Rift-related sedimentary evolution and its response to tectonics and climate changes: A case study of the Guaizihu sag, Yingen-Ejinaqi Basin, China.

• The Guaizihu sag has undergone five stages of evolution corresponding to five rift-related sedimentary units. • The north and south sub-sags were connected with each other to form a unified one during late rift climax substage. • The lack of deep-water sedimentary facies during the greatest tectono-subsidence phase was due an arid environment. • There are three typical filling patterns in the tectono-sedimentary evolution of the Guaizihu sag. Distinguished from most existing rift basin evolutionary models, the succession of deep-water deposits in the Guaizihu sag were mainly developed during rift initiation instead of the greatest tectonic subsidence phase. This paper focuses on the detailed analysis of rift-related sequence stratigraphy and sedimentary evolution in this continental rift sag, and discusses tectonic and climatic controls on filling patterns. The deposits of the Guaizihu sag can be ascribed to four major depositional systems: alluvial fan and fan delta, braided delta, sublacustrine fan and shallow to deep lacustrine deposits. They are in part contemporaneous and some succeeding each other, forming five sequence units and corresponding substages of basin evolution: (i) rift initiation, (ii) early rift climax, (iii) middle rift climax, (iv) late rift climax, and (v) late syn-rift substages. With the onset of fault movement and hot-humid climate conditions, the first substage is characterized by a number of poorly linked depocenters, which consist of alluvial fan, fan delta and deep lacustrine deposits with organic-rich mudstones. The second substage is associated with an enhanced activity of border faults and block rotation. This unit is dominated by lacustrine deposits, but fan or braided delta and sublacustrine fans also can be observed. The third substage is marked by the maximum subsidence rate and shallow lakes fringed by fan and braided deltas. The arid environment is likely to be the main factor controlling the lithofacies and filling characteristics of this unit. During the fourth substage two early sub-sags gradually converged to form a uniform one. The relative tectonic quiescence and climate fluctuations (sub-humid to sub-arid) favored carbonate deposition. The late syn-rift unit, which is dominated by fine-grained deposits, is a consequence of degradation of source area (mostly tectonic). This study shows that the effects of tectonics and climate on lacustrine sedimentation are intimately interwoven. Tectonism determines the sag structure, stratigraphic architecture, and spatial distribution pattern of depositional systems. Climatic conditions superimposed on tectonics tends to be the major control on sediment supply, lithofacies types and sedimentary features. [ABSTRACT FROM AUTHOR]