Pemetaan bawah permukaan diperlukan sebagai acuan dasar dalam kajian sumberdaya alam di daerah Serang, yang merupakan salah satu daerah dengan pertumbuhan industri dan populasi yang sangat pesat. Sebagai tahap awal dalam kajian regional, survey gayaberat dilakukan untuk memetakan anomali gayaberat di Kota Serang dan sekitarnya. Gayaberat diukur pada 204 titik pengamatan di Kota dan Kabupaten Serang dengan jarak antara titik kurang lebih sejauh 1 km. Dari hasil pengukuran diperoleh peta anomali gayaberat Bouguer yang menunjukkan setidaknya tiga kelompok anomali. Sisi barat (Kota Serang ke selatan) memiliki anomali gayaberat tinggi, sisi timur (Ciruas) memiliki anomali gayaberat rendah, dan sisi utara (hingga kepantai utara) memiliki anomali gayaberat sedang. Pemodelan bawah permukaan berdasarkan data anomali gayaberat tersebut menunjukkan adanya cekungan pada batuan dasar di sekitar Serang dan Tanara, yang diapit oleh  tinggian batuan dasar di sisi barat dan timurnya. Kondisi batuan dasar demikian akan mempengaruhi keberadaan akuifer dan kemungkinan arah aliran airtanah.

Subsurface mapping is required as a basic reference in the study of natural resources in Serang area. The Serang City and County are one of the areas with rapid industrial and population growth. In this preliminary study, a gravity survey was executed to map gravity anomaly of the area. The gravity field was measured at 204 stations in Serang City and County, with approximately 1 km distance between two stations. The result is a Bouguer anomaly gravity map that classified the region into 3 (three) units.  The western part of study area, which includes Serang City to south, has a high gravity anomaly. The eastern part (Ciruas region) has a low gravity anomaly. And the northern part (to the north coast) has a moderate gravity anomaly. Subsurface modeling indicated a presence of shallow basin at the bedrock beneath the east part of Serang, flanked by ridges on the west and the east sides. Such bedrock topography condition would affect the origin of aquifers and possible flow of groundwaters.

Blakely, R.J., 1995. Potential Theory in Gravity and Magnetic Applications. Cambridge University Press, Cambridge, UK. DOI:10.1017/CBO9780511549816

Carmichael, R.S., Henry, G.J., 1977. Gravity exploration for groundwater and bedrock topography in glaciated areas. Geophysics 42, 850–859.

Chandler, V.W., 1994. Gravity Investigation for Potential Groundwater Resources in Rock County, Minnesota. St. Paul.

Frifita, N., Arfaoui, M.S., Zargouni, F., 2016. Relationship between surface and subsurface structures of the northern Atlas foreland of Tunisia deduced from regional gravity analysis. J. Geophys. Eng. 13, 634–645. DOI:10.1088/1742-2132/13/4/634

Hadian, M.S.D., Mardiana, U., Abdurahman, O., Iman, M.I., 2006. Sebaran akuifer dan pola aliran air tanah di Kecamatan Batuceper dan Kecamatan Benda. Indones. J. Geosci. 1, 115–128.

Hinze, W.J., von Frese, R.R.B., Saad, A.H., 2013. Gravity and Magnetic Exploration, 1st ed. Cambridge University Press, Cambridge, UK. DOI:10.1017/CBO9780511843129.

Hirt, C., 2016. Gravity Forward Modeling, in: Grafarend, E. (Ed.), Encyclopedia of Geodesy. Springer International Publishing, pp. 1–5. DOI:10.1007/978-3-319-02370-0_106-1

Husrin, S., Prihantono, J., Sofyan, H., 2014. Impacts of Marine Sand Mining Activities to the Community of Lontar Village , Serang - Banten. Bull. Mar. Geol. 29, 81–90.

