Effects of Climate Change and Changes in Land Use and Cover on Water Yield in an Equatorial Andean Basin

Darío Xavier Zhiña Villa; Alex Manuel Avilés Añazco; Lorena González; Ana Lucía Astudillo Alemán; José Astudillo; Carlos Matovelle

doi:10.3390/hydrology11090157

Effects of Climate Change and Changes in Land Use and Cover on Water Yield in an Equatorial Andean Basin

Darío Xavier Zhiña Villa (Primer Autor)
, Alex Manuel Avilés Añazco (Autor de Correspondencia)
, Lorena González
, Ana Lucía Astudillo Alemán
, José Astudillo
, Carlos Matovelle (Último Autor)

Grupo de Investigación: Evaluación de Riesgos Ambientales en Sistemas de Producción y Servicios (RISKEN)
Departamento de Química Aplicada y Sistemas de Producción

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2 Citas (Scopus)

Resumen

Ecosystem services contribute significantly to human development, with water production being a crucial component. Climate and land use changes can impact water availability within a basin. In this context, researching water-related areas is essential for formulating policies to protect and manage hydrological services. The objective of this study was to estimate water yield in the sub-basins of the Tabacay and Aguilán rivers under climate change scenarios in 2030, 2040, and 2050, combined with scenarios of changes in land cover and land use. The InVEST model was employed to analyze water yield. The results show that crop areas were identified as the lowest water yield in future scenarios, and forested areas, particularly the region where the Cubilán Protected Forest is located, contribute the most to water yield in the subbasin. Besides, water yield has increased in the historic period (2016–2018) due to the conservation and reforestation initiatives carried out by the Municipal Public Service Company for Drinking Water, Sewerage, and Environmental Sanitation of the city of Azogues in 2018, the so-called Reciprocal Agreements for Water. Additionally, an increase in water yield is projected for future scenarios. This study can serve as a basis for decision-makers to identify areas that should prioritize protection and conservation.

Idioma original	Inglés
Número de artículo	157
Páginas (desde-hasta)	1-21
Número de páginas	21
Publicación	Hydrology
Volumen	11
N.º	9
DOI	https://doi.org/10.3390/hydrology11090157
Estado	Publicada - sep. 2024

Palabras clave

Basin water yield
Ecosystem services
Equatorial Andean basins
InVEST model
Cuencas hídricas

ODS de las Naciones Unidas

Este resultado contribuye a los siguientes Objetivos de Desarrollo Sostenible

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10.3390/hydrology11090157

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Seguridad Hídrica En La Subcuenca Del Río Tabacay En Tiempos De Cambios Globales
Aviles Añazco, A. M. (Director), Garcia Avila, F. F. (Co-Director), Astudillo Banegas, J. E. (Investigador), Peralta Vallejo, X. K. (Investigador), Verdugo Silva, J. T. (Investigador), Gonzalez Espinoza, L. H. (Tecnico de Investigacion), VALDIVIESO GARCIA, K. V. (Tecnico de Investigacion), Matovelle Bustos, C. M. (Investigador Asociado), Palomeque Larriva, G. E. (Investigador Asociado), Vintimilla Ulloa, C. A. (Investigador Asociado) & Astudillo Aleman, A. L. (Investigador-Vinculador)
3/01/22 → 2/01/24
Proyecto: Investigación

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title = "Effects of Climate Change and Changes in Land Use and Cover on Water Yield in an Equatorial Andean Basin",

abstract = "Ecosystem services contribute significantly to human development, with water production being a crucial component. Climate and land use changes can impact water availability within a basin. In this context, researching water-related areas is essential for formulating policies to protect and manage hydrological services. The objective of this study was to estimate water yield in the sub-basins of the Tabacay and Aguil{\'a}n rivers under climate change scenarios in 2030, 2040, and 2050, combined with scenarios of changes in land cover and land use. The InVEST model was employed to analyze water yield. The results show that crop areas were identified as the lowest water yield in future scenarios, and forested areas, particularly the region where the Cubil{\'a}n Protected Forest is located, contribute the most to water yield in the subbasin. Besides, water yield has increased in the historic period (2016–2018) due to the conservation and reforestation initiatives carried out by the Municipal Public Service Company for Drinking Water, Sewerage, and Environmental Sanitation of the city of Azogues in 2018, the so-called Reciprocal Agreements for Water. Additionally, an increase in water yield is projected for future scenarios. This study can serve as a basis for decision-makers to identify areas that should prioritize protection and conservation.",

