Volcanism and Evolution of the African Lithosphere
New 40Ar-39Ar ages and petrogenesis of the Massif d'Ambre volcano, northern Madagascar
-
Published:June 01, 2011
-
CiteCitation
C. Cucciniello, L. Melluso, V. Morra, M. Storey, I. Rocco, L. Franciosi, C. Grifa, C.M. Petrone, M. Vincent, 2011. "New 40Ar-39Ar ages and petrogenesis of the Massif d'Ambre volcano, northern Madagascar", Volcanism and Evolution of the African Lithosphere, Luigi Beccaluva, Gianluca Bianchini, Marjorie Wilson
Download citation file:
- Share
The Massif d'Ambre is the largest stratovolcano (~2500 km2) in the Cenozoic igneous province of northern Madagascar. It is broadly elongated in a N-S direction and is formed by hundreds of lava flows, plugs, spatter cones, tuff rings, pyroclastic flows, and pyroclastic fall deposits. New 40Ar-39Ar age determinations for lavas of Massif d'Ambre and Bobaomby Peninsula (the northernmost tip of Madagascar) yield ages of 12.1 ± 0.2 Ma and 10.56 ± 0.09 Ma. These ages indicate that at least part of the volcanic activity of the Bobaomby Peninsula occurred later than the beginning of the activity of the Massif d'Ambre. The volcanic products of Massif d'Ambre are mildly to strongly alkaline (with sodic affinity) to tholeiitic with very limited amounts of evolved magmas. The mafic rocks have compositions similar to those of primitive mantle–derived magmas (MgO >10 wt%, Cr and Ni >400 and >200 ppm, respectively). The strongly alkaline suite shows a liquid line of descent from basanite to phonolite, dominated by fractional crystallization of clinopyroxene and olivine. The mafic rocks (basanites, alkali basalts, transitional and tholeiitic basalts) have Zr/Nb (2.4–5.8), Ba/Nb (7–24) and La/Nb (0.7–1.1) ratios typical of incompatible element–rich within-plate basalts. The primitive mantle–normalized incompatible element patterns of the Massif d'Ambre mafic rocks are characterized by peaks at Nb and troughs at K, and are identical in shape and absolute abundances to those of the Nosy Be and Bobaomby (Cap d'Ambre) basanites. The range of (La/Yb)n ratios (9–24) indicates that the Massif d'Ambre primitive compositions are the product of variable degrees of partial melting (4%–12%) of a broadly similar and slightly incompatible element–enriched mantle source. Initial 87Sr/86Sr and 143Nd/144Nd ratios of alkali basalts and basanites vary from 0.70326 to 0.70359 and 0.51279 to 0.51286, respectively. Alkali basalts and basanites have little variation in 206Pb/204Pb (19.073–19.369), 207Pb/204Pb (15.613–15.616), and 208Pb/204Pb (39.046–39.257). This range is well within that of Sr-Nd-Pb isotope values of the basanites of the Nosy Be Archipelago, thus again confirming substantially similar source compositions throughout northern Madagascar.
- absolute age
- Africa
- alkalic composition
- alkaline earth metals
- Ar/Ar
- basanite
- Cenozoic
- chemical composition
- classification
- dates
- fractional crystallization
- genesis
- ICP mass spectra
- igneous rocks
- Indian Ocean Islands
- intrusions
- isotope ratios
- isotopes
- lava flows
- lead
- Madagascar
- mafic composition
- magmas
- magmatism
- major elements
- mass spectra
- matrix
- melting
- metals
- mineral composition
- Miocene
- Nd-144/Nd-143
- neodymium
- Neogene
- Pb-206/Pb-204
- Pb-207/Pb-204
- Pb-208/Pb-204
- phenocrysts
- phonolites
- plugs
- processes
- pyroclastic flows
- pyroclastics
- radioactive isotopes
- rare earths
- sampling
- spectra
- Sr-87/Sr-86
- stable isotopes
- stratovolcanoes
- strontium
- Tertiary
- trace elements
- tuff
- volcanic rocks
- volcanoes
- X-ray fluorescence spectra
- spatter cones
- northern Madagascar
- Nosy Be Archipelago
- Massif d'Ambre
- Bobaomby Peninsula