Airtanah bebas merupakan salah satu sumber air bersih bagi penduduk di Kabupaten Bandung bagian selatan. Pemanfaatannya dilakukan dengan cara membuat sumur gali maupun sumur pantek. Lokasi sumur-sumur tersebut berdekatan dengan sumber pencemar domestik dan pertanian sehingga rentan terkontaminasi. Pencemar yang dapat timbul pada air sumur akibat limbah domestik adalah solid, ammonium, dan bakteri coliform. Sementara, pencemar nitrat umumnya bersumber dari kegiatan pertanian. Untuk mengetahui pencemaran airtanah di lokasi penelitian, dilakukan analisis kimia air dan kandungan bakteri coliform, pada 21 conto air dari sumur gali di Kabupaten Bandung bagian selatan. Pemilihan lokasi berdasarkan pada hasil pemantauan kepadatan pemukiman menggunakan citra satelit pada aplikasi Google Earth, kemudian selanjutnya disesuaikan dengan kondisi lapangan di wilayah penelitian. Hasil analisis menunjukkan telah terjadinya pencemaran solid, nitrat, ammonium, dan coliform di beberapa titik. Hasil pemantauan lapangan memperkirakan nitrat berasal dari kegiatan pertanian, sedangkan solid, ammonium, dan coliform berasal dari limbah domestik. Pergerakan pencemar sampai ke airtanah ini didukung oleh pola aliran airtanah di lokasi tersebut.

Unconfined groundwater is the source of clean water to residents in the southern part of Bandung Regency. The need of water is fulfilled through shallow drilling of wells and panteks. The locations of the wells are close to domestic and agricultural pollution sources, so they are vulnerable to get contaminated. Pollutants that may arise in wells water due to domestic waste are solid, ammonium, and coliform bacteria. While, nitrate are generally derived from agricultural activities. To determine the contamination of groundwater at the study area, chemical analysis and coliform bacteria were conducted from 21 wells in southern part of Bandung Regency. The dug well locations were chosen based on the results of monitoring the residential density based on satellite images from the Google Earth application and adjusted to the field conditions in area of research. The result of analysis showed that contamination of solid, nitrate, ammonium, and coliform had occurred at some points. Result of field monitoring estimated that nitrate had derived from agricultural activities, while solid, ammonium, and coliform came from domestic waste. The movement of contaminants to groundwater was supported by the groundwaterflow pattern at the location.

Alhajjar, B.J., Harkin, J.M., Cliver, D.O dan Stramer, S.L.,1987. Biological Tracers of Pollution Plumes from Septic Systems.Proceedings of The Fourth Annual Eastern Regional Groundwater Conference, Burlington, VT, July 14-16 (1987). P 247-277. National Water Well Association. Dublin, Ireland.

Bitton, G.,2005. Wastewater Microbiology. 3rd Edition. John Wiley and Sons, New Jersey, USA.

BLH Kabupaten Bandung.,2011. Status Lingkungan Hidup Kabupaten Bandung. Kabupaten Bandung. Indonesia.

BPS Kab. Bandung, 2013. Penduduk dan Tenaga Kerja KBDA 2013. Kabupaten Bandung, Indonesia. Diunduh di http://bandungkab.bps.go.id/subyek/penduduk-dan-tenaga-kerja-kbda-2013. Diakses: Juni 2015.

BPS Provinsi Jawa Barat, 2014. Jawa Barat dalam Angka. Indonesia. Diunduh di http://jabar.bps.go.id/publikasi/jawa-barat-dalam-angka-2014. Diakses Januari 2015.

Burkart, M.R.., dan Jeffrey D.S., 2001. Nitrogen in The Environment: Sources, Problems and Management. Chapter 6 Nitrogen in Groundwater Associated with Agricultural Systems. Elsevier .

Coleman, B.L., Louie, M., Salvadori, M.I., McEwen, S.A., Neumann, N., Sibley, K., Irwini, R.J., Jamieson, FB., Daignault, D., Majury, A., Braithwaite, S., Crago, B., dan McGeer.A.J., 2013. Contamination of Canadian Private Drinking Water Sources with Antimicrobial Resistant Escherichia Coli. Scieverse Science Direct. Water Research, 47, 3026 – 3036.

DOI: 10.1016/j.watres.2013.03.008

Delinom, R. M., 2011. The proposed groundwater management for Greater Jakarta Area, Indonesia., Grounwater and Subsurface Environments. Springer Tokyo Dordrecht Heidelberg London New York. p. 113-125. DOI: 10.1007/978-4-431-53904-9_6

Effendi, H., 2003. Telaah Kualitas Air. Kanisius. Yogyakarta. 258 hal.

Harvey, R.W., 1997. Microorganism as Tracers in Groundwater Injection and Recovery Experiments: A Review. Elsevier. FEMS Microbiology Reviews, 20, 461-472.

