The Skyline of Paleopedology

A.O. Makeev, A. V. Rusakov
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Abstract

Paleopedology is a booming scientific discipline that studies the soils of the past geological epochs in order to assess the paleoenvironmental evolution. The scope of paleosol studies embraces not only soils themselves, but also the products of their involvement in biogeosphere cycles. This ensures the planetary role of pedogenesis, which includes the transformation of the upper layers of the lithosphere leading to the increase in fine earth, formation of new minerals, and residual or accumulative concentration of elements. In the geological history of the Earth, pedogenesis is realized within the framework of exogenesis, which includes weathering, soil formation, sedimentation, diagenesis, and geochemical migration. The pedolithosphere records the critical points in the landscape evolution of the Earth from the very onset of the geological record, including the oxygenation of the atmosphere, the emergence of the higher plants and herbaceous biomes, the dynamics of Interglacial–Glacial cycles, etc. Paleosols are the base for paleogeographic reconstructions and predictive models of the future climate change. Paleopedology expands the horizons of soil science within the system of biogeosphere sciences and determines the development of new scientific disciplines—bacterial paleontology, paleogeochemistry, biogeomorphology, astropedology, geoarchaeology, ecological paleopedology, soil paleocryogenesis and cryobiosphere studies. The historical dimension granted by paleopedology makes pedology a mature historical science.

古生物学的天际线
摘要古土壤学是一门研究过去地质时期土壤以评价古环境演化的新兴学科。古土壤研究的范围不仅包括土壤本身,而且包括它们参与生物地圈循环的产物。这确保了地球上的成土作用,其中包括岩石圈上层的改造,导致细土的增加,新矿物的形成,以及元素的残留或累积浓度。在地球的地质历史中,成岩作用是在外生作用的框架内实现的,外生作用包括风化作用、成土作用、沉积作用、成岩作用和地球化学迁移作用。土壤岩石圈记录了自地质记录开始以来地球景观演化的关键点,包括大气的氧化作用、高等植物和草本生物群落的出现、间冰期-冰期旋回的动态等。古土壤是古地理重建和未来气候变化预测模型的基础。古土壤学拓展了生物地圈科学体系内土壤科学的视野,决定了细菌古生物学、古地球化学、生物地貌学、天体地质学、地质考古学、生态古土壤学、土壤古冻生学和冰冻生物圈研究等新科学学科的发展。古土壤学所赋予的历史维度使土壤学成为一门成熟的历史科学。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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