List Of Geoscience Bibliography International Publication Maros Pangkep Aspiring Geopark (MPAUGGp) South Sulawesi, Indonesia​

  1. Agard, P., Yamato, P., Jolivet, L., Burov, E., 2009. Exhumation of oceanic blueschists and eclogites in subduction zones: timing and mechanisms. Earth-Science Reviews 92, p. 53-79.

  2. Bachri, S., Sidarto, 2013. Tektonik Sulawesi. In: Surono and U. Hartono (eds.) Geologi Sulawesi, LIPI Press, Bandung, p. 303-324. (‘Tectonics of Sulawesi’. Chapter 13 in Geology of Sulawesi book. Brief review of regional tectonics of Sulawesi. No plate reconstruction) 

  3. Baese, R., 2013. Fluid-rock interaction processes during subduction and exhumation of oceanic crust: constraints from jadeitites in serpentinites, eclogite veins in blueschists and tectonic breccias formed during uplift. Doct. Thesis Christian-Albrechts University, Kiel, p. 1-129. (Online at: http://macau.uni- kiel.de/receive/dissertation_diss_00010505) 

  4. Barber, A.J., 1996. Multiple collisions on the southeastern margin of Sundaland: the tectonic evolution of Sulawesi. Warta Geologi (Newsl. Geol. Soc. Malaysia) 22, 4, p. 300-301. (Abstract only) (online at: https://gsmpubl.files.wordpress.com/2014/09/ngsm1996004.pdf) 

  5. Berry, R.F., Grady, A.E., 1987. Mesoscopic structures produced by Plio-Pleistocene wrench faulting in South Sulawesi, Indonesia. Journal of Structural Geology 9, pp. 563–571. 

  6. Böhnke, M., Bröcker M., Maulana A., Klemd R., Berndt J., Baier H., 2019. Geochronology and Zr-inrutile thermometry of high-pressure/low temperature metamorphic rocks from the Bantimala complex, SW Sulawesi, Indonesia Lithos 324–325, pp. 340–355.7. Brouwer, H.A. 1930. The major tectonic features of Celebes. Proc. Kon. Nederl. Akademie Wetenschappen, Amsterdam, 33, 4, p. 338343.

  7. Bucking, H., 1904. Beitrage zur Geologie von Celebes. Sammlungen Geol. Reichs-Museums Leiden, ser. 1, 7, p. 29-205.

  8. Elburg, M., Foden, J., 1999. Geochemical response to varying tectonic settings: an example from Southern Sulawesi (Indonesia). Geochimica et Cosmochimica Acta 63, pp. 1155–1172.

  9. Hall, R., 1996. Reconstructing Cenozoic SE Asia. Geological Society, London, Special Publications 106, pp. 153–184. 

  10. Hall, R., 2002. Cenozoic geological and plate tectonic evolution of SE Asia and the SW Pacific: computer-based reconstructions, model and animations. Journal of Asian Earth Sciences 20, pp. 235–431. 

  11. Haile, N.S., 1974. An unusual unconformity of radiolarian chert on schist and gneiss west of Pangkajene, SW arm, Sulawesi (Celebes). Geol. Soc. Malaysia Newsletter 52, p. 21-22. 

  12. Haile, N.S., 1978. Reconnaissance palaeomagnetic results from Sulawesi, Indonesia, and their bearing on palaeogeographic reconstruction. Tectonophysics 46, p. 77-85. 

  13. Hamilton, W., 1979. Tectonics of the Indonesia Region. USGS Professional Paper 1978, 340 p.

  14. Harahap, B., Maryanto, S., Sunata, W., Sudijono, Sihombing, T., 1999. Stratigrafi Sulawesi Bagian Selatan. Pusat Penelitian dan Pengembangan Geologi, Bandung, Special Report, 94 p. 

  15. Hasan, K., 1991. The Upper Cretaceous flysch succession of the Balangbaru Formation, Southwest  Sulawesi. Proc. 20th Ann. Conv. Indon. Petroleum Assoc. (IPA), Jakarta, p. 183-208. (Summary paper of above thesis on Upper Cretaceous (Turonian-Maastrichtian) Balangbaru Fm ‘flysch’)

  16. Hasan, K., Garrard, R., Mahodim, P., 1991. SW Sulawesi, Post-convention field trip guidebook. Indonesian Petroleum Association (IPA), p. 1-61. 

