COASTAL CHARACTERISTICS OF IRON SAND DEPOSITS IN INDONESIA

Authors

  • HANANTO KURNIO Marine Geological Institute of Indonesia (MGI/PPPGL)

DOI:

https://doi.org/10.30556/imj.Vol10.No3.2007.611

Keywords:

Coast, characteristic, iron sand, marine environment

Abstract

Coastal features of Indonesia are controlled by the geology and geomorphology of the hinterland and the bordering adjacent marine environments. Tectonic instability manifested as frequent earthquakes combined with volcanic eruptions and sea level changes also affect Indonesian coastline. Unstable air and heavy rainfall zone known as intertropical convergence zone (ITC) which migrates to the north and south of the equator together with orographic factor of mountain ranges in Sumatra, Java and Nusatenggara are also controlling coastal landforms. Large sediment quantities resulted from a com- bination of deeply weathered rock in steep elevated hinterlands and frequent heavy rainfall are trans- ported to the coast and built extensive deltas and broad coastal plains. Iron sands in Sumatra, Java, Bali and Nusatenggara Islands are largely derived from denudation of andesite and old andesite forma- tion enriched in magnetite and ilmenite minerals. In certain cases periodic eruptions of active volca- noes supply fluvial sand to maintain the prograding shoreline. Wave regime in Indonesian coastal waters resulted from strong swells of Indian Ocean in the south and Pacific Ocean in the northeast has much influence various coastal features. Coastal zones especially the southern parts of the Neogene Sunda Banda magmatic arc are the area of potential and producing iron sand deposits which extend from northern Sumatra to eastern Indonesia. Beach sediments enriched in magnetic minerals of such coastal zones are typically black or grey. The iron sand deposits have been mined either by state company or by local people. Small scale mining helps to improve the economy of the commu- nity. Application of regulations and good guidances of these artisanal minings will not destructive to the natural environments.

References

Bijaksana, I. Rusyanti, M. I. T. Taib, L. A. Pasasa

& A. S. Andreas, 2005. The Use of GPR in Delineating an Iron Sand Boundary and the Determination of Its Electromagnetic Wave Velo city: A Case Study in Jepara, Central Java. Proc. ITB Eng & Science Vol. 37 B, No. 2, 2005, 77-90.

Herman, D.Z., 2005. Kegiatan pemantauan dan evaluasi konservasi sumber daya mineral daerah Kabupaten Cilacap, Provinsi Jawa Tengah. Kolokium Hasil Lapangan Direktorat Inventarisasi Mineral.

Kurnio, H., Schwarz-Schampera, U., and Wiedicke-Hombach, M., 2005. Hydrothermal Alteration and Mineralization on Tabuan Is-

land, Semangko Bay, South Sumatra, Indo- nesia. BGR (Bundesanstalt für Geowissen- schaften und Rohstoffe). In press.

Kurnio, H., 2006. Coastal characteristics of Iron Sand deposits in Cilacap, Central Java. IAGI Annual Meeting, 21-22 November 2006, Pekanbaru-Riau.

Situmorang, M., 1983. Penelitian Pantai dan Proses Sedimentasi Kuarter Daerah Pantai Cilacap Jawa Tengah. Annual Indonesian Geo- logical Association XIIth (IAGI) December 6- 7th 1983 Yogyakarta.

Widodo, W., 2003. Inventarisasi Bahan Galian Logam Di Kab. Malang Dan Kab. Lumajang Dan Eksplorasi Lanjutan Mineralisasi Logam Di Daerah Tempursari (Kab. Lumajang), Seweden (Kab. Blitar) Dan Suren Lor (Kab. Trenggalek), Prov. Jawa Timur. Kolokium Hasil Kegiatan Inventarisasi Sumber Daya Mineral

– DIM, TA. 2003.

www.antam.com (internet on-line). www.fao.org (internet on-line). www.unu.edu (internet on-line).

www.pikiran-rakyat.com, Friday October 22nd 2004 (in Indonesian).

www.pikiran-rakyat.com, Thursday, November 11th 2004 (in Indonesian).

www.pikiran-rakyat.com, Monday, April 25th 2005 (in Indonesian).

www.suaramerdeka.com; Tuesday September 9th 2003 (in Indonesian).

www.suaramerdeka.com, Tuesday, september 21st 2004 (in Indonesian).

www.suaramerdeka.com, Wednesday, September 22nd 2004 (in Indonesian).

Yulianto, A., 2003. Comparative Study on Mag- netic Characterization of Iron Sand from Sev- eral Locations in Central Java. Indonesian Journal of Physics: Kontribusi Fisika Indone- sia Vol. 14 No.2, April 2003.

Downloads

Issue

Vol. 10 No. 3 (2007): INDONESIAN MINING JOURNAL Vol. 10 No. 3 October 2007

Section

ARTICLE

License

Indonesian Mining Journal provides immediate open access to its content on the principle that making research freely available to the public to supports a greater global exchange of knowledge.


Creative Commons License
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.