appropriate mitigation measures in environmental planning and stewardship.https://www.mdpi.com/2073-4441/12/1/79inland waters’ ecosystemscatchmentbiodiversityextreme rainfall eventsecological effectsnorthern apenninescloudburst
collection DOAJ
language English
format Article
sources DOAJ
author Stefano Segadelli
Federico Grazzini
Michele Adorni
Maria Teresa De Nardo
Anna Fornasiero
Alessandro Chelli
Marco Cantonati
spellingShingle Stefano Segadelli
Federico Grazzini
Michele Adorni
Maria Teresa De Nardo
Anna Fornasiero
Alessandro Chelli
Marco Cantonati
Predicting Extreme-Precipitation Effects on the Geomorphology of Small Mountain Catchments: Towards an Improved Understanding of the Consequences for Freshwater Biodiversity and Ecosystems
Water
inland waters’ ecosystems
catchment
biodiversity
extreme rainfall events
ecological effects
northern apennines
cloudburst
author_facet Stefano Segadelli
Federico Grazzini
Michele Adorni
Maria Teresa De Nardo
Anna Fornasiero
Alessandro Chelli
Marco Cantonati
author_sort Stefano Segadelli
title Predicting Extreme-Precipitation Effects on the Geomorphology of Small Mountain Catchments: Towards an Improved Understanding of the Consequences for Freshwater Biodiversity and Ecosystems
title_short Predicting Extreme-Precipitation Effects on the Geomorphology of Small Mountain Catchments: Towards an Improved Understanding of the Consequences for Freshwater Biodiversity and Ecosystems
title_full Predicting Extreme-Precipitation Effects on the Geomorphology of Small Mountain Catchments: Towards an Improved Understanding of the Consequences for Freshwater Biodiversity and Ecosystems
title_fullStr Predicting Extreme-Precipitation Effects on the Geomorphology of Small Mountain Catchments: Towards an Improved Understanding of the Consequences for Freshwater Biodiversity and Ecosystems
title_full_unstemmed Predicting Extreme-Precipitation Effects on the Geomorphology of Small Mountain Catchments: Towards an Improved Understanding of the Consequences for Freshwater Biodiversity and Ecosystems
title_sort predicting extreme-precipitation effects on the geomorphology of small mountain catchments: towards an improved understanding of the consequences for freshwater biodiversity and ecosystems
publisher MDPI AG
series Water
issn 2073-4441
publishDate 2019-12-01
description In 2015 an intense rainfall event hit the Valleys of the Trebbia, Nure, and Aveto watercourses in the Northern Apennines. In about 6 h a mesoscale convective system deployed a stunning amount of precipitation of 340 mm, with an extreme hourly rainfall intensity of >100 mm/h. It triggered debris flows along slopes and stream channels, landslides and floods, which caused serious damages. Through the optimal combination of rainfall data and radar volumes, in this work we present a detailed rainfall analysis, which will serve as a basis to create a quantitative correlation with debris flows over elementary hydrological units. We aim at providing an objective basis for future predictions, starting from the recognition of the forcing meteorological events, and then arriving at the prediction of triggering phenomena and to the debris-flow type. We further provide seven observations/case studies on the effects of extreme-precipitation events on freshwater environments in small mountain catchments. Extreme-precipitation events are becoming more frequent and widespread globally but their ecological effects are still insufficiently understood. In general, the effects of extreme events on inland-waters’ ecosystems are highly context-dependent, ranging from deleterious to beneficial. We therefore highlight the necessity of further studies to characterize these effects in more depth to be able to include appropriate mitigation measures in environmental planning and stewardship.
topic inland waters’ ecosystems
catchment
biodiversity
extreme rainfall events
ecological effects
northern apennines
cloudburst
url https://www.mdpi.com/2073-4441/12/1/79
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