  17. Hasibuan, F., 2001. Ostrea (Turkostrea) doidoiensis n.sp. From the Middle Eocene of Malawa Formation, South Sulawesi. Proc. 30th Ann. Conv. Indon. Assoc. Geol. (IAGI) and 10th GEOSEA Reg. Congress, Yogyakarta, p. 191-194. 

  18. Hoffmann J., Bröcker M., Setiawan N.I., Klemd R., Berndt J., Maulana A., Baier H., 2019. Age constraints on high-pressure/low-temperature metamorphism and sedimentation in the Luk Ulo Complex (Java, Indonesia) Lithos 324–325, pp. 747–762. 

  19. Jaya, A., 2014. Tectonic evolution of South Sulawesi, Indonesia: reconstructed by analysis of deformation structures. Doct. Engin. Thesis, Dept. Engineering and Resource Science, Akita University, Japan, p. 1-148. (Online at:air.lib.akita-u.ac.jp/dspace/bitstream/10295/2714/1/kouhakuotsu634.pdf) 

  20. Jaya, A., Nishikawa, O., Hayasaka, Y., 2017. The zircon U–Pb and muscovite K-Ar age from the Bantimala, Barru and Biru basement complexes in the South Arm of Sulawesi, Indonesia, Lithos 292- 293, 96-110.

  21. Kadarusman, A., Massonne, H.J., van Roermund, H., Permana, H., Munasri, 2007. P-T evolution of eclogites and blueschists from the Luk Ulo Complex of central Java, Indonesia. International Geology Review 49, pp. 329–356. 

  22. Kundig, E., 1932. Versuch einer petrographischen Characteristik des kristallinen Grundgebirges von Celebes. Schweizer. Mineral. Petrograph. Mitteilungen 12, p. 450-507. 

  23. Kwong Hiu Jing. 2011. Paleomagnetic investigation of the Balangbaru Formation, SW Sulawesi, Indonesia. Masters Thesis, University of Hongkong, p. 1-121. (Unpublished) (Online at: http://hub.hku.hk/handle/10722/134043). 

  24. Maulana, A., 2009. Petrology, geochemistry and metamorphic evolution of the South Sulawesi basement rock complexes, Indonesia. M. Phil. Thesis, Australian National University, Canberra, p. 1.

  25. Maulana, A., Christy, A.G., Elli,s D.J., 2008. The petrology of eclogites from Bantimala Complex, South Sulawesi, Indonesia. Proc. 37th Ann. Conv. Indon. Assoc. Geol. (IAGI), Bandung, 1, p. 367-398.

  26. Maulana, A., Christy, A.G., Ellis, D.J., 2015. Petrology, geochemistry and tectonic significance of serpentinized ultramafic rocks from the South Arm of Sulawesi, Indonesia. Chemie der Erde 75, 1, p. 73-87. 

  27. Maulana, A., Christy, A.G., Ellis, D.J., Imai, A., Watanabe, K., 2011. The characteristic of serpentinised ultramafic rocks from South Sulawesi Indonesia: constraint from petrology and geochemistry data. Proc. Int. Symp. on Earth Science and Technology, Fukuoka 2010, p. 301-306. 

  28. Maulana, A., Christy, A.G., Ellis, D.J., Imai, A., Watanabe, K., 2013. Geochemistry of eclogite- and blueschist-facies rocks from the Bantimala Complex, South Sulawesi, Indonesia: protolith origin and tectonic setting. Island Arc 22, 4, p. 427-452. 

  29. Maulana, A., Christy, A.G., Ellis, D.J., Kaharuddin, M., Tonggiroh, A., 2009. Petrology, geochemistry and tectonic significance of the South Sulawesi ultramafic, Indonesia. Proc. 38th Ann. Conv. Indon. Assoc. Geol. (IAGI), Semarang, PITIAGI2009-205, 26p. 

