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Efficacy of in situ and meteoric 10 Be mixing in fluvial sediment collected from small catchments in China

Authors :
Thomas B. Neilson
Paul R. Bierman
Dylan H. Rood
Veronica Sosa Gonzalez
Amanda H. Schmidt
Source :
Chemical Geology. 471:119-130
Publication Year :
2017
Publisher :
Elsevier BV, 2017.

Abstract

Using measurements of in situ and meteoric 10Be in fluvial sand to measure erosion rates, quantify soil loss, and trace sediment sources and sinks relies on the assumption that such sediment is well-mixed and representative of the upstream area. We test this assumption at 13 river junctions in three tributary watersheds (200–2500 km2) to the Mekong River, Yunnan, China, where human alteration of the landscape is significant and widespread. We find that two of the three watersheds mix well for in situ 10Be and none mix well for meteoric 10Be when considering the concentration of 10Be at the outlet compared to the area-weighted mean of headwater samples. We also assessed mixing at 13 river junctions by comparing the erosion rate-weighted isotopic concentration of sediment taken from tributaries upstream of a junction to the concentration in a sample taken downstream of the junction. With this metric, mixing is generally poor for both in situ and meteoric 10Be but is better for in situ 10Be than for meteoric 10Be (p Basins eroding faster (> 100 mm/kyr) tend to mix better than slowly eroding basins. We find no evidence that agricultural land use in sampled basins affects sediment mixing downstream. Mixing improves with increased basin area (particularly > 200 km2), increased sampling distance downstream from an upstream junction (> 500 m), and increased difference in size between tributaries (one tributary > 3 times larger than the other). The most important factor affecting mixing efficacy for both in situ and meteoric 10Be is the fraction of the basin area contributing to the downstream sample that does not contribute to the upstream samples. Junctions with > 2% of the basin area unsampled by upstream samples tend not to mix as well. Our data suggest specific sampling location strategies (such as amalgamation) likely to improve the outcome of fluvial network analysis using cosmogenic nuclides.

Details

ISSN :
00092541
Volume :
471
Database :
OpenAIRE
Journal :
Chemical Geology
Accession number :
edsair.doi...........39b5a8a6f737933d0e2d0dbe9d47c30d
Full Text :
https://doi.org/10.1016/j.chemgeo.2017.09.024