The black soil region of northeast China,which covers the Provinces of Heilongjiang,Jilin and the Inner Mongolia autonomous region with black soil,chernozem and meadow soil,has experienced soil erosion since intense agricultural reclamation began approximately 100 years ago.However,the sediment delivery ratio,defined as the fraction of gross erosion that is transported from a given area in a given time interval,is still unclear.In this study,we calculated the delivery ratio and analysed changes in erosive processes within Hebei catchment from 1977 to 2007 based on an analysis of sediments of the Liudui reservoir.The original vegetation layer clearly identified the bottom of the reservoir when it was constructed in 1977;thus,the reservoir sediments could be precisely dated.The delivery ratio,calculated by comparing the sediment deposition in the reservoir with the total soil erosion in the upstream catchment,was found to be exponentially correlated(r~2 = 0.95,P < 0.01) with decreasing grain size,except for the fraction <0.002 mm.The delivery ratio for the clays(<0.002 mm) was low,averaging 0.10 during the study period, which indicated partial removal of clays from the reservoir.The changes in the reservoir deposition rate reflected the temporal changes in the erosion processes.The exceptionally high rainfall in 1998 was confirmed by the distributions of ~(137)Cs,~(210)Pb,and the grain-size of the sediments.Beginning from the position of the original grass layer,we defined three periods from 1977 to 2007 based on deposition rates:2.40 cm year~(-1) from 1977 to 1997,5.60 cm year~(-1) in 1998 due to unusually high rainfall,and 1.55 cm year~(-1) from 1999 to 2007.The overall average deposition rate for the entire period was 2.26 cm year~(-1).Precipitation was found to be the main factor affecting the soil erosion of the study area. The black soil region of northeast China, which covers the Province of Heilongjiang, Jilin and the Inner Mongolia autonomous region with black soil, chernozem and meadow soil, has experienced soil erosion since intense agricultural reclamation began approximately 100 years ago. However, the sediment delivery ratio, defined as the fraction of gross erosion that is transported from a given area in a given time interval, is still unclear. In this study, we calculated the delivery ratio and analyzed changes in erosive processes within Hebei catchment from 1977 to 2007 based on an analysis of sediments of the Liudui reservoir. The original vegetation layer clearly identified the bottom of the reservoir when it was constructed in 1977; thus, the reservoir sediments could be August dated. The delivery ratio, calculated by comparing the sediment deposition in the reservoir with the total soil erosion in the upstream catchment, was found to be exponentially correlated (r ~ 2 = 0.95, P <0.01) with decreasing g rain size, except for the fraction <0.002 mm. The delivery ratio for the clays (<0.002 mm) was low, averaging 0.10 during the study period, which showed partial removal of clays from the reservoir. changes in the reservoir deposition rate reflected the temporal changes in the erosion processes. The exceptionally high rainfall in 1998 was confirmed by the distributions of ~ 137 Cs, ~ 210 Pb, and the grain-size of the sediments.Beginning from the position of the original grass layer. , we defined three periods from 1977 to 2007 based on deposition rates: 2.40 cm year -1 from 1977 to 1997,5.60 cm year ~ (-1) in 1998 due to unusually high rainfall, and 1.55 cm year ~ (- 1) from 1999 to 2007. The overall average deposition rate for the entire period was 2.26 cm year ~ (-1) .Precipitation was found to be the main factor affecting the soil erosion of the study area.