  30. Maulana, A., Ellis, D.J., Christy, A.G., 2010. Petrology, geochemistry and tectonic evolution of the South Sulawesi basement rocks, Indonesia. Proc. 34th Ann. Conv. Indon. Petroleum Assoc. (IPA),

  31. Maulana, A., Ellis, D.J., Christy, A.G., 2013. Geodynamic significance of the South Sulawesi Basement rocks, Indonesia: a petrochemical constraint. Pros. 6th Seminar Nas. Kebumian, Universitas Gajah Mada, Yogyakarta 2013, p. 

  32. Maulana, A., Ellis, D.J., Christy, A.G., Watanabe, W., Imai, A., Purwanto., 2011. Rare earth element in greenschist facies rock from Bantimala Complex, South Sulawesi, Indonesia. Proc. 36th HAGI and 40th IAGI Ann. Conv., Makassar, p. 1-7. 

  33. Maulana, A., Imai, A., Van Leeuwen, T.,  Watanabe, K., Yonezu, K., Nakano, T., Boyce, A., Page. L.,  Schersten, A., 2016. Origin and geodynamic setting of Late Cenozoic granitoids in Sulawesi, Indonesia. J. Asian Earth Sci. 124, p. 102-125. 

  34. Maulana, A., K. Watanabe, A. Imai, K., Yonezu., 2011. Enrichment Rare Earth Elements (REE) contents in granitic rock from South Sulawesi, Indonesia. Proc. Int. Workshop and Conference on Earth Resources Technology 2011, p. 33-39.

  35. Maulana, A., Watanabe, K., Imai, A., Yonezu, K., 2011. Geochemical composition variety of granitoid rocks from Sulawesi Island, Indonesia. Proc. Int. Symposium on Earth Science and Technology, Fukuoka 2011, p. 379-388. (Geochemistry of 55 Tertiary granitoid rocks from 9 areas in Sulawesi) 

  36. Maulana, A., Watanabe, K., Imai, A., Yonezu, K., 2011. Magnetic susceptibility of Sulawesi granitic rocks, Indonesia: implication for regional metallogenic genesis. Proc. 1st Asia Africa Mineral Resources Conference, Fukuoka 2011, P-06, p. 

  37. Maulana, A., Watanabe, K., Imai, A., Yonezu, K., 2013. Origin of magnetite- and ilmenite- series granitic rocks in Sulawesi, Indonesia: magma genesis and regional metallogenic constraint. Procedia Earth and Planetary Sci. 6, p. 50-57. 

  38. Maulana, A., Watanabe, K., Imai, A., Yonezu, K., 2013. Petrochemical characteristic and geothermobarometry study of the granitic rocks from Sulawesi, Indonesia: Implication on exhumation and tectonomagmatic process J. Earth Syst. Science, p. 

  39. Maulana, A., Yonezu, K., Watanabe, K., 2014. Geochemistry of rare earth elements (REE) in the weathered crusts from the granitic rocks in Sulawesi Island, Indonesia. J. Earth Science (China) 25, 3, p. 460-472. 

  40. Maulana, A., Christy, A., Ellis, D., Broeker, M., 2018. Petrology, Geochemistry and Geochronology of Metamorphic and Associated Magmatic Rocks From The Barru Block, South Sulawesi, Indonesia Journal of Asian Earth Sciences. 

  41. Miyazaki, K., Zulkarnain, I., Sopaheluwakan J., Wakita. K., 1996. Pressure-temperature conditions and retrograde paths of eclogites, garnet-glaucophane rocks and schists from South Sulawesi, Indonesia. J. Metam. Geol. 14, p. 549-563. 

  42. Munasri., 2013. Early Cretaceous radiolarians in manganese carbonate nodule from the Barru area, South Sulawesi, Indonesia. J. Riset Geologi Pertambangan (LIPI) 23, 2, p. 79-88. (online at: www.geotek.lipi.go.id/riset/index.php/jurnal/article/view/92/52) 

  43. Parkinson, C.D., 1996. The origin and significance of metamorphosed tectonic blocks in mélanges: evidence from Sulawesi, Indonesia. Terra Nova 8, pp. 312–323. 

