Your search keyword '"Sirba River"' showing total 6 results

1. Potential and Limitations of Free Online Precise Point Positioning Services for GNSS Rover-Base Surveys in Low-Density CORS Areas

Author

Belcore, Elena, Piras, Marco, Dabove, Paolo, Massazza, Giovanni, Rosso, Maurizio, Filipe, Joaquim, Editorial Board Member, Ghosh, Ashish, Editorial Board Member, Prates, Raquel Oliveira, Editorial Board Member, Zhou, Lizhu, Editorial Board Member, Grueau, Cédric, editor, Laurini, Robert, editor, and Ragia, Lemonia, editor

Published

2023

2. Community and Impact Based Early Warning System for Flood Risk Preparedness: The Experience of the Sirba River in Niger

Author

Alessandro Pezzoli, Tiziana De Filippis, Maurizio Tiepolo, Valentina De Marchi, Gaptia Lawan Katiellou, Mohamed H. Ibrahim, Leandro Rocchi, Elena Rapisardi, Paolo Tamagnone, Maurizio Rosso, Vieri Tarchiani, and Giovanni Massazza

Subjects

010504 meteorology & atmospheric sciences, 0208 environmental biotechnology, Geography, Planning and Development, local communities, TJ807-830, 02 engineering and technology, Management, Monitoring, Policy and Law, TD194-195, 01 natural sciences, Renewable energy sources, Early warning system, Flood risk, Hydrology, Rural development, Sustainable development, Sirba River, Niger, Sahel, Niger river basin, GE1-350, Environmental planning, 0105 earth and related environmental sciences, early warning, Environmental effects of industries and plants, Warning system, Flood myth, Renewable Energy, Sustainability and the Environment, Livelihood, Hazard, 020801 environmental engineering, Environmental sciences, Preparedness, flood risk, hydrology, rural development, Business, Lead time

Abstract

Floods have recently become a major hazard in West Africa (WA) in terms of both their magnitude and frequency. They affect livelihoods, infrastructure and production systems, hence impacting on Sustainable Development (SD). Early Warning Systems (EWS) for floods that properly address all four EWS components, while also being community and impact-based, do not yet exist in WA. Existing systems address only the main rivers, are conceived in a top-down manner and are hazard-centered. This study on the Sirba river in Niger aims to demonstrate that an operational community and impact-based EWS for floods can be set up by leveraging the existing tools, local stakeholders and knowledge. The main finding of the study is that bridging the gap between top-down and bottom-up approaches is possible by directly connecting the available technical capabilities with the local level through a participatory approach. This allows the beneficiaries to define the rules that will develop the whole system, strengthening their ability to understand the information and take action. Moreover, the integration of hydrological forecasts and observations with the community monitoring and preparedness system provides a lead time suitable for operational decision-making at national and local levels. The study points out the need for the commitment of governments to the transboundary sharing of flood information for EWS and SD.

Published

2020

3. Flood Hazard Scenarios of the Sirba River (Niger): Evaluation of the Hazard Thresholds and Flooding Areas

Author

Maurizio Tiepolo, Catherine Wilcox, Paolo Tamagnone, Mohamed H. Ibrahim, Maurizio Rosso, Vieri Tarchiani, Théo Vischel, Elena Belcore, Alessandro Pezzoli, Giovanni Massazza, and Gérémy Panthou

Subjects

lcsh:Hydraulic engineering, non-stationarity, hydraulic numerical model, Geography, Planning and Development, Aquatic Science, Hazard analysis, Biochemistry, lcsh:Water supply for domestic and industrial purposes, lcsh:TC1-978, Sahel, Tributary, Middle Niger River Basin, Sirba River, Sahel, Flood hazard, Hazard threshold, Non-stationarity, Rating curvves, Hydraulic numerical model, Early warning system, rating curves, Water Science and Technology, geography, lcsh:TD201-500, geography.geographical_feature_category, HEC-RAS, Flood myth, Warning system, flood hazard, Flooding (psychology), Sirba River, Hazard, Rating curvves, Early Warning System, hazard threshold, Environmental science, Early warning system, Water resource management

Abstract

In Sahelian countries, a vast number of people are still affected every year by flood despite the efforts to prevent or mitigate these catastrophic events. This phenomenon is exacerbated by the incessant population growth and the increase of extreme natural events. Hence, the development of flood management strategies such as flood hazard mapping and Early Warning Systems has become a crucial objective for the affected nations. This study presents a comprehensive hazard assessment of the Nigerien reach of the Sirba River, the main tributary Middle Niger River. Hazard thresholds were defined both on hydrological analysis and field effects, according to national guidelines. Non-stationary analyses were carried out to consider changes in the hydrological behavior of the Sirba basin over time. Data from topographical land surveys and discharge gauges collected during the 2018 dry and wet seasons were used to implement the hydraulic numerical model of the analyzed reach. The use of the proposed hydraulic model allowed the delineation of flood hazard maps as well the calculation of the flood propagation time from the upstream hydrometric station and the validation of the rating curves of the two gauging sites. These significative outcomes will allow the implementation of the Early Warning System for the river flood hazard and risk reduction plans preparation for each settlement.

