Improving evaluation of climate change impacts on the water cycle by remote sensing ET-retrieval

Sandra G.García Galiano; Patricia Olmos Giménez; José Ángel Martínez Pérez; Juan Diego Giraldo Osorio

doi:10.5194/piahs-368-239-2015

Improving evaluation of climate change impacts on the water cycle by remote sensing ET-retrieval

Sandra G.García Galiano, Patricia Olmos Giménez, José Ángel Martínez Pérez, Juan Diego Giraldo Osorio

Departamento de Ingeniería Civil

Technical University of Cartagena

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

3 Citas (Scopus)

Resumen

Population growth and intense consumptive water uses are generating pressures on water resources in the southeast of Spain. Improving the knowledge of the climate change impacts on water cycle processes at the basin scale is a step to building adaptive capacity. In this work, regional climate model (RCM) ensembles are considered as an input to the hydrological model, for improving the reliability of hydroclimatic projections. To build the RCMs ensembles, the work focuses on probability density function (PDF)-based evaluation of the ability of RCMs to simulate of rainfall and temperature at the basin scale. To improve the spatial calibration of the continuous hydrological model used, an algorithm for remote sensing actual evapotranspiration (AET) retrieval was applied. From the results, a clear decrease in runoff is expected for 2050 in the headwater basin studied. The plausible future scenario of water shortage will produce negative impacts on the regional economy, where the main activity is irrigated agriculture.

Idioma original	Inglés
Título de la publicación alojada	Remote Sensing and GIS for Hydrology and Water Resources
Editores	Yangbo Chen, Ian Cluckie, Z. Su, Christopher Neale, Zongxue Xu, Jianzhong Zhou, Qiang Huang
Editorial	Copernicus GmbH
Páginas	239-244
Número de páginas	6
ISBN (versión digital)	9781907161469
DOI	https://doi.org/10.5194/piahs-368-239-2015
Estado	Publicada - 2015
Evento	3rd Remote Sensing and Hydrology Symposium, RSHS 2014 and the 3rd International Conference of GIS/RS in Hydrology, Water Resources and Environment, ICGRHWE 2014 - Guangzhou, China Duración: 24 ago. 2014 → 27 ago. 2014

Serie de la publicación

Nombre	IAHS-AISH Proceedings and Reports
Volumen	368
ISSN (versión impresa)	0144-7815

Conferencia

Conferencia	3rd Remote Sensing and Hydrology Symposium, RSHS 2014 and the 3rd International Conference of GIS/RS in Hydrology, Water Resources and Environment, ICGRHWE 2014
País/Territorio	China
Ciudad	Guangzhou
Período	24/08/14 → 27/08/14

ODS de las Naciones Unidas

Este resultado contribuye a los siguientes Objetivos de Desarrollo Sostenible

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10.5194/piahs-368-239-2015

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Galiano, S. G. G., Giménez, P. O., Pérez, J. Á. M., & Osorio, J. D. G. (2015). Improving evaluation of climate change impacts on the water cycle by remote sensing ET-retrieval. En Y. Chen, I. Cluckie, Z. Su, C. Neale, Z. Xu, J. Zhou, & Q. Huang (Eds.), Remote Sensing and GIS for Hydrology and Water Resources (pp. 239-244). (IAHS-AISH Proceedings and Reports; Vol. 368). Copernicus GmbH. https://doi.org/10.5194/piahs-368-239-2015

Galiano, Sandra G.García ; Giménez, Patricia Olmos ; Pérez, José Ángel Martínez et al. / Improving evaluation of climate change impacts on the water cycle by remote sensing ET-retrieval. Remote Sensing and GIS for Hydrology and Water Resources. editor / Yangbo Chen ; Ian Cluckie ; Z. Su ; Christopher Neale ; Zongxue Xu ; Jianzhong Zhou ; Qiang Huang. Copernicus GmbH, 2015. pp. 239-244 (IAHS-AISH Proceedings and Reports).

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title = "Improving evaluation of climate change impacts on the water cycle by remote sensing ET-retrieval",

abstract = "Population growth and intense consumptive water uses are generating pressures on water resources in the southeast of Spain. Improving the knowledge of the climate change impacts on water cycle processes at the basin scale is a step to building adaptive capacity. In this work, regional climate model (RCM) ensembles are considered as an input to the hydrological model, for improving the reliability of hydroclimatic projections. To build the RCMs ensembles, the work focuses on probability density function (PDF)-based evaluation of the ability of RCMs to simulate of rainfall and temperature at the basin scale. To improve the spatial calibration of the continuous hydrological model used, an algorithm for remote sensing actual evapotranspiration (AET) retrieval was applied. From the results, a clear decrease in runoff is expected for 2050 in the headwater basin studied. The plausible future scenario of water shortage will produce negative impacts on the regional economy, where the main activity is irrigated agriculture.",

keywords = "Actual evapotranspiration, Climate change impacts, Ensembles, NDVI-land surface temperature space, Rainfall-runoff modelling, Regional climate models, Remote sensing-retrieval",

author = "Galiano, {Sandra G.Garc{\'i}a} and Gim{\'e}nez, {Patricia Olmos} and P{\'e}rez, {Jos{\'e} {\'A}ngel Mart{\'i}nez} and Osorio, {Juan Diego Giraldo}",

note = "Publisher Copyright: Copyright {\textcopyright} 2015 IAHS Press.; 3rd Remote Sensing and Hydrology Symposium, RSHS 2014 and the 3rd International Conference of GIS/RS in Hydrology, Water Resources and Environment, ICGRHWE 2014 ; Conference date: 24-08-2014 Through 27-08-2014",

