Publication Date:
2020-02-12
Description:
In order to decipher the sources and sinks of sediment within the large Amazon basin, and to be able to monitor their relative changes, the construction of a sediment budget is crucial, because the annual sediment mass that is discharged across the basin from the Andes and cratonic shields is not in steady state with the mass discharged to the Atlantic Ocean. Systematic cosmogenic nuclide analyzes of the areas providing sediment to the central Amazon give an integrated 10Be nuclide signal of 5.0 ± 0.5x1e4 104 at/g(Qz) for ~1 million km2 or 95% of the total Andean area draining to the Amazon. Average nuclide concentrations for Brazilian shield headwaters denote to 15.3 ± 1.2x1e4 104 at/g(Qz), and to 38.6 ± 2.4x1e4 104 at/g(Qz) for the Guyana shield headwaters. These nuclide concentrations translate to an integrated Andean denudation rate of 0.35 ± 0.05 mm/yr, which is then passed on to the central Amazon. The headwaters of the Brazilian and Guyana shields denude at very low rates (0.02 and 0.01 mm/yr, respectively), as is expected for tectonically stable tropical highlands. These headwater 10Be nuclide concentrations and denudation rates can now be compared with those derived from central Amazon streams including the main Amazon, which was sampled over ~1000 km from Manaus to Óbidos. Cosmogenic nuclide concentration analyses of several grain sizes (from 125 up to 800 µm) show large variations; in all central Amazon trunk stream samples and tributaries, the fine grain size fraction (125-250 µm) contains a 10Be nuclide signal of 6.5 ± 1.2104 at/g(Qz), which is similar to that of the Andean source areas. The integrated denudation rate from this fraction is 0.23 ± 0.04 mm/yr for the entire Amazon basin at Óbidos, which compares well with the mean Andean denudation signal (0.35 ± 0.05 mm/yr). Coarse grain sizes (〉500 µm) record the very low denudation signal of the cratonic shields, and correspondingly, they contribute only small amounts of sediment into the Amazon trunk stream. Therefore, we found that coarse-grained material records the nuclide signal of the cratonic shield, whereas the Andean signal is best represented by the fine sand fraction, which is preserved virtually unaltered over 1000s of km of sediment transport. We can use this data to calculate sediment mass budgets. The mass of sediment expected from cosmogenic denudation rates amounts to ~540 Mt/yr at Óbidos, which can now be compared to the total load of ~1100 Mt/yr at Óbidos[1,2,3] estimated from sediment gauging. This disparity is unexpected, as at least 40% of the sediment discharged in the Andes is stored in floodplains[4]; a process not detectable with cosmogenic 10Be. The longer denudation integration time scale of ~8 kyr for cosmogenic nuclides possibly includes a period of drier climate than the wet conditions during the late Holocene, where a wetter modern climate possibly favors more rapid erosion in the Andes and more efficient sediment transport in the large rivers. 1 Gaillardet et al. (1997); 2 Dunne et al. (1998); 3 Guyot et al. (2005); 4 Guyot et al. (1996)
Keywords:
550 - Earth sciences
Type:
info:eu-repo/semantics/other
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