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Non-residual Sr of the sediments in Daihai Lake as a good indicator of chemical weathering

Published online by Cambridge University Press:  20 January 2017

Yan Zeng
Affiliation:
State Key Laboratory of Environmental Geochemistry, Institute of Geochemistry, Chinese Academy of Sciences, Guiyang 550002, China Graduate University of Chinese Academy of Sciences, Beijing 100049, China
Jingan Chen*
Affiliation:
State Key Laboratory of Environmental Geochemistry, Institute of Geochemistry, Chinese Academy of Sciences, Guiyang 550002, China
Jule Xiao
Affiliation:
Key Laboratory of Cenozoic Geology and Environment, Institute of Geology and Geophysics, Chinese Academy of Sciences, Beijing 100029, China
Liang Qi
Affiliation:
State Key Laboratory of Ore Deposit, Institute of Geochemistry, Chinese Academy of Sciences, Guiyang 550002, China
*
*Corresponding author. Fax: + 86 851 5895095. E-mail address:[email protected] (J. Chen).

Abstract

The Rb/Sr ratio of lake sediments has been demonstrated to be a potential indicator of chemical weathering by increasing work. However, Rb and Sr in lake sediments are derived from both chemical weathering and physical erosion. Rb and Sr of different forms in lake sediments may record different environmental processes and information. In this study, the variation patterns of Rb and Sr of different forms in sediments of Daihai Lake were investigated. The results show that Rb and Sr of different forms display noticeably different variation patterns due to their different sources and associated environmental processes. Using the Rb/Sr ratios of bulk lake sediments to reflect chemical weathering is not accurate. The non-residual Sr of the sediments without detrital carbonates, representing the Sr leached from the catchment, can be used as an index of chemical weathering because the weathering of Sr minerals is very sensitive to climate change, and the non-residual Sr content of the sediment is determined more by Sr2 + influx than by the physicochemical conditions of lake water. The correspondence between the non-residual Sr and TIC/TOC in Daihai Lake also indicates that the non-residual Sr of the sediments is a good indicator of chemical weathering in the catchment.

