Glacier runoff in mountain areas of the Shiyang River Basin(SRB), Qilian Mountain, western China is important for the river and water supply downstream. Small glaciers with area of less than 1km2 are dominant(87%) in ...Glacier runoff in mountain areas of the Shiyang River Basin(SRB), Qilian Mountain, western China is important for the river and water supply downstream. Small glaciers with area of less than 1km2 are dominant(87%) in the SRB. A modified monthly degree-day model was applied to quantify the glacier mass balance, area, and changes in glacier runoff in the SRB during 1961–2050. The comparison between the simulated and observed snow line altitude, annual glacier runoff, and mass balance from1961 to 2008 suggests that the degree-day model may be used to analyze the long-term change of glacier mass balance and runoff in the SRB. The glacier accumulation shows a significant(p<0.01) decreasing trend of-0.830 mm a-1. The mass balance also shows a significant(p<0.01) decreasing trend of-5.521 mm a-1. The glacier total runoff has significantly(p<0.05)increased by 0.079 × 105 m3 from 1961 to 2008. The monthly precipitation and air temperature are projected to significant(p<0.005) increase during2015 to 2050 under three different scenarios. The ablation is projected to significant(p<0.001) increase,while the accumulation has no significant(p=0.05)trend. The mass balance is projected to decrease, theglacier area is projected to decrease, and the glacier runoff depth is projected to increase. However, the glacier total runoff is projected to decrease. These results indicate that the glacier total runoff over glacier areas observed in 1970 reached its peak in the 2000 s. This will exacerbate the contradiction between water supply and downstream water demands in the SRB.展开更多
Areas of planting sugarcane are located in subtropical and tropical parts of Guangxi. These areas are characterized by high temperature, heavy rainfall and nutrients leaching. It results in strong decomposition of soi...Areas of planting sugarcane are located in subtropical and tropical parts of Guangxi. These areas are characterized by high temperature, heavy rainfall and nutrients leaching. It results in strong decomposition of soil mineral and a low cation exchange capacity (CEC), low organic matter, and low phosphorus (P), potassium (K) and sulfur (S) in soils. In about 30% of the soils in the planting sugarcane regions the total sulfur and the plant-available sulfur are under 150 mg/kg and 12 mg/kg, respectively. The sulfur nutrition is usually supplied insufficiently for sugarcane growth. The total sulfur of and available sulfur are under the medium level in nearly 50% of the soils in the planting sugarcane regions. Therefore, with the improvement of production of the sugarcane, the sulfur soil nutrition will influence and limit sugarcane yield. After application of sulfur fertilizer, available stem, single stem weight increased 5.77%-9.43% of sugarcane yield than without the treatment. It still can improve the cane sugar and fibre content. And the sugarcane can obtain better economic benefits to use the sulfur phosphorus ammonium; it is 18.2-20.23 with output/input (VCR) to use the sulfur fertilizer. Amount of sugarcane absorption sulfur reaches 44.1-67 kg/ha. The treatment with no sulfur fertilizer annual sulfur nutrient lose will be 23.67 kg/ha because sugarcane yield uptake from the field.展开更多
基金supported by the Global Change Research Program of China (Grant No. 2013CBA01806)the China National Natural Science Foundation (Grants Nos. 41130641, 41130638, and 41271090)Shanxi key science and technology innovation team (2014KCT-27)
文摘Glacier runoff in mountain areas of the Shiyang River Basin(SRB), Qilian Mountain, western China is important for the river and water supply downstream. Small glaciers with area of less than 1km2 are dominant(87%) in the SRB. A modified monthly degree-day model was applied to quantify the glacier mass balance, area, and changes in glacier runoff in the SRB during 1961–2050. The comparison between the simulated and observed snow line altitude, annual glacier runoff, and mass balance from1961 to 2008 suggests that the degree-day model may be used to analyze the long-term change of glacier mass balance and runoff in the SRB. The glacier accumulation shows a significant(p<0.01) decreasing trend of-0.830 mm a-1. The mass balance also shows a significant(p<0.01) decreasing trend of-5.521 mm a-1. The glacier total runoff has significantly(p<0.05)increased by 0.079 × 105 m3 from 1961 to 2008. The monthly precipitation and air temperature are projected to significant(p<0.005) increase during2015 to 2050 under three different scenarios. The ablation is projected to significant(p<0.001) increase,while the accumulation has no significant(p=0.05)trend. The mass balance is projected to decrease, theglacier area is projected to decrease, and the glacier runoff depth is projected to increase. However, the glacier total runoff is projected to decrease. These results indicate that the glacier total runoff over glacier areas observed in 1970 reached its peak in the 2000 s. This will exacerbate the contradiction between water supply and downstream water demands in the SRB.
文摘Areas of planting sugarcane are located in subtropical and tropical parts of Guangxi. These areas are characterized by high temperature, heavy rainfall and nutrients leaching. It results in strong decomposition of soil mineral and a low cation exchange capacity (CEC), low organic matter, and low phosphorus (P), potassium (K) and sulfur (S) in soils. In about 30% of the soils in the planting sugarcane regions the total sulfur and the plant-available sulfur are under 150 mg/kg and 12 mg/kg, respectively. The sulfur nutrition is usually supplied insufficiently for sugarcane growth. The total sulfur of and available sulfur are under the medium level in nearly 50% of the soils in the planting sugarcane regions. Therefore, with the improvement of production of the sugarcane, the sulfur soil nutrition will influence and limit sugarcane yield. After application of sulfur fertilizer, available stem, single stem weight increased 5.77%-9.43% of sugarcane yield than without the treatment. It still can improve the cane sugar and fibre content. And the sugarcane can obtain better economic benefits to use the sulfur phosphorus ammonium; it is 18.2-20.23 with output/input (VCR) to use the sulfur fertilizer. Amount of sugarcane absorption sulfur reaches 44.1-67 kg/ha. The treatment with no sulfur fertilizer annual sulfur nutrient lose will be 23.67 kg/ha because sugarcane yield uptake from the field.