Journal of Water Resource and Protection

Volume 4, Issue 6 (June 2012)

ISSN Print: 1945-3094   ISSN Online: 1945-3108

Google-based Impact Factor: 1.01  Citations  h5-index & Ranking

Modeling the Impact of Land-Use Change on Water Budget of Gaza Strip

HTML  Download Download as PDF (Size: 1226KB)  PP. 325-333  
DOI: 10.4236/jwarp.2012.46036    6,775 Downloads   11,627 Views  Citations

ABSTRACT

Gaza has a water crisis and faces serious challenges for the future sustainability of its water resources. Land-use change has an expected effect on water budget of the Gaza Strip. Three different land cover scenarios; the and cover of 2007, land cover of 2020, and full urbanization land cover were simulated independently using The Automated Geospatial Watershed Assessment (AGWA) tool which work under the umbrella of GIS. In general, the simulation results indicate that land-cover changes will significantly alter the hydrologic response of Gaza region. Percolation is expected to decrease in all options as urban areas are expanded where as the simulated surface runoff reflected a relative departure from the first scenario comparing with other scenarios. In the baseline scenario (2007), the simulated surface runoff and percolation represent 12% and 41% respectively from the water budget components of the Gaza Strip. In year 2020, these values were expected by the simulation results to be 20% and 27% respectively. A unique linear relationship between the relative change in urban area and the corresponding relative change in surface water has been investigated from the simulation results. The analysis of the three urbanization scenarios can give decision makers better understand for the future situation and assist them to advance towards achieving sustainable development planning for water resources system in the Gaza Strip.

Share and Cite:

T. Hamad, J. , A. Eshtawi, T. , M. Abushaban, A. and O. Habboub, M. (2012) Modeling the Impact of Land-Use Change on Water Budget of Gaza Strip. Journal of Water Resource and Protection, 4, 325-333. doi: 10.4236/jwarp.2012.46036.

Cited by

[1] Recharge-discharge relations of Gaza coastal aquifer between the land and Mediterranean Sea
2022
[2] Geo-spatial Assessment of Flood Vulnerability Areas of the Gaza Strip Towards Preparedness and Humanitarian Response Planning
International Journal of …, 2021
[3] Modeling Eco-Hydrology Indicators for Water Resources Assessment in Eastern Sudan
International Journal of Earth …, 2021
[4] A comparative study of the estimation methods for NRCS curve number of natural arid basins and the impact on flash flood predications
2021
[5] Effects of urbanization on groundwater level in aquifers of Binh Duong Province, Vietnam
2021
[6] A hydrochemical and remote sensing approach to decrypt the groundwater salinization in the coastal district of Sabarmati basin, Gujarat
Groundwater for Sustainable Development, 2021
[7] GIS based water balance components estimation in northern Ethiopia catchment
2020
[8] Evolution of runoff and groundwater recharge in the Gaza Strip over the last four decades
2019
[9] Quantification of Recharge and Runoff from Rainfall Using New GIS Tool: Example of the Gaza Strip Aquifer
2019
[10] Appendix A-Modeling Urban Hydrology and Green Infrastructure Using the AGWA Urban Tool and the KINEROS2 Model
2019
[11] Modeling Urban Hydrology and Green Infrastructure using the AGWA Urban Tool and the KINEROS2 Model
2018
[12] A simplified GIS-based SCS-CN method for the assessment of land-use change on runoff
Arabian Journal of Geosciences, 2018
[13] Modeling of built-up lands expansion in Gaza Strip, Palestine using Landsat data and CA-Markov model
IOP Conference Series: Earth and Environmental Science, 2018
[14] Analysis and Modelling of Groundwater Salinity Dynamics in the Gaza strip
Cuadernos geográficos de la Universidad de Granada, 2018
[15] Análisis y modelización de la salinidad del agua subterránea en la Franja de Gaza
2018
[16] Groundwater quality impacted by land use/land cover change in a semiarid region of Mexico
Groundwater for Sustainable Development, 2017
[17] Valoración de la respuesta hidrológica de la cuenca del Río San Miguel, Sonora a tres productos de precipitación
2016
[18] Study of Streamflow Response to Land use Land cover Change in the Nethravathi River Basin, India
2016
[19] Integrated hydrologic modeling as a key for sustainable development planning of urban water resources in the semi-arid watersheds of the Gaza Strip
2015
[20] Quantifying the impact of urban area expansion on groundwater recharge and surface runoff
Hydrological Sciences Journal, 2014
[21] A simulation/optimization study to assess seawater intrusion management strategies for the Gaza Strip coastal aquifer (Palestine)
Hydrogeology Journal, 2014
[22] Trading off food security and environmental impacts: the water footprint of food production in the Gaza strip. Compromesso tra sicurezza alimentare e impatti ambientali: calcolo della water footprint della produzione di cibo nella striscia di Gaza
2013
[23] Water quality criteria for water bodies in urban areas and accompanying changes in surrounding and in-situ vegetation: considerations from the landscape …
2013
[24] Water Quality Criteria for Water Bodies in Urban Areas and Accompanying Changes in Surrounding and In-Situ Vegetation: Considerations from the …
2013
[25] Water quality criteria for water bodies in urban areas and accompanying changes in surrounding and in-situ vegetation: considerations from the landscape aspect of planning water recreational areas
2013
[26] Environmental impact assessment of land use due to the change of water resources potential in urban watershed: a review
2013
[27] Trading off food security and environmental impacts: the water footprint of food production in the Gaza strip. Compromesso tra sicurezza alimentare e impatti …
2013
[28] Statistical Analysis of SCS-CN Curve Number for Improved Estimation of Flash Floods in Arid Regions: Case Study in the Southwest of Saudi Arabia

Journals Menu
Follow SCIRP
Contact us
+1 323-425-8868
customer@scirp.org
WhatsApp +86 18163351462(WhatsApp)
Click here to send a message to me 1655362766
Paper Publishing WeChat

Copyright © 2024 by authors and Scientific Research Publishing Inc.

Creative Commons License

This work and the related PDF file are licensed under a Creative Commons Attribution 4.0 International License.