(2023). MEASURING LAND COVER CHANGE DUE TO JEDDAH CITY, SAUDI ARABIA REDEVELOPMENT PROJECT USING GIS, AND REMOTE SENSING TECHNIQUES. The Egyptian Journal of Environmental Change, 15(1), 39-54. doi: 10.21608/ejec.2023.286641
. "MEASURING LAND COVER CHANGE DUE TO JEDDAH CITY, SAUDI ARABIA REDEVELOPMENT PROJECT USING GIS, AND REMOTE SENSING TECHNIQUES". The Egyptian Journal of Environmental Change, 15, 1, 2023, 39-54. doi: 10.21608/ejec.2023.286641
(2023). 'MEASURING LAND COVER CHANGE DUE TO JEDDAH CITY, SAUDI ARABIA REDEVELOPMENT PROJECT USING GIS, AND REMOTE SENSING TECHNIQUES', The Egyptian Journal of Environmental Change, 15(1), pp. 39-54. doi: 10.21608/ejec.2023.286641
MEASURING LAND COVER CHANGE DUE TO JEDDAH CITY, SAUDI ARABIA REDEVELOPMENT PROJECT USING GIS, AND REMOTE SENSING TECHNIQUES. The Egyptian Journal of Environmental Change, 2023; 15(1): 39-54. doi: 10.21608/ejec.2023.286641
MEASURING LAND COVER CHANGE DUE TO JEDDAH CITY, SAUDI ARABIA REDEVELOPMENT PROJECT USING GIS, AND REMOTE SENSING TECHNIQUES
Slums are a significant global problem faced by most countries, especially developing ones. These areas lack the provision of essential services, deteriorating infrastructure, and high crime rates, which generally make slums characterized by a low quality of life. These areas can be seen on the outskirts of cities, which consist of unplanned buildings, and for the most part, are unsafe.
In Saudi Arabia, slums can be seen in many cities, and conceivably the most densely populated slums are found in Mecca city, where they cover nearly half of the total urban area. The demographic characteristics of these areas have been identified as mostly consisting of immigrants. Recently, the Saudi Arabia government, under the leadership of the Custodian of the Two Holy Mosques, King Salman bin Abdulaziz, has tended to develop slum areas. Indeed, the southern neighbourhoods of Jeddah have been emptied and cleared of building residue, which will be the focus of this research paper.
Built-up areas in southern neighbourhoods of Jeddah city have increased with total change from 2000 to 2020 by up to 40% (7.13 km2). From 2020 to 2022, a dramatic decrease has been noted in built-up areas of 28.4 % (8.01 km2), while undeveloped areas increased by about 20.3 km2. This decrease in built-up areas has been seen clearly in slum areas, which confirms the progress of the redevelopment project toward the right path.
Abdu, M.S. & Salagoor, J.Y. & Alharigi, Fahad. (2002). Jeddah urban growth and development process: The underlying factors. Scientific Journal of King Faisal University (Basic and Applied Sciences). 3. 111-136.
Abubakar, Aisha & Romice, Ombretta & Salama, Ashraf. (2017). Defining slums using multidimensional and relational properties: A dynamic framework for intervention. Archnet-IJAR. 11. 34-54. 10.26687/archnet-ijar. v11i2.1261.
Aljoufie, Mohammed. (2021). The Impact Assessment of Increasing Population Density on Jeddah Road Transportation Using Spatial-Temporal Analysis. Sustainability. 13. 1455. 10.3390/su13031455.
Alqurashi, A.F.; Kumar, L.; Sinha, P. (2016). (Urban Land Cover Change Modelling Using Time-Series Satellite Images: A Case Study of Urban Growth in Five Cities of Saudi Arabia. Remote Sens 8, 838. https://doi.org/10.3390/rs8100838
Alqurashi, Abdullah & Kumar, Lalit. (2014). Land Use and Land Cover Change Detection in the Saudi Arabian Desert Cities of Makkah and Al-Taif Using Satellite Data. Advances in Remote Sensing. 3. 106-119. 10.4236/ars.2014.33009.
Arsanjani, J.J.; Helbich, M.; Vaz, E.D.N. (2013) Spatiotemporal simulation of urban growth patterns using agent-based modeling: The case of Tehran. Cities, 32, 33–42.
Difalla, A. (2015), Jeddah’s Slum Areas: The Attempt to Redevelop Al - Nuzla Al -Yamania. Master's thesis, Ball State University Muncie, Indiana.
El-Hames, A. & Alahmadi, Fahad. (2009). Comparison of Four Classification Methods to Extract Land Use and Land Cover from Raw Satellite Images for Some Remote Arid Areas, Kingdom of Saudi Arabia. Journal of King Abdulaziz University-Earth Sciences. Vol. 20. 10.4197/Ear.20-1.9.
Glaeser, E. L. (2013). A World of Cities: The Causes and Consequences of Urbanization in Poorer Countries (Nber Working Paper Series A).
Jarah, S.H.A.; Zhou, B.; Abdullah, R.J.; Lu, Y.; Yu, W. (2019) Urbanization and Urban Sprawl Issues in City Structure: A Case of the Sulaymaniah Iraqi Kurdistan Region. Sustainability, 11, 485. https://doi.org/10.3390/su11020485.
Liu, M.; Tang, C.Y.; Tang, H.R.; Shi, S.N. (2017) The Controlling Effects of on Newly-increased Construction Land Expansion under General Land Use Planning—A Case Study of Guiping City, Guangxi. Guangdong Land Sci., 16, 24–32.
Serra P, Pons X, Saurı´ D (2008) Land-cover and land-use change in a Mediterranean landscape: a spatial analysis of driving forces integrating biophysical and human factors. App Geogr 28:189–209
Shoaib, Muhammad & Rehman, Zaka & Qasim, Muhammad. (2019). Comparison of Maximum Likelihood Classification Before and After Applying Weierstrass Transform.
Sinha, P. and Kumar, L. (2013) Binary Images in Seasonal Land-Cover Change Identification: A Comparative Study in Parts of New South Wales, Australia. International Journal of Remote Sensing, 34, 2162-2186. http://dx.doi.org/10.1080/01431161.2012.742214
United Nations. (2014). Open Working Group proposal for Sustainable Development Goals. Open Working Group of the General Assembly on Sustainable Development Goals. https://doi.org/10.1177/0973408214538584
Xu, H. (2007). "Extraction of urban built-up land features from Landsat imagery using a thematic oriented index combination technique." Photogrammetric Engineering and Remote Sensing73(12): 1381–1391.