Type
Research Article
Copyright
University of Washington

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References

Bailey, S.W., Hornbeck, J.W., Driscoll, C.T., and Gaudette, H.E. Calcium inputs and transport in a base-poor forest ecosystem as interpreted by Sr isotopes. Water Resources Research 32, 3 (1996). 707719.Google Scholar
Brady, P.V., Dorn, R.I., Brazel, A.J., Clark, J., Moore, R.B., and Glidewell, T. Direct measurement of the combined effects of lichen, rainfall, and temperature on silicate weathering. Geochimica et Cosmochimica Acta 63, (1999). 32933300.Google Scholar
Cao, J.T., Wang, S.M., Shen, J., and Zhang, Z.K. The paleoclimate changes during the past millennium inferred from the lacustrine core in Daihai Lake, Inner Mongolia. Scientia Geographica Sinica 20, (2000). 391396. (in Chinese, with English abstract) Google Scholar
Chen, J., Wang, H.T., and Lu, H.Y. Behaviours of REE and other trace elements during pedological weathering-evidence from chemical leaching of loess and paleosol from the Luochuan section in central China. Acta Geologica Sinica 70, (1996). 6172. (in Chinese, with English abstract) Google Scholar
Chen, J., Ji, J.F., Qiu, G., Zhu, H.B., and Lu, H.Y. Geochemical studies on the intensity of chemical weathering in Luochuan loess–paleosol sequence, China. Science in China Series D: Earth Sciences 41, (1998). 235241.Google Scholar
Chen, J., An, Z.S., and Head, J. Variation of Rb/Sr ratios in the loess–paleosol sequences of central China during the last 130,000 years and their implications for monsoon paleoclimatology. Quaternary Research 51, 3 (1999). 215219.CrossRefGoogle Scholar
Dasch, E.J. Strontium isotopes in weathering profiles, deep-sea sediments, and sedimentary rocks. Geochimica et Cosmochimica Acta 33, 12 (1969). 15211552.Google Scholar
Gaillardet, J., Dupre, B., Allegre, C.J., and Negrel, P. Chemical and physical denudation in the Amazon River basin. Chemical Geology 142, (1997). 141173.CrossRefGoogle Scholar
Gao, Y.X. On some problems of Asian Monsoon. Gao, Y.X. Some Questions about the East Asian Monsoon (in Chinese). (1962). Science Press, Beijing. 149.Google Scholar
Goldstein, S.L. Decoupled evolution of Nd and Sr isotopes in the continental-crust and the mantle. Nature 336, 6201 (1988). 733738.Google Scholar
Grove, J.M. Little Ice Ages: Ancient and Modern. (2004). Routledge, London. 110.Google Scholar
Häkanson, L., and Jansson, M. Principles of Lake Sedimentology. (1983). Springer, Google Scholar
Jin, Z.D., Wang, S.M., Shen, J., Ji, J.F., Li, F.C., Lu, X.W., and Zhang, E.L. Chemical weathering and paleoclimatic change in watershed recorded in lake sediments—a case study of the Daihai Lake, Inner Mongolia. Geological Review 47, 1 (2001). 4246. (in Chinese with English abstract) Google Scholar
Jin, Z.D., Wang, S.M., Shen, J., Zhang, E.L., Li, F.C., and Ji, J.F. Weak chemical weathering recorded in lake sediments during the Little Ice age. Science in China (Series D) 44, (2001). 652658.Google Scholar
Jin, Z.D., Wang, S.M., Shen, J., Zhang, E.L., Li, F.C., Ji, J.F., and Lu, X.W. Chemical weathering since the little ice age recorded in lake sediments: a high-resolution proxy of past climate. Earth Surface Processes and Landforms 26, 7 (2001). 775782.Google Scholar
Jin, Z.D., Zhou, C.J., Li, F.C., Wang, S.M., Shen, J., and Liang, W.B. Element distribution in chemical fractions of lake sediments determined by sequential extraction: the case of Lake Daihai (Northern China). Journal of Lake Sciences 17, (2005). 4753. (in Chinese with English abstract) Google Scholar
Jin, Z.D., Cao, J.J., Wu, J.L., and Wang, S.M. A Rb/Sr record of catchment weathering response to Holocene climate change in Inner Mongolia. Earth Surface Processes and Landforms 31, 3 (2006). 285291.CrossRefGoogle Scholar
Kalugin, I., Daryin, A., Smolyaninova, L., Andreev, A., Diekmann, B., and Khlystov, O. 800-yr-long records of annual air temperature and precipitation over southern Siberia inferred from Teletskoye Lake sediments. Quaternary Research 67, 3 (2007). 400410.CrossRefGoogle Scholar
Koinig, K.A., Shotyk, W., Lotter, A.F., Ohlendorf, C., and Sturm, M. 9000 years of geochemical evolution of lithogenic major and trace elements in the sediment of an alpine lake — the role of climate, vegetation, and land-use history. Journal of Paleolimnology 30, 3 (2003). 307320.Google Scholar
Lavilla, I., Filgueiras, A.V., Valverde, F., Millos, J., Palanca, A., and Bendicho, C. Depth profile of trace elements in a sediment core of a high-altitude lake deposit at the Pyrenees, Spain. Water, Air, and Soil Pollution 172, (2006). 273293.Google Scholar
Lerman, A. Geochemical Processes: Water and Sediment Environments. (1979). Wiley, New York.Google Scholar
Liu, L.W., Chen, J., Chen, Y., and Ji, J.F. Sequential extraction procedure of loess and paleosol and the implications of Rb/Sr ratios. Acta Pedologica Sinica 39, (2002). 6570. (in Chinese with English abstract) Google Scholar
