Regionalization of Precipitation and Estimation of Flash Flood Flows for Ungauged High Andean Basins

Daniel Avilés Montero; Christian Mera Parra; Paola Duque Sarango

doi:10.1007/978-3-031-86777-4_75

Regionalization of Precipitation and Estimation of Flash Flood Flows for Ungauged High Andean Basins

Daniel Avilés Montero
, Christian Mera Parra
, Paola Duque Sarango

Producción científica: Capítulo del libro/informe/acta de congreso › Contribución de conferencia › revisión exhaustiva

Resumen

The uncertainties related to the rainfall regime in a basin significantly impact the estimation of flash floods. Even more so in non-gauged basins, the hydraulic response to different precipitation conditions is not adequately investigated due to the lack of proven methodological tools. Most high Andean basins with hydric interest are not properly gauged. So, flash flood estimations may not be close to real values. In this investigation, we generate a precipitation regionalization through a regionalization vector to represent the rainfall regime and analyze the hydrological response of the basin to estimate flash floods. We consider the basin of the Machángara River as the study zone, located between longitude W 78° 58′ 30″ and 79° 90′ 00″ and latitude S 02° 48′ 00″ and 02° 36′ 00″. The basin has an area of 325 km², a mean slope of 0.0388 m/m, and a temperate climate. We used the regionalization vector of type mean species proposed by Y. Brunet Moret, which calculates the extended average and the indices of the regional vector by a method of least squares, minimizing the deviations between the indices of the stations and the vector. For this analysis, the historical maximum precipitation values of the nearest meteorological stations were used. In addition, to reduce the margin of uncertainties, a map of land cover and use has been prepared. In order to include drainage conditions and permeability of soils, processed satellite images have been used, and the information was obtained from the National Information System (SNI). Flash flooding was estimated using concentrated hydrological model simulations; the flows obtained were close to the few reported through gauging. Additionally, inundation of floodplains was evaluated by entering discharges into the hydraulic model HEC-RAS. The maximum width range of the floodplains was 148.68 m for a return period of 500 years; the range of return periods producing the maximum width values were 50, 200, 500, and 1000 years. The maximum reported flood was 151.4 m³/s, corresponding to a return period of 1000 years. We can conclude that the precipitation regionalization appropriately represents the rainfall regime, so the flash flood estimates are assertive.

Idioma original	Inglés
Título de la publicación alojada	Dynamic Evolution of Atmospheric, Ecological, and Hydrological Systems in Circum-Mediterranean Regions - Proceedings of the 3rd MedGU 2023 Volume 1
Editores	Zhihua Zhang, Haroun Chenchouni, Mehmet Akif Sarikaya, Attila Ciner, Jasper Knight, Matteo Gentilucci, Imran Ali
Editorial	Springer Nature
Páginas	391-396
Número de páginas	6
ISBN (versión impresa)	9783031867767
DOI	https://doi.org/10.1007/978-3-031-86777-4_75
Estado	Publicada - 2025
Evento	3rd International conference on Mediterranean Geosciences Union, MedGU 2023 - Istanbul, Turquía Duración: 26 nov. 2023 → 30 nov. 2023

Serie de la publicación

Nombre	Advances in Science, Technology and Innovation
ISSN (versión impresa)	2522-8714
ISSN (versión digital)	2522-8722

Conferencia

Conferencia	3rd International conference on Mediterranean Geosciences Union, MedGU 2023
País/Territorio	Turquía
Ciudad	Istanbul
Período	26/11/23 → 30/11/23

Nota bibliográfica

Publisher Copyright:
© The Author(s), under exclusive license to Springer Nature Switzerland AG 2025.

ODS de las Naciones Unidas

Este resultado contribuye a los siguientes Objetivos de Desarrollo Sostenible

ODS 7: Energía asequible y no contaminante

Areas de Conocimiento del CACES

217A Tecnología de protección del medio ambiente

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10.1007/978-3-031-86777-4_75

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Avilés Montero, D., Mera Parra, C., & Duque Sarango, P. (2025). Regionalization of Precipitation and Estimation of Flash Flood Flows for Ungauged High Andean Basins. En Z. Zhang, H. Chenchouni, M. A. Sarikaya, A. Ciner, J. Knight, M. Gentilucci, & I. Ali (Eds.), Dynamic Evolution of Atmospheric, Ecological, and Hydrological Systems in Circum-Mediterranean Regions - Proceedings of the 3rd MedGU 2023 Volume 1 (pp. 391-396). (Advances in Science, Technology and Innovation). Springer Nature. https://doi.org/10.1007/978-3-031-86777-4_75

Avilés Montero, Daniel ; Mera Parra, Christian ; Duque Sarango, Paola. / Regionalization of Precipitation and Estimation of Flash Flood Flows for Ungauged High Andean Basins. Dynamic Evolution of Atmospheric, Ecological, and Hydrological Systems in Circum-Mediterranean Regions - Proceedings of the 3rd MedGU 2023 Volume 1. editor / Zhihua Zhang ; Haroun Chenchouni ; Mehmet Akif Sarikaya ; Attila Ciner ; Jasper Knight ; Matteo Gentilucci ; Imran Ali. Springer Nature, 2025. pp. 391-396 (Advances in Science, Technology and Innovation).