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doi = "10.5194/piahs-368-239-2015",

language = "English",

series = "IAHS-AISH Proceedings and Reports",

publisher = "Copernicus GmbH",

pages = "239--244",

editor = "Yangbo Chen and Ian Cluckie and Z. Su and Christopher Neale and Zongxue Xu and Jianzhong Zhou and Qiang Huang",

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Galiano, SGG, Giménez, PO, Pérez, JÁM & Osorio, JDG 2015, Improving evaluation of climate change impacts on the water cycle by remote sensing ET-retrieval. En Y Chen, I Cluckie, Z Su, C Neale, Z Xu, J Zhou & Q Huang (eds.), Remote Sensing and GIS for Hydrology and Water Resources. IAHS-AISH Proceedings and Reports, vol. 368, Copernicus GmbH, pp. 239-244, 3rd Remote Sensing and Hydrology Symposium, RSHS 2014 and the 3rd International Conference of GIS/RS in Hydrology, Water Resources and Environment, ICGRHWE 2014, Guangzhou, China, 24/08/14. https://doi.org/10.5194/piahs-368-239-2015

Improving evaluation of climate change impacts on the water cycle by remote sensing ET-retrieval. / Galiano, Sandra G.García; Giménez, Patricia Olmos; Pérez, José Ángel Martínez et al.
Remote Sensing and GIS for Hydrology and Water Resources. ed. / Yangbo Chen; Ian Cluckie; Z. Su; Christopher Neale; Zongxue Xu; Jianzhong Zhou; Qiang Huang. Copernicus GmbH, 2015. p. 239-244 (IAHS-AISH Proceedings and Reports; Vol. 368).

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

TY - GEN

T1 - Improving evaluation of climate change impacts on the water cycle by remote sensing ET-retrieval

AU - Galiano, Sandra G.García

AU - Giménez, Patricia Olmos

AU - Pérez, José Ángel Martínez

AU - Osorio, Juan Diego Giraldo

PY - 2015

Y1 - 2015

N2 - Population growth and intense consumptive water uses are generating pressures on water resources in the southeast of Spain. Improving the knowledge of the climate change impacts on water cycle processes at the basin scale is a step to building adaptive capacity. In this work, regional climate model (RCM) ensembles are considered as an input to the hydrological model, for improving the reliability of hydroclimatic projections. To build the RCMs ensembles, the work focuses on probability density function (PDF)-based evaluation of the ability of RCMs to simulate of rainfall and temperature at the basin scale. To improve the spatial calibration of the continuous hydrological model used, an algorithm for remote sensing actual evapotranspiration (AET) retrieval was applied. From the results, a clear decrease in runoff is expected for 2050 in the headwater basin studied. The plausible future scenario of water shortage will produce negative impacts on the regional economy, where the main activity is irrigated agriculture.

AB - Population growth and intense consumptive water uses are generating pressures on water resources in the southeast of Spain. Improving the knowledge of the climate change impacts on water cycle processes at the basin scale is a step to building adaptive capacity. In this work, regional climate model (RCM) ensembles are considered as an input to the hydrological model, for improving the reliability of hydroclimatic projections. To build the RCMs ensembles, the work focuses on probability density function (PDF)-based evaluation of the ability of RCMs to simulate of rainfall and temperature at the basin scale. To improve the spatial calibration of the continuous hydrological model used, an algorithm for remote sensing actual evapotranspiration (AET) retrieval was applied. From the results, a clear decrease in runoff is expected for 2050 in the headwater basin studied. The plausible future scenario of water shortage will produce negative impacts on the regional economy, where the main activity is irrigated agriculture.

KW - Actual evapotranspiration

KW - Climate change impacts

KW - Ensembles

KW - NDVI-land surface temperature space

KW - Rainfall-runoff modelling

KW - Regional climate models

KW - Remote sensing-retrieval

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DO - 10.5194/piahs-368-239-2015

M3 - Conference contribution

AN - SCOPUS:84939551610

T3 - IAHS-AISH Proceedings and Reports

SP - 239

EP - 244

BT - Remote Sensing and GIS for Hydrology and Water Resources

A2 - Chen, Yangbo

A2 - Cluckie, Ian

A2 - Su, Z.

A2 - Neale, Christopher

A2 - Xu, Zongxue

A2 - Zhou, Jianzhong

A2 - Huang, Qiang

PB - Copernicus GmbH

T2 - 3rd Remote Sensing and Hydrology Symposium, RSHS 2014 and the 3rd International Conference of GIS/RS in Hydrology, Water Resources and Environment, ICGRHWE 2014

Y2 - 24 August 2014 through 27 August 2014

ER -

Galiano SGG, Giménez PO, Pérez JÁM, Osorio JDG. Improving evaluation of climate change impacts on the water cycle by remote sensing ET-retrieval. En Chen Y, Cluckie I, Su Z, Neale C, Xu Z, Zhou J, Huang Q, editores, Remote Sensing and GIS for Hydrology and Water Resources. Copernicus GmbH. 2015. p. 239-244. (IAHS-AISH Proceedings and Reports). doi: 10.5194/piahs-368-239-2015

Improving evaluation of climate change impacts on the water cycle by remote sensing ET-retrieval

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