Using (GIS/RS) Technology to Determine Suitable Sites to Construct Hafa'aer (RWH) in the City of Sabouraa - Hama Governorate

References 1- Abdulla, F. A., AL-shareef, A. (2009). Roof rainwater harvesting systems for household water supply in Jordan. Scince Direct Desalination 243(1) Water Resources and Environmental Engineering Program, Civil Engineering Department, Jordan University of Science pages 195-207. 2- Adham, A. Sayl, K. N. Abed, R. Abdeladhim, M. A. Wesseling, J. G. Riksen, M. Fleskens, L. Karim, U. Ritsema, C. J. (2018). A GIS-based approach for identifying potential sites for harvesting rainwater in the Western Desert of Iraq. International Soil and Water Conservation Research pages:297-304. 3- Agarwal, A. Bali, R., (2008). Delineation of potential sites for water harvesting structures using remote sensing and GIS. Journal of the Indian Society of Remote Sensing, 36(4) pages: 323-334. 4- Akintorinwa, O.J.; Okoro, O.V. (2019) Combine electrical resistivity method and multi-criteria GIS-based modeling for landfill site selection in the Southwestern. Nigeria. Environ. Earth Sci. 2019, 78, 162. 5- Al Rayani, A. Abdulrahman, A., Ekhmaj, A. (2019) Analysis of surface Runoff for Some Wadi Basinsin Northwest Libya. THE LIBYAN JOURNAL OF AGRICULTURE Volume (24), No. (1), page: 18-37. Libya: Tripols 6- Arnold, P. C, A. (1986). Rainwater Harvesting: The collection of rainfall and run-off in rural areas. London: Intermediate Technology Publications. City: London 7- Bakir, M. and Xingnan, Z. (2008) Gis and Remote Sensing Applications For Rain Water Harvisting in The Syrian Desert (Al-Badea). Research gate. 4/6/2021 Link: https://www.researchgate.net/publication/229035679 8- Dai, X. (2016). Dam sits selection using an integrated method of AHP and GIS for decision making support in Bortala, Northest China. Chaina Lund Univarsity Department of Physical Geography and Ecosystem Sciense. pages: 68 9- Drobne, S., and Lisec, A. (2009). Multi-attribute Decision Analysis in GIS: Weighted Linear Combination and Ordered Weighted Averaging. Slovenia: University of Ljubljana, Faculty of Civil and Geodetic Engineering. 10- El-Hassan, R. and Hamal, O. and Idris, Y. (2020) Use of remote sensing and geographic information systems in mapping Soil- physiography and land use of selected area of Hasakah. J. Saudi S oc. for Agric. Sci., Vol. 18, No. 1a; 2019 pages: 95-10611- ESRI, (1991). Arc GIS is one of the most popular GIS software and is a product of the US company ESRI 12- Evenari, M. Shana, L. Tadmor, N.H., (1971). The Neger, the challenges of a desert., Havard University Press, Cambridge, Mass. pages:118 13- FAO, 2003. Land and Water Digital Media Series, 26. Training Course on RWH (CDROM). Planning of Water Harvesting Schemes, Unit 22. Food and Agriculture Organization of the United Nations, Rome, FAO. 14- FAO, 2014. Compendium on Rainwater Harvesting for Agriculture in the Caribbean Sub-region. Rome. Number of pages: 72. 15- Forzieri, G., Gardenti, M., Caparrini, F., Castelli, F. (2008). Amethodology for the pre-selection of suitable site for surface and underground small dams in arid areas: A case study in the region of Kida, Mali. Physics and Chemistry of the Earth, Parts A/B/C, 33(1), pages: 74–85. 16- Fox, D.M. Bryan, R.B. Price, A.G. (1997) The influence of slope angle on final infiltration rate for interrill conditions. Geoderma, pages :181–194. 