  44. Parkinson, C.D., Miyazaki, K., Wakita, K., Barber, A.J., Carswell, P.A., 1998. An overview and tectonic synthesis of the pre-tertiary very-high pressure metamorphic and associated rocks of Java, Sulawesi and Kalimantan, Indonesia. Island Arc 7, pp. 184–200. 

  45. Parkinson, C.D., Katayama I., 1999. Present-day ultrahigh-pressure conditions of coesite inclusions in zircon and garnet: evidence from laser Raman microspectroscopy. Geology 27, p. 979-982. 

  46. Parkinson, C.D. Katayama I., 1999. Metamorphic microdiamond and coesite from Sulawesi, Indonesia; evidence of deep subduction at the SE Sundaland margin. American Geoph. Union (AGU), 1999 Fall Mtg., EOS Transactions 80, 46, Suppl., p. 1181. 

  47. Parkinson, C.D., Miyazaki, K., Wakita, K., Barber A.J., Carswell D.A., 1998. An overview and tectonic synthesis of the Pre-Tertiary very-high pressure metamorphic and associated rocks of Java, Sulawesi and Kalimantan, Indonesia. Island Arc 7, p. 184-200. 

  48. Polvé, M., Maury, R.C., Bellon, H., Rangin, C., Priadi, B., Yuwono, S., Joron, J.L., SoeriaAtmadja, R., 1997. Magmatic evolution of Sulawesi: constraints on the Cenozoic geodynamic history of the Sundaland active margin. Tectonophysics 272, 69–92. 

  49. Samodra, H., Purnamaningsih, 1993. Kupasan tatanan stratigrafi batuan karbonat paparan, Formasi Tonasa di Sulawesi Selatan. Kumpulan Makalah Seminar Geodinamika dan Busur Kepulauan Banda Bagian Utara, Direktorat Jenderal Geologi dan Sumberdaya Mineral dan Institute Nationale des Sciences de l’Univers, pp. 16–49. 

  50. Sasajima, S., Nishimura, S., Hirooka, K., Otofuji, Y., Van Leeuwen T., Hehuwat, F., 1978. Paleomagnetic results and fission track ages obtained from the Western and Northern Sulawesi, East Indonesia. In: M. Kono (ed.) Rock magnetism and paleogeophysics, Japan, 5, p. 73-80. (Online at: http://peach.center.ous.ac.jp/) 

  51. Satyana, A.H., 2011. Sulawesi: where two worlds collided- geologic controls on biogeographic Wallace’s Line. Proc. Joint 36th HAGI and 40th IAGI Ann. Conv., Makassar, JCM2011-065, 16p. 

  52. Satyana, A., 2014. Tectonic Evolution Of Cretaceous Convergence Of Southeast Sundaland: A New Synthesis And Its Implications On Petroleum Geology, Proceedings 43rd Annual Convention, Indonesian Association of Geology, Jakarta, pp. 1-28. 

  53. Setiawan, N.I., Osanai, Y., Nakano, N., Adachi, T., Yonemura, K., Yoshimoto, A., 2012. Metamorphic evolution of high-pressure metamorphic rocks from Bantimala and Barru Complex in South Sulawesi, Indonesia. Annual Mtg Japan Association of Mineral Sciences 2012, p. (Abstract only?) 

  54. Setiawan, N.I., Osanai, Y., Nakano N., Adachi. T., 2013. Jadeite jade from South Sulawesi in Indonesia and its geological significance. In: N.I. Setiawan et al. (eds.) Proc. Int. Conf. Geological Engineering, Gadjah Mada University, Yogyakarta 2013, ER05, p. 40-56. 

  55. Setiawan, N.I., Osanai, Y., Nakano, N.,  Adachi, T., 2014. Metamorphic evolution of garnet- biotite- muscovite schist from Barru Complex in South Sulawesi, Indonesia. J. SE Asian Applied Geol. (UGM) 6, 2, p. 68-78. 

  56. Setiawan, N.I., Osanai, Y., Nakano, N., Adachi, T., Yonemura, K., Yoshimoto, A., 2016. Prograde and retrograde evolution of eclogites from the Bantimala complex in South Sulawesi, Indonesia. Journal of Mineralogical and Petrological Sciences 111, pp. 211–225.  

