Daihai Lake,a modern lacustrine rift basin,located in Inner Mongolia,North China,serves as an important modern analog for understanding deltaic depositional processes in an active rift setting. Two of the deltas(Yuanzigou delta and Bulianghe delta) on the margins of Daihai Lake were surveyed to compare and contrast stacking patterns using aerial photographs,field trenching and sediment sampling.Shallow cores and trench data collected from the margins of Daihai Lake indicate that a variety of depositional processes have been active since Daihai Lake formed.Two 3-D sedimentation models which employ chronostratigraphic correlation technique were generated.The chronostratigraphic sedimentation models predict and represent the architectures and sand-body continuity of sediments.Stratigraphical coincidence of the broad sheeted drifts and channel erosion suggests a coupling between downslope and alongslope processes.Distributary mouth bars are prevalent in the front of deltas on steeper slopes due to the dominance of down-slope flows.On the contrary,the along-slope currents favor the development of distal bar deposits with sheeted sandbodies on gentle depositional slopes.This study provides an insight into the architecture of complex sedimentary facies associated with highlighting key differences between downslope flows and alongslope currents.The distribution of sand within these deltas is of particular interests,with applications in understanding the architecture of hydrocarbon reservoirs formed in lacustrine rift basin. Daihai Lake, a modern lacustrine rift basin, located in Inner Mongolia, North China, serves as an important modern analog for understanding deltaic depositional processes in an active rift setting. Two of the deltas (Yuanzigou delta and Bulianghe delta) on the margins of Daihai Lake were surveyed to compare and contrast stacking patterns using aerial photographs, field trenching and sediment sampling. Shallow cores and trench data collected from the margins of Daihai Lake that a variety of depositional processes have been active since ran sedimentation models which employ chronostratigraphic correlation technique were generated. chronostratigraphic sedimentation models predict and represent the architectures and sand-body continuity of sediments. stratigraphical coincidence of the broad sheeted drifts and channel erosion suggests a coupling between downslope and alongslope processes. prevalent in the front of deltas on steeper slope s due to the dominance of down-slope flows.On the contrary, the along-slope currents favor the development of distal bar deposits with sheeted sandbodies on gentle depositional slopes.This study provides an insight into the architecture of complex sedimentary facies associated with highlighting key differences between downslope flows and alongslope currents. the distribution of sand within these deltas is of particular interests, with applications in understanding the architecture of hydrocarbon reservoirs formed in lacustrine rift basin.