17- Gavit, B. K. Purohit R. C, Singh P. K, Kothari, M. Jain H. K (2019.). Rainwater Harvesting Structure Site Suitability Using Remote Sensing and GIS. https://www.researchgate.net/publication/322638580 24/4/2019 pages: 331–341. 18- Hashim, H, Q. and Sayl, K, N (2020) Detection of suitable sites for rainwater harvesting planning in an arid region using geographic information system. Società Italiana di Fotogrammetria e Topografia (SIFET) accessed :2020/1/25 link: https://doi.org/10.1007/s12518-020-00342-3 19- Hatibu, N. and H. Mahoo, 1999. Rainwater harvesting technologies for agricultural production Conservation tillage with animal traction Dodoma, Tanzania pages :161-171. 20- Ibrahim, G. F. Rasul, A. Hamid, A. A. Ali, Z. A (2019). Suitable Site Selection for Rainwater Harvesting and Storage Case Study Using Dohuk Governorate Water 2019, https://dx.doi.org/10.3390/w11040864 17 March 2019. 21- ICRAF (2007). Mapping the Potential of Rainwater Harvesting Technologies in Africa, A GIS overview and atlas of development domains for the continent and tenselected countries, ICRAF and UNEPk pages: 120 22- ICRAF, 2005. Potential for Rainwater Harvesting in Africa.A GIS overview, ICRAF and UNEP.23- Jabri, B. Hessane, M. (2020). Production of a Curve Number map using GIS Techniques in the watershed of the high Sebou (Morocco) 13/6/2022 link: 10.1051/e3sconf/202015003003. 24- Khudhair, M, A. and Sayl, K, N. and Darama, Y. (2020) Locating Site Selection for Rainwater Harvesting Structure using Remote Sensing and GIS. International Conference on Sustainable Engineering Techniques (ICSET 2020): USA, Florida . 25- Mbilinyi, B. and Tumbo, S. and Mahoo, H. and Mkiramwinyi, F. (2007). GIS-Based decision Support System for Identifying Potential Sites for Rainwater Harvesting Physics and Chemistry of the Earth 32 (2007). Morogoro, Tanzania Sokoine University of Agriculture. page: 1074–1081 26- Mbilinyi, B., and Tumbo, H. F. (2013). GIS-Based decision Support System for Identifying Potential Sites for Rainwater Harvesting. Decision Support Systems. Sokoine University of Agriculture. 27- Munoz V, L. E. and McDonnell, J. J, (2013). Land use change effects on runoff generation in a humid tropical montane cloud forest. region www.hydrol-earth-syst-sci.net/17/3543/2013/. 28- Musaoglu, N. Coskun, M. (2004). Investigation of rainfall-runoff modelling of the Van Lake catchment by using remote sensing and GIS integration. ITU, Civil Engineering Faculty, 34469 Maslak Istanbul, Turkey Istanbul. Page:206. 29- Njiru, M, F. Siriba, N, D. (2018). Site Selection for an Earth Dam in Mbeere North, Embu County—Kenya. Journal of Geoscience and Environment Protection. 2018, 6, University of Nairobi, Nairobi, Kenya Pages: 113 -133 30- Oweis, T., Prinz, D. and Hachum, A. 2001. Water Harvesting: Indigenous Knowledge for the Future of the Drier Environments, ICARDA: Aleppo, Syria. 31- Pandey, D.N., Gupta, A.K. en Anderson, D.M. (2003) Rainwater harvesting as an adaptation to climate change. Current Science 85(1), 46-59. 32- Prasad, H C. and Bhalla, p. and Palria, S. (2014). Site Suitability Analysis of Wate Harvesting Structures Using Remote Sensing and GIS – A Case Study of Pisangan Watershed, Ajmer District, Rajasthan. The International Archives of the Photogrammetry.VIII Symposium, 09 – 12 December 2014, India 1471-1482. 33- Prinz, D. Singh, A 2000. POTENTIAL FOR IMPROVEMENTS OF WATER HARVESTING, Institute of Water Resources Management, Hydraulic and Rural Engineering (IWK), University of Karlsruhe / Germany.34- Prinz, D., S. Wolfer. 