  57. Setiawan, N.I., Osanai, Y., Nakano, N., Adachi, T., Yonemura, K., Yoshimoto, A., 2016. Pro-grade and retrograde evolution of eclogites from the Bantimala complex in South Sulawesi, Indonesia. Journal of Mineralogical and Petrological Sciences 111, 211–225. 

  58. Sopaheluwakan, J., 1979. The evolution of Franciscan type melange in South Sulawesi, with special reference to the Barru area. J. Riset Geologi Pertambangan (LIPI) 2, 1, p. 45-55. 

  59. Sopaheluwakan, J., 1994. Do Karangsambung (Central Java) and Bantimala (SW Sulawesi) form a single subduction process? A provocative view. Proc. 30th Anniversary Symposium, Res. Dev. Centre for Geotechnology (LIPI), Bandung, 2, p. 7-8. 

  60. Sopaheluwakan, J., 1995. The deep crustal processes of West Arm of Sulawesi and the evolution of Makassar Strait: evidences from Bantimala, Meratus Mountain and Palu Koro Fault Zone. In: Y. Kumoro et al. (eds.) Proc. Seminar Sehari Geoteknologi dalam indistrialisasi, Hasil- hasil Penelitian Puslitbang Geoteknologi LIPI, p. 216-217. 

  61. Sopaheluwakan, J., Kadarusman, A., Priyadi B.,  Utoyo, H., 1995. The nature of basement rocks in Palu Region, Central Sulawesi. The newly found eclogite and its regional implications. Proc. 6th Int. Congress Pacific Neogene Stratigraphy and IGCP 335, Puspitek Serpong 1995, p. 77-83. 

  62. Sopaheluwakan, J., Miyazaki, K., Zulkarnain I., Wakita, K., 1993. Early Cretaceous Eastern Sunda subduction metamorphism and its tectonic implication: record of Karangsambung and Bantimala eclogites. Proc. 22nd Ann. Conv. Indon. Assoc. Geol. (IAGI), Bandung, p. 

  63. Sopaheluwakan, J., Wakita, K.,  Myazaki, K., 1993. The origin of the Bantimala eclogite: a preliminary view. Proc. 22nd Ann. Conv. Indon. Assoc. Geol. (IAGI), Bandung, 1, p. 147-158. Sukamto. 

  64. Sufriadin, K., Angayana, A., Sudarsono., 2002. Karakteristik mineralogi batubara daerah Tondongkurah, Kabupaten Pangkep, Sulawesi Selatan. In: Proc. xx Ann. Conv. Indon. Assoc. Geol. (IAGI), Surabaya 2002, p. 185-192. (‘Characteristics of coal mineralogy in the Tondongkurah area, Pangkep District, S Sulawesi’) 

  65. Sukamto, R., 1975. Perkembangan tektonik di Sulawesi dan daerah sekitarnya; suatu sintesis perkembangan berdasarkan tektonik lempeng. Geologi Indonesia (IAGI) 2, 1, p. 1-13. (’Tectonic development of Sulawesi and surrounding regions; a synthesis of the evolution of plate tectonics’) 

  66. Sukamto, R., 1978. The structure of Sulawesi in the light of plate tectonics. In: S. Wiryosujono and A. Sudradjat (eds.) Proc. Regional Conf. Geology and Mineral Resources of Southeast Asia (GEOSEA), Jakarta 1975, 2, p. 121-142. 

  67. Sukamto, R.,  Ratman. N., 2013. Batuan Paleogen. In: Surono and U. Hartono (eds.) Geologi Sulawesi, LIPI Press, Bandung, p. 37-63. (‘Paleogene rocks’. Chapter 3 in Geology of Sulawesi book. M-L EoceneOligocene volcanics and clastics and Late Eocene- Oligocene limestones, widespread in W and N Sulawesi). 

  68. Sukamto, R., Simandjuntak, T.O., 1983. Tectonic relationship between the geologic provinces of Western Sulawesi, Eastern Sulawesi, and Banggai-Sula in the light of sedimentological aspects. Bull. Geol. Res. Dev. Centre (GRDC), Bandung, 7, p. 1-12. 