DOI: 10.1111/j.1574-6976.1997.tb00330.x

Kirchmann, H. dan Petterson, S., 1995. Human Urine – Chemical Composition and Fertilizer Use Efficiency. Journal Fertilizer Research, 40(2), 149-154. DOI: 10.1007/BF00750100

Lindenbaum, J., 2012. Identification of Sources of Ammonium in Groundwater using Stable Nitrogen and Boron Isotopes in Nam Du, Hanoi. Dissertation. Departement of Geology. Lund University. Scandinavia .

Megha, P. U., Kavya, P., Murugan, S., Harikumar, P. S., 2015, Sanitation Mapping of Groundwater Contamination in a Rural Village of India, Journal of Environmental Protection, 34-44 pp.

DOI: 10.4236/jep.2015.61005.

Menteri Kesehatan.,1990. Peraturan Menteri Kesehatan RI Nomor 416 Tahun 1990 tentang Syarat- syarat dan Pengawasan Kualitas Air. Lampiran II. Jakarta, Indonesia.

Murphy, S.. 2007. General Information on Solids. USGS Water Monitoring. Ada di http://bcn.boulder.co.us/basin/data/BACT/info/TSS.html. Diakses: November 2013.

Narulita, I., Rachmat, A., dan Maria, R., 2008. Aplikasi Sistem Informasi Geografi untuk Menentukan Daerah Prioritas Rehabilitasi di Cekungan Bandung. Jurnal Riset Geologi dan Pertambangan, 18(1), 23-35. DOI: 10.14203/risetgeotam2008.v18.9

New York State Department of Health., 2011. Coliform Bacteria in Drinking Water Supplies. Diunduh di http://www.health .ny.gov/environmental/water/drinking/coliform_bacteria.html. Diakses: Desember 2012.

Onodera, S., 2011, Subsurface pollution in Asean Megacities, Grounwater and Subsurface Environments. Springer Tokyo Dordrecht Heidelberg London New York. 159-184 pp.

DOI: 10.1007/978-4-431-53904-9_9

Onodera, S., Saito, M., Sawano, M., Hosono, T., Taniguchi, M., Shimada, J., Umezawa, Y., Lubis, R. F., Buapeng, S., dan Delinom, R., 2009, Erratum to “Effects of intensive urbanization on the intrusion of shallow groundwater into deep groundwater: Examples from Bangkok and Jakarta”, Science of the Total Environment 407, 3209–3217PP. DOI: 10.1016/j.scitotenv.2009.01.049

Peavy, H.S., Rowe, D., dan Tchobanoglous, G.,1985. Environmental Engineering. McGraw-Hill International Editions Civil Engineering Series, Singapore.

Pemerintah Kab. Bandung., 2012. Peta dan Topografi. Kabupaten Bandung, Indonesia . Diunduh di http://www.bandungkab.go.id /arsip/19/peta-dan-topografi. Diakses: Juni 2015.

Pemerintah Republik Indonesia.,2001. Peraturan Pemerintah Republik Indonesia Nomor 82 tahun 2001 tentang Pengelolaan Kualitas Air danPengendalian Pencemar Air. Jakarta, Indonesia.

PERPAMSI, 2012. PDAM Kabupaten Bandung. Kabupaten Bandung, Indonesia. Diunduh di http://perpamsi .or.id/pdam-members/read/117/pdam-kabbandung-tirta-raharja.html. Diakses Desember 2012.

Sawyer, C.N., McCarty, P.L., dan Parkin, G.F.,1994. Chemistry for Enviromental Engineering. McGraw-Hill International Editions Civil Engineering Series, Singapore. 658 pp.

Stumm, W. dan Morgan, J.J.,1981. Aquatic Chemistry an Introduction Emphasizing Chemical Equilibria in Natural Waters second edition, John Wiley and Sons, Canada. 780 pp.

Sudaryanto, dan Suherman, D., 2008. Degradasi Kualitas Airtanah Berdasarkan Kandungan Nitrat di Cekungan Jakarta, Jurnal Riset Geologi dan Pertambangan, Vol 18 (2), 61-68. DOI:10.1420/risetgeotam2008.v18.17

Tang, C., Azuma, K., Iwami, Y., 2004. Nitrate Behaviour in the Groundwater of Headwater Wetland, Chiba, Japan. Hidrological Processes, Published online Wiley InterScience. DOI: 10.1002/hyp.5755

Undang-undang Presiden Republik Indonesia.,1960. Undang-undang Nomor 56 PRP Tahun 1960 tentang Penetapan Luas Tanah Pertanian. Jakarta, Indonesia

WHO.,1996. Guidelines for Drinking – Water Quality : Health Criteria and Other Supportin Information. 2nd ed. Vol. 2.World Health Organization, Geneva.