1999. Traditional techniques of water management to cover future irrigation water demand. Z. f. Bewässerungswirtschaft, 34 (1), 41-60. ISSN 0049-8602. 35- Prinz, D., T. Oweis and A. Oberle. 1998. Rainwater harvesting for dry land agriculture- Developing a methodology based on remote sensing and GIS. Proceedings, XIII International Congress Agricultural Engineering, 02-06.02.1998 ANAFID Rabat Morocco. 36- Raza, S.H. Shafique, M. Zia-Rehman, M. Sikandar, A. Ahmad, N. Shah, K. (2018). Site selection of water storage based on multi-criteria decision analysis. International Journal of Human Capital in Urban Management. (3(4): 265-278, Autumn 2018. 37- Rima, M., and Hanspeter, L. (2013). Water Harvesting Guidelines to Good Practic. 38- Rockström, J. (2000). Water resources management in small holde Water resources management in smallholder farms in east ernand southern Africa: An overview. Physics and Chemistry of the Earth (B) 25 (3), 275–283. 39- Schmidt, E. J., and Schulze, R. E. (1987). Flood volume and peak discharge from small catchments in southern Africa: Based on the SCS technique. Water Research Commission 40- Shatnawi G (2006). Determine the best sites for water harvesting projects (Dams & Hafirs) in Northeastern Badia using GIS applications, Unpublished M.Sc. thesis, Al Al-Bayt University, Jordan. 41- Siegert, C. 1991. Socio-economics of water harvesting. Water Harvesting for Improved Agricultural Production. Expert Consultation, Cairo, Egypt Nov. 1993, FAO, Rome. pages 21-25 42- Singh V.P. (1992), Elementary Hydrology. prentice-Hall, Englewood Cliffs, NewJersey page 973. 43- Singh, P. K. Mishra, S. K Berndtsson, R. Jain, M. K., and Pandey, R. P. (2015). Development of a Modified SMA Based MSCS-CN Model for Runoff Estimation. 44- Tauer, W., G. Humborg. 1992. Runoff irrigation in the Sahel zone. CTA (Technical Centre for Agriculture and Rural Co-operation) Ede/ Wageningen, NL. 45- UN United Nations Decade for Deserts and the Fight against Desertification. Available link: http://www.un.org/en/events/desertification_decade/whynow.shtml (accessed on 15 November 2022).46- USDA. (1986). United States Department of Agriculture - Natural Resource Conservation Service (USDA-NRCS), Urban Hydrology for Small Watersheds TR-55 47- USDA. (2004). Estimation of Direct Runoff from Storm Rainfall, National Engineering Handbook. 48- USDA. (2009). National Engineering Handbook National Engineering Handbook. United States Department of Agriculture. Number of pages: 13 49- Weerasinghe, H., Schneider, U.A., &Loew, A. (2011). Waterharvest-andstorage-location assessment model using GIS and remote sensing. Hydrology and Earth System Sciences Discussions, 8(2), 3353–3381. 50- Winnar, G. Jewitt, G. P. Horan, M. (3 August 2007). A GIS-based approach for identifying potential runoff harvesting sites in the Thukela River basin, South Africa. Physics and Chemistry of the Earth Desalination :32 (2007), University of KwaZulu-Natal, Private Bag South Africa Pages: 1058–1067. 51- Zaunderer, J. and Hutchinson, C.F., 1988. A review of water harvesting techniques of the Arid Southwestern US and North Mexico, working paper for the World Bank’s Sub-Sahara Water Harvesting Study. 52- Ziadat, F. M. Mazahreh, S. S. Oweis, T. Y. and Bruggem, A. (2006). GIS based approach for assessing water harvesting suitability in a Badia benchmark watershed in Jordan. Forteenth International Soil Conservation Organisation Conference: Water Management and Soil Conservation in Semi-Arid Environments. Marrakech, Morocco.