Abstract
The limited knowledge of Late Cretaceous terrestrial environments and their response to tectonic events in mid-latitudes can be addressed through continental basin deposits such as paleosols. Paleosols have been discovered in the Late Cretaceous Yaojia Formation in the southern Songlaio Basin and are recognized by evidence of soil structures controlled by pedogenesis. Sedimentary facies research on red paleosols was conducted on the Late Cretaceous Yaojia Formation in the outcrop of the southern Songliao Basin to interpret the depositional environments and tectonic significance of red paleosols during the greenhouse period. Mudflat, lake margin, and shallow lake depositional environments in a semi-arid climate are interpreted from the outcrops based on sedimentary descriptions and interpretation as well as geochemical and micromorphological analyses of paleosols in outcrops. We reconstructed the paleoenvironmental and paleoclimatic conditions through the paleosols in the mudflats and lake margin. The red paleosols in the mudflats and lake margin deposits formed in a stable landscape influenced by the tectonic uplift of the Songliao Basin, which is considered as new important evidence for tectonic uplift influenced by the collision of the Okhotomorsk Block with East Asia. The tectonic uplift process in East Asia is identified from the evolution of the depositional environments and drainage conditions inferred from different types of paleosols. Thus, the paleosols-bearing red bed deposits in outcrops provide an important contribution of the Late Cretaceous terrestrial paleoclimate and the tectonic setting research.
Highlights
Paleosols record a pedogenesis process after the deposition of sediments in geological history [1,2,3]
Paleosol research has been used in fluvial sedimentology research and key sequence stratigraphy boundary identification to explore the evolution of depositional environments and sequence stratigraphy [9,10,11,12,13]
Research of paleosols is key to understanding the Late Cretaceous terrestrial paleoclimate and depositional environment [16,17,18,19]
Summary
Paleosols record a pedogenesis process after the deposition of sediments in geological history [1,2,3]. Research of paleosols is key to understanding the Late Cretaceous terrestrial paleoclimate and depositional environment [16,17,18,19]. The evolution of the depositional environments, tectonics, and paleoclimate of the basin were well documented in previous studies [20,21,22,23,24,25]. The complete Cretaceous sedimentary record provides a good opportunity for terrestrial paleosols research. In the Southern Songliao Basin, a fluvial–lacustrine succession has been identified in the Late Cretaceous Yaojia Formation, which formed during a greenhouse period. Songliao Basin suggests a long-lasting pedogenic process response to Late Cretaceous tectonic events in East Asia [26]. Red paleosols have been identified from new outcrops [27], providing a good opportunity to investigate the vertical sequence of paleosols in different depositional environments. The goals of this study are (i) to characterize the depositional environments and morphological feature characteristics of paleosols in outcrops; (ii) to constrain quantitative analysis of paleoclimatic conditions from geochemistry study of the paleosols; and (iii) to discuss the response of vertical sequence of the paleosols to tectonic movements
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