Effects of Land Cover Changes to the Quantity of Water Supply and Hydrologic Cycle using Water Balance Models

Effects of Land Cover Changes to the Quantity of Water Supply and Hydrologic Cycle using Water Balance Models

The hydrologic cycle is a recurring consequence of different forms of movement of water and changes of its physical state on a given area of the earth. The land cover of a certain area is a significant factor affecting the watershed hydrology. This also affects the quantity of water supply within th...

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Main Authors: Caja CC, Ibunes NL, Paril JA, Reyes AR, Nazareno JP, Monjardin CE, Uy FA
Format: Article
Language:English
Published: EDP Sciences 2018-01-01
Series:MATEC Web of Conferences
Online Access:https://doi.org/10.1051/matecconf/201815006004
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spelling doaj-1ce929fcc3174b6bbd01bd1a291e4fc92021-02-02T06:56:11ZengEDP SciencesMATEC Web of Conferences2261-236X2018-01-011500600410.1051/matecconf/201815006004matecconf_mucet2018_06004Effects of Land Cover Changes to the Quantity of Water Supply and Hydrologic Cycle using Water Balance ModelsCaja CCIbunes NLParil JAReyes ARNazareno JPMonjardin CEUy FAThe hydrologic cycle is a recurring consequence of different forms of movement of water and changes of its physical state on a given area of the earth. The land cover of a certain area is a significant factor affecting the watershed hydrology. This also affects the quantity of water supply within the watershed. This study assessed the impacts of the changing land cover of the Ipo watershed, a part of the Angat-Ipo-La Mesa water system which is the main source of Metro Manila’s water supply. The environmental impacts were assessed using the interaction of vegetation cover changes and the output flow rates in Ipo watershed. Using hydrologic modelling system, the hydrological balance using rainfall, vegetation and terrain data of the watershed was simulated. Over the years, there has been a decreasing land cover within the watershed caused mostly by deforestation and other human activities. This significant change in the land cover resulted to extreme increase in water discharge at all streams and rivers in the watershed and the water balance of the area were affected as saturation and shape of the land terrain changes.https://doi.org/10.1051/matecconf/201815006004
collection DOAJ
language English
format Article
sources DOAJ
author Caja CC
Ibunes NL
Paril JA
Reyes AR
Nazareno JP
Monjardin CE
Uy FA
spellingShingle Caja CC
Ibunes NL
Paril JA
Reyes AR
Nazareno JP
Monjardin CE
Uy FA
Effects of Land Cover Changes to the Quantity of Water Supply and Hydrologic Cycle using Water Balance Models
MATEC Web of Conferences
author_facet Caja CC
Ibunes NL
Paril JA
Reyes AR
Nazareno JP
Monjardin CE
Uy FA
author_sort Caja CC
title Effects of Land Cover Changes to the Quantity of Water Supply and Hydrologic Cycle using Water Balance Models
title_short Effects of Land Cover Changes to the Quantity of Water Supply and Hydrologic Cycle using Water Balance Models
title_full Effects of Land Cover Changes to the Quantity of Water Supply and Hydrologic Cycle using Water Balance Models
title_fullStr Effects of Land Cover Changes to the Quantity of Water Supply and Hydrologic Cycle using Water Balance Models
title_full_unstemmed Effects of Land Cover Changes to the Quantity of Water Supply and Hydrologic Cycle using Water Balance Models
title_sort effects of land cover changes to the quantity of water supply and hydrologic cycle using water balance models
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2018-01-01
description The hydrologic cycle is a recurring consequence of different forms of movement of water and changes of its physical state on a given area of the earth. The land cover of a certain area is a significant factor affecting the watershed hydrology. This also affects the quantity of water supply within the watershed. This study assessed the impacts of the changing land cover of the Ipo watershed, a part of the Angat-Ipo-La Mesa water system which is the main source of Metro Manila’s water supply. The environmental impacts were assessed using the interaction of vegetation cover changes and the output flow rates in Ipo watershed. Using hydrologic modelling system, the hydrological balance using rainfall, vegetation and terrain data of the watershed was simulated. Over the years, there has been a decreasing land cover within the watershed caused mostly by deforestation and other human activities. This significant change in the land cover resulted to extreme increase in water discharge at all streams and rivers in the watershed and the water balance of the area were affected as saturation and shape of the land terrain changes.
url https://doi.org/10.1051/matecconf/201815006004
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AT ibunesnl effectsoflandcoverchangestothequantityofwatersupplyandhydrologiccycleusingwaterbalancemodels
AT parilja effectsoflandcoverchangestothequantityofwatersupplyandhydrologiccycleusingwaterbalancemodels
AT reyesar effectsoflandcoverchangestothequantityofwatersupplyandhydrologiccycleusingwaterbalancemodels
AT nazarenojp effectsoflandcoverchangestothequantityofwatersupplyandhydrologiccycleusingwaterbalancemodels
AT monjardince effectsoflandcoverchangestothequantityofwatersupplyandhydrologiccycleusingwaterbalancemodels
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