TY - JOUR
T1 - Regolith formation rate from U-series nuclides
T2 - Implications from the study of a spheroidal weathering profile in the Rio Icacos watershed (Puerto Rico)
AU - Chabaux, F.
AU - Blaes, E.
AU - Stille, P.
AU - di Chiara Roupert, R.
AU - Pelt, E.
AU - Dosseto, A.
AU - Ma, L.
AU - Buss, H. L.
AU - Brantley, S. L.
N1 - Funding Information:
A. White and R. Fletcher are thanked for their help during sampling campaigns and their discussion on weathering processes and spheroidal weathering. Th. Perrone is warmly acknowledged for some Sr and the Nd isotopic measurements on the Neptune and the Triton (Strasbourg) and René Boutin for the analyses of the major and trace element concentrations. We thank very much the associate Editor S. Krishnaswami and three anonymous reviewers for their comments and suggestions, which helped to improve the manuscript. Discussions on the Puerto Rico data with J. Honnorez, M. Granet, D. Lemarchand, S. Rihs, and MC Pierret were also very helpful. This work has been supported by the funding of a Ph.D. scholarship from the Region Alsace and the CNRS (BDI), France, to E. Blaes, and was funded by the Région Alsace, France, and the CPER 2003-2013 “REALISE”. SLB acknowledges support in part from DOE Grant DE-FG02-05ER15675, as well as some logistical support contributed by the NSF-supported Luquillo Critical Zone Observatory (EAR 0722476). H.L.B. acknowledges support of the USGS Water Energy and Biogeochemical Budgets (WEBB) project and the USGS National Research Program. A.D. acknowledges an Australia Research Council Future Fellowship (FT0990447). The work has been also supported by the SoilTrec European Program. This is an EOST-LHyGeS contribution.
PY - 2013/1/1
Y1 - 2013/1/1
N2 - A 2m-thick spheroidal weathering profile, developed on a quartz diorite in the Rio Icacos watershed (Luquillo Mountains, eastern Puerto Rico), was analyzed for major and trace element concentrations, Sr and Nd isotopic ratios and U-series nuclides (238U-234U-230Th-226Ra). In this profile a 40cm thick soil horizon is overlying a 150cm thick saprolite which is separated from the basal corestone by a ∼40cm thick rindlet zone. The Sr and Nd isotopic variations along the whole profile imply that, in addition to geochemical fractionations associated to water-rock interactions, the geochemical budget of the profile is influenced by a significant accretion of atmospheric dusts. The mineralogical and geochemical variations along the profile also confirm that the weathering front does not progress continuously from the top to the base of the profile. The upper part of the profile is probably associated with a different weathering system (lateral weathering of upper corestones) than the lower part, which consists of the basal corestone, the associated rindlet system and the saprolite in contact with these rindlets. Consequently, the determination of weathering rates from 238U-234U-230Th-226Ra disequilibrium in a series of samples collected along a vertical depth profile can only be attempted for samples collected in the lower part of the profile, i.e. the rindlet zone and the lower saprolite. Similar propagation rates were derived for the rindlet system and the saprolite by using classical models involving loss and gain processes for all nuclides to interpret the variation of U-series nuclides in the rindlet-saprolite subsystem. The consistency of these weathering rates with average weathering and erosion rates derived via other methods for the whole watershed provides a new and independent argument that, in the Rio Icacos watershed, the weathering system has reached a geomorphologic steady-state. Our study also indicates that even in environments with differential weathering, such as observed for the Puerto Rico site, the radioactive disequilibrium between the nuclides of a single radioactive series (here 238U-234U-230Th-226Ra) can still be interpreted in terms of a simplified scenario of congruent weathering. Incidentally, the U-Th-Ra disequilibrium in the corestone samples confirms that the outermost part of the corestone is already weathered.
AB - A 2m-thick spheroidal weathering profile, developed on a quartz diorite in the Rio Icacos watershed (Luquillo Mountains, eastern Puerto Rico), was analyzed for major and trace element concentrations, Sr and Nd isotopic ratios and U-series nuclides (238U-234U-230Th-226Ra). In this profile a 40cm thick soil horizon is overlying a 150cm thick saprolite which is separated from the basal corestone by a ∼40cm thick rindlet zone. The Sr and Nd isotopic variations along the whole profile imply that, in addition to geochemical fractionations associated to water-rock interactions, the geochemical budget of the profile is influenced by a significant accretion of atmospheric dusts. The mineralogical and geochemical variations along the profile also confirm that the weathering front does not progress continuously from the top to the base of the profile. The upper part of the profile is probably associated with a different weathering system (lateral weathering of upper corestones) than the lower part, which consists of the basal corestone, the associated rindlet system and the saprolite in contact with these rindlets. Consequently, the determination of weathering rates from 238U-234U-230Th-226Ra disequilibrium in a series of samples collected along a vertical depth profile can only be attempted for samples collected in the lower part of the profile, i.e. the rindlet zone and the lower saprolite. Similar propagation rates were derived for the rindlet system and the saprolite by using classical models involving loss and gain processes for all nuclides to interpret the variation of U-series nuclides in the rindlet-saprolite subsystem. The consistency of these weathering rates with average weathering and erosion rates derived via other methods for the whole watershed provides a new and independent argument that, in the Rio Icacos watershed, the weathering system has reached a geomorphologic steady-state. Our study also indicates that even in environments with differential weathering, such as observed for the Puerto Rico site, the radioactive disequilibrium between the nuclides of a single radioactive series (here 238U-234U-230Th-226Ra) can still be interpreted in terms of a simplified scenario of congruent weathering. Incidentally, the U-Th-Ra disequilibrium in the corestone samples confirms that the outermost part of the corestone is already weathered.
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U2 - 10.1016/j.gca.2012.09.037
DO - 10.1016/j.gca.2012.09.037
M3 - Article
AN - SCOPUS:84869846723
SN - 0016-7037
VL - 100
SP - 73
EP - 95
JO - Geochimica et Cosmochimica Acta
JF - Geochimica et Cosmochimica Acta
ER -