Published

2019

4. Hydrology of the Sirba River: Updating and Analysis of Discharge Time Series

Author

Alessandro Pezzoli, Paolo Tamagnone, Giovanni Massazza, and Maurizio Rosso

Subjects

lcsh:Hydraulic engineering, 010504 meteorology & atmospheric sciences, Geography, Planning and Development, 0207 environmental engineering, Climate change, 02 engineering and technology, Land cover, Aquatic Science, 01 natural sciences, Biochemistry, Hydrology (agriculture), lcsh:Water supply for domestic and industrial purposes, lcsh:TC1-978, Streamflow, Sahel, Middle Niger River Basin, Flood mitigation, rating curves, 020701 environmental engineering, 0105 earth and related environmental sciences, Water Science and Technology, Series (stratigraphy), lcsh:TD201-500, Flood myth, Land use, Sirba River, floods, Environmental science, Physical geography, discharge time series

Abstract

The Sahelian regions are affected by an increasing number of catastrophic floods in recent years as a consequence of climate and land use/land cover changes. River flow data is key to understanding river behavior and develop flood mitigation and prevention strategies. The present study provides a revision and an update of the existing discharge dataset of the Sirba River with the aim of enhancing the reliability of these data. The revision also includes the recalibration of the Garbey Kourou rating curves. The analysis of the revised discharge time series strengthens the previous findings, evidencing a positive trend in flood frequency and intensity over the entire analyzed period of 1956–2018. This positive trend is more pronounced for the last 40 years due to a significant underestimation of the rating curves used. A relevant finding is a new changepoint in the time series, detected for 2008, which represents the beginning of the period in which the highest flood magnitudes were registered. The effect of land use/land cover changes and climate changes on the water resource is depicted using flow duration curves. This research produces a revised and more reliable discharge time series that will be a new starting point for future hydrological analyses.

Published

2019

5. Flood Hazard Scenarios of the Sirba River (Niger): Evaluation of the Hazard Thresholds and Flooding Areas.

Author

Massazza, Giovanni, Tamagnone, Paolo, Wilcox, Catherine, Belcore, Elena, Pezzoli, Alessandro, Vischel, Theo, Panthou, Gérémy, Housseini Ibrahim, Mohamed, Tiepolo, Maurizio, Tarchiani, Vieri, and Rosso, Maurizio

Subjects

FLOODS, POPULATION, HYDROLOGY, HYDRAULIC models, HYDRAULIC measurements

Abstract

In Sahelian countries, a vast number of people are still affected every year by flood despite the efforts to prevent or mitigate these catastrophic events. This phenomenon is exacerbated by the incessant population growth and the increase of extreme natural events. Hence, the development of flood management strategies such as flood hazard mapping and Early Warning Systems has become a crucial objective for the affected nations. This study presents a comprehensive hazard assessment of the Nigerien reach of the Sirba River, the main tributary Middle Niger River. Hazard thresholds were defined both on hydrological analysis and field effects, according to national guidelines. Non-stationary analyses were carried out to consider changes in the hydrological behavior of the Sirba basin over time. Data from topographical land surveys and discharge gauges collected during the 2018 dry and wet seasons were used to implement the hydraulic numerical model of the analyzed reach. The use of the proposed hydraulic model allowed the delineation of flood hazard maps as well the calculation of the flood propagation time from the upstream hydrometric station and the validation of the rating curves of the two gauging sites. These significative outcomes will allow the implementation of the Early Warning System for the river flood hazard and risk reduction plans preparation for each settlement. [ABSTRACT FROM AUTHOR]

Published

2019

6. Hydrology of the Sirba River: Updating and Analysis of Discharge Time Series.

Author

Tamagnone, Paolo, Massazza, Giovanni, Pezzoli, Alessandro, and Rosso, Maurizio

Subjects

WATERSHEDS, HYDROLOGIC cycle, METEOROLOGICAL precipitation, HYDROLOGY, RUNOFF

Abstract

The Sahelian regions are affected by an increasing number of catastrophic floods in recent years as a consequence of climate and land use/land cover changes. River flow data is key to understanding river behavior and develop flood mitigation and prevention strategies. The present study provides a revision and an update of the existing discharge dataset of the Sirba River with the aim of enhancing the reliability of these data. The revision also includes the recalibration of the Garbey Kourou rating curves. The analysis of the revised discharge time series strengthens the previous findings, evidencing a positive trend in flood frequency and intensity over the entire analyzed period of 1956–2018. This positive trend is more pronounced for the last 40 years due to a significant underestimation of the rating curves used. A relevant finding is a new changepoint in the time series, detected for 2008, which represents the beginning of the period in which the highest flood magnitudes were registered. The effect of land use/land cover changes and climate changes on the water resource is depicted using flow duration curves. This research produces a revised and more reliable discharge time series that will be a new starting point for future hydrological analyses. [ABSTRACT FROM AUTHOR]

Published

2019