Kirsch, R., 2009. Groundwater Geophysics, 2nd ed. Springer, Berlin Heidelberg. DOI:10.1007/978-3-540-88405-7

Lowrie, W., 2007. Fundamentals of Geophysics, second edition. Cambridge University Press, Cambridge, UK. DOI:10.1017/CBO9780511807107

Lumban Batu, U.M., Poedjoprajitno, S., 2012. Quaternary Geological Phenomena in Labuhan Area , Pandeglang Regency , Banten Province Fenomena Geologi Kuarter Daerah Labuhan ,. Indones. J. Geol. 7, 211–226.

Mohr, P.J., Taylor, B.N., Newell, D.B., 2012. CODATA Recommended Values of the Fundamental Physical Constants:2010. J. Phys. Chem. Ref. Data 84, 1527–1605. DOI:10.1063/1.555817.

Murty, B.V.S., Raghavan, V.K., 2002. The gravity method in groundwater exploration in crystalline rocks : a study in the peninsular granitic region of Hyderabad , India. Hydrogeol. J. 10, 307–321. DOI:10.1007/s10040-001-0184-2.

Oruç, B., Sertçelik, I., Kafadar, Ö., Selim, H.H., 2013. Structural interpretation of the Erzurum Basin, eastern Turkey, using curvature gravity gradient tensor and gravity inversion of basement relief. J. Appl. Geophys. 88, 105–113. DOI:10.1016/j.jappgeo.2012.10.006.

Overmeeren, R.A. Van, 1981. A combination of electrical resistivity, seismic refraction, and gravity measurements for groundwater exploration in Sudan. Geophysics 46, 1304–1313.

Panjaitan, S., Subagio, 2015. Prospek Sumber Daya Energi Berdasarkan Analisis Pola Anomali Gaya Berat Di Daerah Biak Dan Sekitarnya, Papua. J. Geol. Kelaut. 13, 87–98.

Popowski, T., Connard, G., French, R., 2009. GMSYS-3D Gravity and magnetic modeling for Oasis montaj. Geosoft Inc., Toronto, Canada.

Rusmana, E., Suwitodirdjo, K., Suharsono, 1991. Geological map of Serang quadrangle. Geological Research and Development Center, Bandung.

Santos, F.A.M., Sultan, S.A., Sorady, A.L. El, 2006. Joint inversion of gravity and geoelectrical data for groundwater and structural investigation : application to the northwestern part of Sinai , Egypt. Geophys. J. Int. 165, 705–718. DOI:10.1111/j.1365-246X.2006.02923.x

Stagpoole, V., Caratori Tontini, F., Barretto, J., Davy, B., Edbrooke, S.W., 2016. Inversion of magnetic and gravity data reveals subsurface igneous bodies in Northland, New Zealand. New Zeal. J. Geol. Geophys. 59, 416–425. DOI:10.1080/00288306.2016.1162178

Talwani, M., Ewing, M., 1960. Rapid Computation of Gravitational Attraction of Three-Dimensional Bodies of Arbitrary Shape XXV, 203–225.

Untung, M., Sato, Y., 1978. Gravity and geological studies in Jawa, Indonesia, Spesial Pu. ed. Direktorat Geologi, Indonesia, Bandung.

Van Bemmelen, R.W., 1949. The Geology of Indonesia. General Geology of Indonesia and Adjacent Archipelagoes.

Van Der Kaars, S., Penny, D., Tibby, J., Fluin, J., Dam, R.A.C., Suparan, P., 2001. Late quaternary palaeoecology, palynology and palaeolimnology of a tropical lowland swamp: Rawa Danau, West-Java, Indonesia. Palaeogeogr. Palaeoclimatol. Palaeoecol. 171, 185–212. DOI:10.1016/S0031-0182(01)00245-0

Yulianto, E., Tsuji, H., Sukapti, W.S., Tanaka, N., 2005. A Holocene pollen and charcoal record from a tropical lowland swamp in Rawa Danau, West Java, Indonesia. Tropics 14, 271–281. DOI:10.3759/tropics.14.271