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title = "Regionalization of Precipitation and Estimation of Flash Flood Flows for Ungauged High Andean Basins",

abstract = "The uncertainties related to the rainfall regime in a basin significantly impact the estimation of flash floods. Even more so in non-gauged basins, the hydraulic response to different precipitation conditions is not adequately investigated due to the lack of proven methodological tools. Most high Andean basins with hydric interest are not properly gauged. So, flash flood estimations may not be close to real values. In this investigation, we generate a precipitation regionalization through a regionalization vector to represent the rainfall regime and analyze the hydrological response of the basin to estimate flash floods. We consider the basin of the Mach{\'a}ngara River as the study zone, located between longitude W 78° 58′ 30″ and 79° 90′ 00″ and latitude S 02° 48′ 00″ and 02° 36′ 00″. The basin has an area of 325 km2, a mean slope of 0.0388 m/m, and a temperate climate. We used the regionalization vector of type mean species proposed by Y. Brunet Moret, which calculates the extended average and the indices of the regional vector by a method of least squares, minimizing the deviations between the indices of the stations and the vector. For this analysis, the historical maximum precipitation values of the nearest meteorological stations were used. In addition, to reduce the margin of uncertainties, a map of land cover and use has been prepared. In order to include drainage conditions and permeability of soils, processed satellite images have been used, and the information was obtained from the National Information System (SNI). Flash flooding was estimated using concentrated hydrological model simulations; the flows obtained were close to the few reported through gauging. Additionally, inundation of floodplains was evaluated by entering discharges into the hydraulic model HEC-RAS. The maximum width range of the floodplains was 148.68 m for a return period of 500 years; the range of return periods producing the maximum width values were 50, 200, 500, and 1000 years. The maximum reported flood was 151.4 m3/s, corresponding to a return period of 1000 years. We can conclude that the precipitation regionalization appropriately represents the rainfall regime, so the flash flood estimates are assertive.",

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author = "\{Avil{\'e}s Montero\}, Daniel and \{Mera Parra\}, Christian and \{Duque Sarango\}, Paola",

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Avilés Montero, D, Mera Parra, C & Duque Sarango, P 2025, Regionalization of Precipitation and Estimation of Flash Flood Flows for Ungauged High Andean Basins. En Z Zhang, H Chenchouni, MA Sarikaya, A Ciner, J Knight, M Gentilucci & I Ali (eds.), Dynamic Evolution of Atmospheric, Ecological, and Hydrological Systems in Circum-Mediterranean Regions - Proceedings of the 3rd MedGU 2023 Volume 1. Advances in Science, Technology and Innovation, Springer Nature, pp. 391-396, 3rd International conference on Mediterranean Geosciences Union, MedGU 2023, Istanbul, Turquía, 26/11/23. https://doi.org/10.1007/978-3-031-86777-4_75

Regionalization of Precipitation and Estimation of Flash Flood Flows for Ungauged High Andean Basins. / Avilés Montero, Daniel; Mera Parra, Christian ; Duque Sarango, Paola.
Dynamic Evolution of Atmospheric, Ecological, and Hydrological Systems in Circum-Mediterranean Regions - Proceedings of the 3rd MedGU 2023 Volume 1. ed. / Zhihua Zhang; Haroun Chenchouni; Mehmet Akif Sarikaya; Attila Ciner; Jasper Knight; Matteo Gentilucci; Imran Ali. Springer Nature, 2025. p. 391-396 (Advances in Science, Technology and Innovation).

Producción científica: Capítulo del libro/informe/acta de congreso › Contribución de conferencia › revisión exhaustiva

TY - GEN

T1 - Regionalization of Precipitation and Estimation of Flash Flood Flows for Ungauged High Andean Basins

AU - Avilés Montero, Daniel

AU - Mera Parra, Christian

AU - Duque Sarango, Paola

N1 - Publisher Copyright: © The Author(s), under exclusive license to Springer Nature Switzerland AG 2025.