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doi = "10.3390/hydrology11090157",

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Effects of Climate Change and Changes in Land Use and Cover on Water Yield in an Equatorial Andean Basin. / Zhiña Villa, Darío Xavier (Primer Autor); Avilés Añazco, Alex Manuel (Autor de Correspondencia); González, Lorena et al.
En: Hydrology, Vol. 11, N.º 9, 157, 09.2024, p. 1-21.

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

TY - JOUR

T1 - Effects of Climate Change and Changes in Land Use and Cover on Water Yield in an Equatorial Andean Basin

AU - Zhiña Villa, Darío Xavier

AU - Avilés Añazco, Alex Manuel

AU - González, Lorena

AU - Astudillo Alemán, Ana Lucía

AU - Astudillo, José

AU - Matovelle, Carlos

PY - 2024/9

Y1 - 2024/9

N2 - Ecosystem services contribute significantly to human development, with water production being a crucial component. Climate and land use changes can impact water availability within a basin. In this context, researching water-related areas is essential for formulating policies to protect and manage hydrological services. The objective of this study was to estimate water yield in the sub-basins of the Tabacay and Aguilán rivers under climate change scenarios in 2030, 2040, and 2050, combined with scenarios of changes in land cover and land use. The InVEST model was employed to analyze water yield. The results show that crop areas were identified as the lowest water yield in future scenarios, and forested areas, particularly the region where the Cubilán Protected Forest is located, contribute the most to water yield in the subbasin. Besides, water yield has increased in the historic period (2016–2018) due to the conservation and reforestation initiatives carried out by the Municipal Public Service Company for Drinking Water, Sewerage, and Environmental Sanitation of the city of Azogues in 2018, the so-called Reciprocal Agreements for Water. Additionally, an increase in water yield is projected for future scenarios. This study can serve as a basis for decision-makers to identify areas that should prioritize protection and conservation.

AB - Ecosystem services contribute significantly to human development, with water production being a crucial component. Climate and land use changes can impact water availability within a basin. In this context, researching water-related areas is essential for formulating policies to protect and manage hydrological services. The objective of this study was to estimate water yield in the sub-basins of the Tabacay and Aguilán rivers under climate change scenarios in 2030, 2040, and 2050, combined with scenarios of changes in land cover and land use. The InVEST model was employed to analyze water yield. The results show that crop areas were identified as the lowest water yield in future scenarios, and forested areas, particularly the region where the Cubilán Protected Forest is located, contribute the most to water yield in the subbasin. Besides, water yield has increased in the historic period (2016–2018) due to the conservation and reforestation initiatives carried out by the Municipal Public Service Company for Drinking Water, Sewerage, and Environmental Sanitation of the city of Azogues in 2018, the so-called Reciprocal Agreements for Water. Additionally, an increase in water yield is projected for future scenarios. This study can serve as a basis for decision-makers to identify areas that should prioritize protection and conservation.

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KW - ecosystem services

KW - equatorial Andean basins

KW - Basin water yield

KW - Ecosystem services

KW - Equatorial Andean basins

KW - InVEST model

KW - Cuencas hídricas

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UR - https://www.mdpi.com/2306-5338/11/9/157

U2 - 10.3390/hydrology11090157

DO - 10.3390/hydrology11090157

M3 - Artículo

AN - SCOPUS:85205232348

SN - 2306-5338

VL - 11

SP - 1

EP - 21

JO - Hydrology

JF - Hydrology

IS - 9

M1 - 157

ER -

Effects of Climate Change and Changes in Land Use and Cover on Water Yield in an Equatorial Andean Basin

Resumen

Palabras clave

ODS de las Naciones Unidas

Acceder al documento

Otros archivos y enlaces

Huella

Proyectos

Seguridad Hídrica En La Subcuenca Del Río Tabacay En Tiempos De Cambios Globales

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