F. Bodet et U. Scharer, Pb isotope systematics and time-integrated Th/U of SE-Asian continental crust recorded by single K-feldspar grains in large rivers, CHEM GEOL, 177(3-4), 2001, pp. 265-285
To elucidate time-integrated Th/U and Pb isotope characteristics of the SE-
Asian continent, 159 individual K-feldspar grains from the rivers Mekong, S
alween, Irrawaddy and Red River were analyzed. Earlier U-Pb dating and Hf i
sotope results of zircon and baddeleyite from the same river sands have est
ablished its crustal growth and recycling history, also showing that these
heavy minerals are sufficiently representative for the evolution of large c
ontinental regions [Geochim. Cosmochim. Acta 64 (2000) 2067]. We therefore
consider K-feldspar populations in these sands to be the best possible way
to investigate Pb isotope systematics on the continental scale, and analyzi
ng individual grains overcomes the averaging effect of multi-grain measurem
ents. To test the basic condition that U/Pb-ratios are very low in K-feldsp
ar, Pb concentration were measured in all grains, and U in about 10% of the
m, corroborating Pb concentrations between 4 and 292 ppm with a mean value
of 80 +/- 40 ppm, acid U and Th well below 0.1 and 0.4 ppm, respectively. I
n situ decay of U can therefore be neglected in all grains and measured Pb
isotope ratios are those acquired by the magmatic or metamorphic host mater
ial at the time of K-feldspar crystallization. Relative to the model evolut
ion of (206)pb/Pb-204 in upper continental crust, model ages range between
0.5 and 0.2 Ga, whereas many Pb-207/Pb-204 are significantly more radiogeni
c than any type of Phanerozoic crust. This confirms important recycling of
Precambrian crust into the K-feldspar source material such as already obser
ved by Hf signatures for the heavy mineral source lithologies. An important
observation is that none of the K-feldspars has preserved Precambrian Pb i
sotope signature and in consequence, detrital sediments covering the SE-Asi
an continent must essentially originate from Phanerozoic orogenic belts, wh
ere K-feldspars have been re-equilibrated by metamorphic reactions or cryst
allization in newly formed melts. To dominate delivery of detrital material
to such a large extent on the continental scale, these Phanerozoic orogeni
es must have generated important high mountains ranges, to be subsequently
flattened by erosion; today topographic highs are exclusively due to uplift
in relation to the India-Asia collision. Concerning Th-232/Pb-208 and rime
-integrated Th/U ratios, only 4 out of 159 grains plot on the model curves
for continental crust, with all other ratios being significantly more radio
genic in (208)pb/Pb-204, indicating high Th/U source material. If these tim
e-integrated Th/U ratios are modeled in the frame of the known crust format
ion events, Th/U ratios lie at 4.15-4.22 plotting significantly higher than
Th/U deduced for fine-grained sediments or predicted by classical models f
or average or upper continental crust. (C) 2001 Elsevier Science B.V. All r
ights reserved.