Abstract
The sediment yield of the Yellow River Basin has obviously decreased since the 1980s, and the impacts of precipitation on sediment yield changes have become increasingly important with the global climate change. The spatial and temporal variations in annual precipitation and different classes of precipitation in the Hekouzhen-Longmen region (HLR) in the middle reaches of the Yellow River Basin were investigated using data collected from 301 rainfall stations from 1966 to 2016. The impacts of precipitation variation on sediment yield were evaluated, and the hydrological modeling method was used to quantitatively assess the attribution of precipitation and other factors to sediment yield changes in the HLR. The results show that the annual precipitation and P10 increased from the northwest to the southeast of the HLR, suggesting it was drier in the northwest region of the HLR. P25 and P50 were mainly concentrated in the northwestern and southwestern parts of the HLR, reflecting that heavy rain was more likely to occur in these regions of the HLR. All of the annual precipitation and different classes of precipitation had no significant changing trends from 1966 to 2016, and the relationship between rainfall and sediment yield obviously changed in 2006. Compared with the average annual mean values from 1966 to 2016, both the annual precipitation and the different classes of precipitation were higher in the HLR during 2007–2016. The sediment yield decrease during 1990–1999 was mainly influenced by precipitation, while other factors were the main driving factor for the sediment yield decrease in the periods of 1980–1989, 2000–2009, and 2010–2016, and other factors have become the dominant driving factors of the sediment yield change in the HLR since 2000.
Highlights
Introduction e YellowRiver is known for its large sediment discharge and high sediment concentration, and 98% of its sediment originates from the area above the Shaanxian (Tongguan) station on the main channel of the Yellow River
In this study, based on the daily precipitation data collected at 301 rainfall stations in the Hekouzhen-Longmen region (HLR) from 1966 to 2016, we investigated the spatial and temporal variations of annual precipitation and different classes of precipitation, and the impacts of precipitation on sediment yield were investigated
The annual precipitation and P10 increased gradually from the northwest to the southeast of the HLR, and P25 and P50 were mainly concentrated in the northwestern and southwestern parts of the HLR, suggesting that it was drier in the northwest region than the southeast region of the HLR, and heavy rain was more likely to occur in the northwest and southwest regions of the HLR. ere was no significant trend in annual precipitation, P10, P25, P50, and P100 in the HLR from 1966 to 2016
Summary
Introduction e YellowRiver is known for its large sediment discharge and high sediment concentration, and 98% of its sediment originates from the area above the Shaanxian (Tongguan) station on the main channel of the Yellow River. The sediment discharge of the Yellow River has obviously decreased since the 1980s [1]. E average annual sediment discharge of the Tongguan station was only 539 million and 248 million tons for the periods of 1980–2016 and 2000– 2016, representing decreases of 66.3% and 84.5%, respectively. Other studies have analyzed the changes in precipitation in the Yellow River Basin by using the observed precipitation data collected at dozens of weather stations by the National Meteorological Bureau [9,10,11,12], and most of the studies focused on the changes in annual precipitation and precipitation during the flood season [13,14,15]. In view of the uneven spatial distribution of precipitation, we collected data from more additional rainfall stations, which provided more information than the previous studies
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