%0 Journal Article %A Duowen MO %A Liping ZHOU %A Gengnian LIU %A Youli LI %A Zhengkai XIA %A Jiafu ZHANG %A Yiyin LI %T Establishment and development of geomorphology and Quaternary sciences at Peking University %D 2017 %R 10.11821/dlxb201711005 %J Acta Geographica Sinica %P 1974-1996 %V 72 %N 11 %X

As a result of the reorganization of the universities and academic departments in 1952, Peking University set up the Department of Geology and Geography and started the teaching and research in Geomorphology and Quaternary science. This marked the establishment of the discipline of Geomorphology and Quaternary at Peking University. Over the past 65 years, great achievements have been made in the fields such as neotectonic activity and tectonic geomorphology, climatic geomorphology, fluvial geomorphology and sedimentology, sedimentary facies and comparative sedimentology, remote sensing and geographical information system, Quaternary stratigraphy and chronology, Quaternary climate and environmental change, marine geochemical processes and environmental evolution, and environmental archaeology and past human-environment interaction. These progresses have not only played an innovative and leading role in some of the related research areas, but also helped to solve a series of practical problems in the national economic development, thus representing great contribution to the development of Geomorphology and Quaternary science in China.

With the increasing diversification in the field of geography, the discipline development and scientific research of Geomorphology and Quaternary Science in Peking University will strengthen integration with all branches of physical geography and other fields of Earth Science within the framework of Earth System Science. To contribute more to the development of Geomorphology and Quaternary Science in China, particular emphasis will be put on the research on the links between the geomorphological evolution of different macroscopic spatio-temporal scales and the modern processes, and on the understanding of complex impacts of various components of the earth system on the evolution of geomorphology. Systematic simulation and numerical modeling on the climate change, environmental evolution and geomorphologic processes will be developed. Both theoretical research and the development and application of new technology in Geomorphology and Quaternary Science will be strengthened.

%U https://www.geog.com.cn/EN/10.11821/dlxb201711005