PY - 2025

Y1 - 2025

N2 - The uncertainties related to the rainfall regime in a basin significantly impact the estimation of flash floods. Even more so in non-gauged basins, the hydraulic response to different precipitation conditions is not adequately investigated due to the lack of proven methodological tools. Most high Andean basins with hydric interest are not properly gauged. So, flash flood estimations may not be close to real values. In this investigation, we generate a precipitation regionalization through a regionalization vector to represent the rainfall regime and analyze the hydrological response of the basin to estimate flash floods. We consider the basin of the Machángara River as the study zone, located between longitude W 78° 58′ 30″ and 79° 90′ 00″ and latitude S 02° 48′ 00″ and 02° 36′ 00″. The basin has an area of 325 km2, a mean slope of 0.0388 m/m, and a temperate climate. We used the regionalization vector of type mean species proposed by Y. Brunet Moret, which calculates the extended average and the indices of the regional vector by a method of least squares, minimizing the deviations between the indices of the stations and the vector. For this analysis, the historical maximum precipitation values of the nearest meteorological stations were used. In addition, to reduce the margin of uncertainties, a map of land cover and use has been prepared. In order to include drainage conditions and permeability of soils, processed satellite images have been used, and the information was obtained from the National Information System (SNI). Flash flooding was estimated using concentrated hydrological model simulations; the flows obtained were close to the few reported through gauging. Additionally, inundation of floodplains was evaluated by entering discharges into the hydraulic model HEC-RAS. The maximum width range of the floodplains was 148.68 m for a return period of 500 years; the range of return periods producing the maximum width values were 50, 200, 500, and 1000 years. The maximum reported flood was 151.4 m3/s, corresponding to a return period of 1000 years. We can conclude that the precipitation regionalization appropriately represents the rainfall regime, so the flash flood estimates are assertive.

AB - The uncertainties related to the rainfall regime in a basin significantly impact the estimation of flash floods. Even more so in non-gauged basins, the hydraulic response to different precipitation conditions is not adequately investigated due to the lack of proven methodological tools. Most high Andean basins with hydric interest are not properly gauged. So, flash flood estimations may not be close to real values. In this investigation, we generate a precipitation regionalization through a regionalization vector to represent the rainfall regime and analyze the hydrological response of the basin to estimate flash floods. We consider the basin of the Machángara River as the study zone, located between longitude W 78° 58′ 30″ and 79° 90′ 00″ and latitude S 02° 48′ 00″ and 02° 36′ 00″. The basin has an area of 325 km2, a mean slope of 0.0388 m/m, and a temperate climate. We used the regionalization vector of type mean species proposed by Y. Brunet Moret, which calculates the extended average and the indices of the regional vector by a method of least squares, minimizing the deviations between the indices of the stations and the vector. For this analysis, the historical maximum precipitation values of the nearest meteorological stations were used. In addition, to reduce the margin of uncertainties, a map of land cover and use has been prepared. In order to include drainage conditions and permeability of soils, processed satellite images have been used, and the information was obtained from the National Information System (SNI). Flash flooding was estimated using concentrated hydrological model simulations; the flows obtained were close to the few reported through gauging. Additionally, inundation of floodplains was evaluated by entering discharges into the hydraulic model HEC-RAS. The maximum width range of the floodplains was 148.68 m for a return period of 500 years; the range of return periods producing the maximum width values were 50, 200, 500, and 1000 years. The maximum reported flood was 151.4 m3/s, corresponding to a return period of 1000 years. We can conclude that the precipitation regionalization appropriately represents the rainfall regime, so the flash flood estimates are assertive.

KW - Andean basin

KW - Flash flood

KW - Floodplain

KW - Regionalization of precipitation

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DO - 10.1007/978-3-031-86777-4_75

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SN - 9783031867767

T3 - Advances in Science, Technology and Innovation

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EP - 396

BT - Dynamic Evolution of Atmospheric, Ecological, and Hydrological Systems in Circum-Mediterranean Regions - Proceedings of the 3rd MedGU 2023 Volume 1

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A2 - Sarikaya, Mehmet Akif

A2 - Ciner, Attila

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Avilés Montero D, Mera Parra C , Duque Sarango P. Regionalization of Precipitation and Estimation of Flash Flood Flows for Ungauged High Andean Basins. En Zhang Z, Chenchouni H, Sarikaya MA, Ciner A, Knight J, Gentilucci M, Ali I, editores, Dynamic Evolution of Atmospheric, Ecological, and Hydrological Systems in Circum-Mediterranean Regions - Proceedings of the 3rd MedGU 2023 Volume 1. Springer Nature. 2025. p. 391-396. (Advances in Science, Technology and Innovation). doi: 10.1007/978-3-031-86777-4_75

Regionalization of Precipitation and Estimation of Flash Flood Flows for Ungauged High Andean Basins

Resumen

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Areas de Conocimiento del CACES

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