Reconstructing Pedogenic Processes, Weathering Environments, and Paleoclimate Using the Chemical Composition of Paleosols
The whole-rock chemical composition (major, trace, and REE) of paleosols may be used to distinguish pedogenic processes, weathering environment factors, and paleoclimatic conditions. A variety of major and trace elemental ratios have been proposed as means of quantifying pedogenic processes in paleosols. Critical evaluation of the proposed proxies indicates that ratios for hydrolysis (Al/Si, ΣBases/Al), provenance and acidification (Ti/Al, La/Ce, Sm/Nd, U/Th) perform well for most settings, while ratios for salinization and leaching (Ba/Sr) are not universally applicable. In addition, the derivation and limitations of some widely applied climofunctions for paleotemperature and paleoprecipitation will be discussed. Case studies of both Cenozoic and older paleosols will be used to demonstrate the pedogenic process ratio and climofunction approaches. In the process of discussing the case studies, two new proxies will also be introduced, one for quantifying long-term chemical weathering trends and one for controlling for the effects of potassium metasomatism in moderately to deeply buried paleosols. In general, all of this work suggests the need for a multi-proxy approach rather than relying on any one single proxy.