Luoma, S.N., and Bryan, G.W. A statistical assessment of the form of trace-metals in oxidized estuarine sediments employing chemical extractants. Science of the Total Environment 17, 2 (1981). 165196.Google Scholar
Mann, M.E., Bradley, R.S., and Hughes, M.K. Global-scale temperature patterns and climate forcing over the past six centuries. Nature 392, (1998). 779787.Google Scholar
Meyers, P.A. Preservation of elemental and isotopic source identification of sedimentary organic matter. Chemical Geology 114, (1994). 289302.Google Scholar
Parrington, J.R., Zoller, W.H., and Aras, N.K. Asian dust: seasonal transport to the Hawaiian Islands. Science 220, (1983). 195197.Google Scholar
Peng, Y.J., Xiao, J., Nakamura, T., Liu, B.L., and Inouchi, Y. Holocene East Asian monsoonal precipitation pattern revealed by grain-size distribution of core sediments of Daihai Lake in Inner Mongolia of north-central China. Earth and Planetary Science Letters 233, (2005). 467479.Google Scholar
Qi, L., Hu, J., and Gregoire, D.C. Determination of trace elements in granites by inductively coupled plasma mass spectrometry. Talanta 51, 3 (2000). 507513.Google Scholar
Smith, S.L. The development and implementation of Canadian sediment quality guidelines. Development and Progress in Sediment Quality Assessment: Rational, Challenge, Techniques & Strategies. (1996). SPB Academic Publishing, Amsterdam. 233249.Google Scholar
Snape, I., Scouller, R.C., Stark, S.C., Stark, J., Riddle, M.J., and Gore, D.B. Characterisation of the dilute HCl extraction method for the identification of metal contamination in Antarctic marine sediments. Chemosphere 57, 6 (2004). 491504.CrossRefGoogle ScholarPubMed
Sun, Q.L., and Xiao, J.L. Characteristics of the Holocene optimum in the monsoon/arid transition belt recorded by core sediments of Daihai Lake, North China. Quaternary Sciences 26, (2006). 781790. (in Chinese with English abstract) Google Scholar
Sun, Q.L., Wang, S.M., Zhou, J., Shen, J., Cheng, P., Xie, X.P., and Wu, F. Lake surface fluctuations since the late glaciation at Lake Daihai, North central China: a direct indicator of hydrological process response to East Asian monsoon climate. Quaternary International 194, (2009). 4554.Google Scholar
Talbot, M.R., and Johannessen, T. A high resolution palaeoclimatic record for the last 27,500 years in tropical West Africa from the carbon and nitrogen isotopic composition of lacustrine organic matter. Earth and Planetary Science Letters 111, (1992). 2337.Google Scholar
Velbel, M.A. Temperature-dependence of silicate weathering in nature — how strong a negative feedback on long-term accumulation of atmospheric CO2 and global greenhouse warming. Geology 21, 12 (1993). 10591062.2.3.CO;2>CrossRefGoogle Scholar
Wang, S.M., Yu, Y.S., Wu, R.J., and Feng, M. The Daihai Lake: Environment Evolution and Climate Change (in Chinese). (1990). Univ. of Sci. and Techn. of China Press, Hefei.Google Scholar
White, A.F., and Blum, A.E. Effects of climate on chemical-weathering in watersheds. Geochimica et Cosmochimica Acta 59, 9 (1995). 17291747.Google Scholar
Xiao, J.L., Xu, Q.H., Nakamura, T., Yang, X.L., Liang, W.D., and Inouchi, Y. Holocene vegetation variation in the Daihai Lake region of north-central China: a direct indication of the Asian monsoon climatic history. Quaternary Science Reviews 23, (2004). 16691679.Google Scholar
Xiao, J.L., Wu, J.T., Si, B., Liang, W.D., Nakamura, T., Liu, B.L., and Inouchi, Y. Holocene climate changes in the monsoon/arid transition reflected by carbon concentration in Daihai Lake of Inner Mongolia. The Holocene 16, 4 (2006). 551560.Google Scholar
Xu, H., Liu, B., and Wu, F. Spatial and temporal variations of Rb/Sr ratios of the bulk surface sediments in Lake Qinghai. Geochemical Transactions 11, 3 (2010). http://dx.doi.org/10.1186/1467-4866-11-3Google Scholar
Ying, W.M., Batley, G.E., and Ahsanullah, M. The ability of sediment extractants to measure the bioavailability of metals to 3 marine-invertebrates. Science of the Total Environment 125, (1992). 6784.Google Scholar
Zeng, Y., Chen, J.A., Zhang, W., Zhu, Z.J., and Li, J. The non-residual Rb/Sr ratio of the Huguangyan Maar Lake and its implications for paleoclimate change. Geochimica 40, (2011). 249257. (in Chinese with English abstract) Google Scholar
Zeng, Y., Chen, J.A., Zhu, Z.J., Li, J., Wang, J.F., and Wan, G.J. The wet Little Ice Age recorded by sediments in Huguangyan Lake, tropical South China. Quaternary International 263, (2012). 5562.Google Scholar
Zhang, J.C., and Lin, Z.G. Climate of China. (1992). Wiley, New York.Google Scholar
Zhou, Y.K., Jiang, J.H., Huang, Q., and Sun, Z.D. Analysis on water salinization process of Daihai Lake in Inner Mongolia. Journal of Arid Land Resources and Environment 22, 12 (2008). 5155. (in Chinese with English abstract) Google Scholar