Hantoro, W.S.; Pirazzoli, P.; Jouannic, C.; Faure, H.; Hoang, C.T.; Radtke, Ulrich; Causse, C.; Borel Best, M.; Lafont, R.; Bieda, S.; Lambeck, K.:
Quaternary uplifted coral reef terraces on Alor Island, East Indonesia
In: Coral Reefs, Jg. 13 (1994), Heft 4, S. 215 - 223
1994Artikel/Aufsatz in Zeitschrift
GeographieRektorat und Verwaltung » Rektorat
Damit verbunden: 1 Publikation(en)
Titel:
Quaternary uplifted coral reef terraces on Alor Island, East Indonesia
Autor*in:
Hantoro, W.S.;Pirazzoli, P.;Jouannic, C.;Faure, H.;Hoang, C.T.;Radtke, UlrichUDE
GND
104519711
LSF ID
1
Sonstiges
der Hochschule zugeordnete*r Autor*in
;
Causse, C.;Borel Best, M.;Lafont, R.;Bieda, S.;Lambeck, K.
Erscheinungsjahr:
1994

Abstract:

A flight of six major coral reef terraces, up to 700 m in altitude, occurs along the eastern and northern sides of Kabola Peninsula, Alor Island, Indonesia. Some radiometric dates have been obtained from unrecrystallized coral samples collected in growth position by three different methods (14C, 230Th/234U, ESR). This enabled the identification of the terraces corresponding to the Holocene and to oxygen-isotope stages 5c, 5e and 7. According to the present elevation of the dated terraces, a 1.0–1.2 mm/y mean rate of uplift can be discerned. Extrapolation of this trend to the whole sequence of terraces reveals a good correlation between the development of major terraces and interglacial or interstadial stages corresponding to astronomically calibrated oxygen isotope records, up to stage 13. The relatively rapid uplift rate in this region minimized the possibility of polycyclic sea-level stands at the same levels and contributed to the good preservation of some morphological reef features. Two superimposed marine notches are visible near the present shoreline, with retreat points at about 5.0 m and 8.6 m respectively above the present MLWST level. They can be interpreted as corresponding to a glacial interstadial (the upper notch) and to the Holocene sea-level peak (the lower one). As Holocene emergence has been less than what could be expected from a 1 mm/y rate of uplift, a major coseismic vertical displacement may occur in the future.