  69. Sukamto, R., 1982. The geology of the Pangkajene and Western part of Watampone Quadrangles, South Sulawesi, scale 1:250,000. Geol. Res. Dev. Centre (GRDC), Bandung, p. 1 – 27. 

  70. Sukamto, R., Supriatna, S., 1982. Geologi Lembar Ujung Pandang, Bentong dan Sinjai Quadrangles, Sulawesi. Geological Research and Development Centre, Bandung. 

  71. Syafri, I., 2000. Etude petrologique et geochimique des peridotites a grenat, eclogites et roches associees des parties Ouest et Centrale de l’ile de Sulawesi, Indonesie. Ph.D. Thesis Universite de Paris 6, p. 1-455. (Unpublished) 

  72. Wakita, K., Munasri, Sopaheluwakan, J., Zulkarnain, I., Miyazaki, K., 1994. Early Cretaceous time-lag between the age of radiolarian chert and its metamorphic basement in Bantimala area, South Sulawesi, Indonesia. Island Arc 3, pp. 90–102. 

  73. Wakita, K., Sopaheluwakan, J., Miyazaki, K., Zulkarnaen, I., Munasri., 1996. Tectonic evolution of the Bantimala Complex South Sulawesi, Indonesia. In: Hall, R., Blundell, D.J. (Eds.), Tectonic Evolution of SE Asia. Geological Society of London Special Publication 106, pp. 353–364. 

  74. Wakita, K., 2000. Cretaceous accretionary–collision complexes in central Indonesia. Journal of Asian Earth Sciences 10, pp. 739–749. 

  75. van Leeuwen, T., 1981. The geology of southwest Sulawesi with special reference to the Biru area. In: A.J. Barber and S. Wiryosayono (eds.) the geology and tectonics of Eastern Indonesia. Geol. Res. Dev. Centre (GRDC), Bandung, Spec. Publ. 2, p. 277-304. 

  76. Zulkarnain, I., 1994. Lingkungan tektonik komplek Bantimala: implikasinya terhadap kualitas mineral garnet sebagai batu mulia. Proc. 30th Anniv. Symp. Res. Dev. Centre for Geotechnology (LIPI), p. (‘Tectonic environment of the Bantimala complex: implications for quality of garnet minerals as gemstones’). 

  77. Zulkarnain, I., 1999. Cretaceous tectonic events of the Bantimala Area, South Sulawesi, Indonesia; evidence from rock chemistry. Jurnal Teknologi Mineral (ITB) 6, 2, p. 65-77. 

  78. Zulkarnain, I., Sopaheluwakan, J., Miyazaki K., Wakita, K., 1995. Elements transfer during basalt metamorphism: the case of Bantimala eclogite. J. Riset Geologi Pertambangan (LIPI) 1, 1, p. 42-55. (Online at: http://pustaka.geotek.lipi.go.id/wp-content/uploads/2016/02/Riset-Vol.1-No.1-1995-.pdf) 

  79. Zulkarnain, I., Sopaheluwakan, J.,  Sumarnadi, E.T., 1993. Komplek Malihan Bontoria, daerah Mangilu, Kabupaten Pangkejene Kepulauan, Sulawesi Selatan. Seminar of Research results of RandD Centre for Geotechnology LIPI, p. (‘Bontoria metamorphic complex, Mangilu area, Pangkajene Kepulauan District, S Sulawesi’) 

  80. Zulkarnain, I., Sopaheluwakan, J., Wakita, K., Miyazaki, K., 1993. The origin of the Bantimala eclogite: a preliminary view. Proc. 22nd Ann. Conv. Indon. Assoc. Geol. (IAGI), Bandung 1993, 1, p. 147-158. (Bantimala complex of SW Sulawesi high pressure glaucophane schist underlying Late Cretaceous Balangbaru Fm flysch. K/Ar date of schist 132 Ma; exhumation probably several 10’s of My later. Precursor rock is trench greywacke sandstone, probably subducted to 10’s of km to 350- 520°C, 0818 kb