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Weathering Intensity Response to Climate Change on Different Timescales: A Record of Rb/SR Ratios From Chaonaqiu Lake Sediments, Western Chinese Loess Plateau
Liu, L.; Yu, K.; Li, A.; Zhang, C.; Wang, L.; Liu, X.; Lan, J. Weathering Intensity Response to Climate Change on Decadal Scales: A Record of Rb/Sr Ratios from Chaonaqiu Lake Sediments, Western Chinese Loess Plateau. Water2023, 15, 1890.
Liu, L.; Yu, K.; Li, A.; Zhang, C.; Wang, L.; Liu, X.; Lan, J. Weathering Intensity Response to Climate Change on Decadal Scales: A Record of Rb/Sr Ratios from Chaonaqiu Lake Sediments, Western Chinese Loess Plateau. Water 2023, 15, 1890.
Liu, L.; Yu, K.; Li, A.; Zhang, C.; Wang, L.; Liu, X.; Lan, J. Weathering Intensity Response to Climate Change on Decadal Scales: A Record of Rb/Sr Ratios from Chaonaqiu Lake Sediments, Western Chinese Loess Plateau. Water2023, 15, 1890.
Liu, L.; Yu, K.; Li, A.; Zhang, C.; Wang, L.; Liu, X.; Lan, J. Weathering Intensity Response to Climate Change on Decadal Scales: A Record of Rb/Sr Ratios from Chaonaqiu Lake Sediments, Western Chinese Loess Plateau. Water 2023, 15, 1890.
Abstract
The Rb/Sr ratio of lake sediments has been widely adopted as an indicator of weathering intensity in studies of past climate change, but the geochemical significance of this ratio varies with timescale. Here we present Rb/Sr data for the last 300 years for sediments collected from Chaonaqiu Lake in the Liupan Mountains of the western Chinese Loess Plateau as a decadal-scale record of weathering intensity. To validate the application of this weathering proxy, we correlated the record with those of other major elements, rock-forming minerals, and paleoclimatic proxies. We found that Rb/Sr ratios are influenced mainly by Sr activity within the lake catchment (where Sr is likely sourced from albite). In addition, higher (lower) Rb/Sr ratios of bulk sediments from Chaonaqiu Lake are correlated with lower (higher) fractions of terrigenous detritus (SiO2, Ti, K2O, Al2O3, and Na2O). Lake bulk sediment Rb/Sr ratios are dominated by the input of terrigenous detritus over decadal timescales. Our data show that physical and chemical weathering in Chaonaqiu Lake catchment have opposing influences on bulk sediment Rb/Sr ratios, competing to dominate these ratios of lake sediments over different timescales, with ratios reflecting the relative importance of the two types of weathering. We infer that the Rb/Sr ratios of Chaonaqiu Lake sediments reflect climatic signals of precipitation and temperature over long timescales and of precipitation over short timescales.
Environmental and Earth Sciences, Geophysics and Geology
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