2022 Help me understand this report
OSL‐14C‐10Be: A novel composite geochronometer for simultaneous quantification of timing and magnitude of change in bedrock outcrop erosion rate
Abstract: Quantifying past changes in erosion rate is essential for deciphering earth surface processes and their driving mechanisms. Coupled in situ cosmogenic 14 C-10 Be has been shown to be a useful chronometer in detecting changes in erosion rate, but its detection ability is limited to rapidly eroding fluvial landscapes and changes greater than a factor of two; and in any case, it cannot uniquely quantify both the magnitude and the timing of change in erosion rate. Here, we establish a theoretical framework to show…
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