Distribution of Water Infiltration Rate in Ciliwung Watershed

Irfan Budi Pramono(1*)

(1) Watershed Management Technology Center
(*) Corresponding Author

Abstract

Floods in Jakarta showed that the Ciliwung watershed and surrounding areas in critical condition. More than 50 % of land cover Ciliwung watershed is residential. Planting trees in residential areas have been insufficient to infiltrate as much water into the ground. Infiltration well is one possibility for absorbing water in residential areas. The purpose of this study was to determine the variation in the level of water absorption Ciliwung watershed and surrounding areas. The method used is overlaying analysis of the factors that determine the rate of water infiltration with geographic information system. Each of these factors gave weights and scores to obtained variations Ciliwung water infiltration rate. The results showed that the regions with the highest levels found in the upper catchment area and the city of Bogor, middle absorbtion water area was in Bogor Regency, low water absorption areas in Depok , South Jakarta , and East Jakarta . While in North Jakarta, Central Jakarta and West Jakarta the water absortion is very low level due to the shallow ground water level and very low soil permeability. Map variations in water absorption can be used as a material consideration for determining the locations of recharge wells effectively.

Keywords

Flood; recharge area; infiltration wells

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References

Anonim. (2013). Ahok : Hibah Rp. 5 milyar ke Bogor mungkin kurang. KoranTempo 30 Oktober 2013.

Boggs, J.L. & Sun, G.(2011). Urbanization alters watershed hydrology in the Piedmont of North Carolina. Ecohydrology 4: 256-264

Chachadi, A.G. 2015. New indicators based method SALDIT for delineation of natural groundwater recharge area. Aquatic Procedia 4: 649-659 on International Conference on Water Resources, Coastal, and Ocean Engineering.

Delinom, R.M. (2010). Geology and hydrogeology of Ciliwung watershed in integrated watershed management for sustainable water use in a humid tropic tropical region. Bulletin of the Terrestrial Environment Research University of Tsukuba 10 (Supplement No.1): 27-34.

Dewi, I.K. (2011). Faktor-faktor yang berpengaruh terhadap keberlanjutan kawasan pemukiman di DAS Ciliwung Hulu, Kabupaten Bogor. J.Ekologia 11(1): 12-20.

Dewi, N.K. & Rudiarto, I. (2014). Pengaruh konversi lahan terhadap kondisi lingkungan di wilayah Peri-urban Kota Semarang (Studi kasus: Area berkembang Kecamatan Gunungpati). J. Pengembangan Wilayah dan Kota 10 (2): 115-126.

Effendi, A.C., Kusnawa & Hermanto, B. (1998). Peta geologi daerah Bogor, Jawa, Indonesia. Puslitbang Geologi Bandung, Indonesia

Fakhrudin, M. (2010). Kajian sumur resapan sebagai pengendali banjir dan kekeringan di Jabodetabek. J.Limnotek 17 (1) : 8-16. Limnologi LIPI.

Fatimah, I.S., Munandar, A. Sinukaban, N. & Kolil. (2011). Aplikasi program analisis Citygreen 5.4 untuk kajian ruang terbuka hijau (RTH) dan manfaat layanan tertentu ekosistem Kota Bogor. Ekologia 11 (1): 1-11.

Harisuseno, D., Bisri, M., Yudono, A. & Purnamasari, F.D. (2014). Analisa spasial limpasan permukaan menggunakan model hidrologi di wilayah perkotaan. J. Environmental Engineering & Sustainable Technology 1 (1): 51-57

Healy, R.W. & P.G.Cook.2002. Using groundwater levels to estimate recharge. Hydrogeology Journal 10 (1): 91-109

Joga, N. (2009). Ekspedisi Ciliwung. Laporan Jurnalistis Kompas. Mata Air. Air Mata.Gramedia.

Jumadi, J., Priyana, Y., 2015. Development and Evaluation of Web GIS Application for Groundwater Management of Karanganyar Regency. Forum Geografi 29, 165–174.

Kaliraj, S., N.Chandrasekar, N.S. Magesh.2014. Identification of potential groundwater recharge zones in Vaigai upper basin, Tamil Nadu, using GIS-based analytical hierarchical processes (AHP) technique. Arab J. Geosciences 7 (4): 1385-1401

Pancawati, J. (2013). Ketersediaan lahan resapan air di Kota Tangerang. J. Ilmu Pertanian dan Perikanan 2 (1) : 11-18. Univ. Sultan Ageng Tirtayasa, Serang, Banten.

Pawitan, H. (2002). Hidrologi DAS Ciliwung dan andilnya terhadap banjir di Jakarta. Makalah disajikan dalam Lokakarya Pendekatan DAS dalam menanggulangi banjir Jakata, diselenggarakan oleh Lembaga Penelitian IPB bekerjasama dengan Andersen Consult, Jakarta, 8 Mei 2002.

Pramono, I.B. (2013). Cara alami atasi banjir Jakarta. Republika online 22 Januari 2013.

Pramono, I.B., Paimin, Basuki, T.M. & Purwanto (2013). Kajian Aplikasi “Tipologi DAS” dalam Pengembangan sistem perencanaan pengelolaan DAS lintas propinsi. Laporan Hasil Penelitian BPTKPDAS Surakarta.

Preeja, K.R., S. Joseph, J.Thomas, H. Vijith.2011. Identification of groundwater potential zones of Tropical river basin (Kerala, India) using Remote Sensing and GIS techniques. J.Indian Soc.Remote Sensing 39 (1):83-94

Purnama, S., A Kurniawan, Sudaryatno. 2006. Model konservasi air tanah di daerah pantai Kota Semarang. Forum Geografi 20 (2): 160-174.

Rahmat A.R. & Pamungkas, A. (2014). Faktor-faktor kerentaan yang berpengaruh terhadap bencana banjir di Kecamatan Manggala Kota Makassar. J. Tehnik Ponits 3(2): 178-183

Ratnaningsih, M. (2013). Analisis dampak kerugian banjir di Jakarta. Diskusi Panel: Membumikan upaya mengatasi banjir Jakarta secara holistic dan terintegrasi. Yayasan Sarana Wana Jaya dan Ditjen BPDAS& PS. Jakarta: 7 Mei 2013.

Samsuhadi. (2009). Pemanfaatan air tanah Jakarta. JAI. 5 (1): 9-22. Badan Pengkajian Penerapan Teknologi, Jakarta.

Subagyono, K. & Pawitan, H. (2008). Water harvesting techniques for sustainable water resources management in the catchment area. Proceedings of International workshop on integrated watershed management for sustainable water use in a Humid Tropical Region. Bull. Univ. Tsukuba 8 (Supplement No. 2): 18-30.

Thomas, B.F., A.Behrangi, and J.S. Famigilietti. 2008. Precipitation intensity effects on groundwater recharge in the Southwestern United States. Water 8 (90):1-15

Wibowo, M. (2006). Model penentuan kawasan resapan air untuk perencanaan tata ruang berwawasan lingkungan. J. Hidrosfir 1(1): 1-7. Badan Pengkajian dan Penerapan Teknologi, Jakarta.

Yeh, H.F., Y.S. Cheng, H.I. Lin, and C.H.Lee. 2016. Mapping groundwater recharge potential zone using a GIS approach in Hualian river, Taiwan. Sustainable Environment Research 26 (1): 33-43.

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