ISWC OpenIR  > 水保所知识产出(1956---)
基于 VFSMOD 模型的黄土坡面生草带 产流产沙动态模拟
潘岱立1; 赵西宁1; 高晓东1; 宋亚倩2; 吴普特1
Source Publication农业工程学报

:利用微型径流小区和人工降雨试验,探讨运用VFSMOD 模型评估和预测引入不同草种生草带后黄土坡面产流产
根草带9 月上旬)不能保证较好的生长状态和地表覆盖时,其坡面产沙量急剧增大,且明显大于VFSMOD 模型模拟值。
在实际生草带设计时,应避免该情况发生。综上,VFSMOD 模型适用于引入生草带后黄土坡面产流、产沙量的模拟和预测

Other Abstract

The vegetation filter strip is an effective land management practice to reduce the runoff and sediment yield in the
sloping orchards in Loess Plateau, China. In the present paper, the feasibility of using vegetative filter strip model (VFSMOD)
as a tool to predict the runoff coefficient and sediment yield of vegetative filter strip was evaluated. The experiment was
carried out in Yangling, Shannxi. The loess soil was silt loam with bulk density of 1.35-1.40 g/cm3. Two kinds of plots
included jujube-grass plots (each was 1.4 m in length, 0.8 m in width and 0.8 m in height) and jujube plots (each was 0.8 m in
length, width and height). In 2011, a jujube (Ziziphus jujube Mill.) tree was planted in the center at 0.8 m away from the upper
boundary of the plots and grass was planted at the seeding rate of 15 g/m2 in the center at 0.6 m away from the lower boundary
of the plots. Grass species were white clover (Triolium repens L.) and birdfoot trefoil (Lotus corniculatus L.) conjoined to
source areas. Each type of vegetative filter strip treatments had 3 replications. Simulated rainfalls were applied in 3
development periods (early, middle and late period) of the grass. In each period, 3 rainfall events with different intensities (1.0,
1.2 and 1.5 mm/min) and identical rainfall duration of 60 minutes were designed. The initial soil water content was 0.26-0.29
for all the rainfalls. Grass was cut to 10 cm in height before rainfall. Runoff from each plot was collected for runoff coefficient
(the ratio of runoff to rainfall) calculation and sediment yield measurement. Meanwhile, the VFSMOD model was used to
simulate the runoff coefficient and sediment yield. The results showed that the bias of runoff coefficient simulation was
between -10% and 10%. The Nash coefficient (NE) was higher than 0.9 and the normalized root mean square (NRMSE) was
6.2%. It indicated that the simulation was reliable for runoff. For the sediment yield, the model had the NRMSE of 41.5%. The
bias analysis showed that the large error occurred to the birdfoot trefoil at the rainfall intensity of 1.2 and 1.5 mm/min. The
VFSMOD model underestimated the sediment yield of birdfoot trefoil filter strip in late September by 28.8% at 1.2 mm/min rainfall
intensity and 40.6% at 1.5 mm/min rainfall intensity. The large bias might be attributed to the poor growth status of birdfoot
trefoil vegetation filter strip in late September (the stem spacing of 3.07 cm) and poor coverage on the ground. Soil erosion
occurred inside the vegetation filter strip in this condition, which was contradicted with the assumption of VFSMOD on soil
erosion inside the vegetation filter strip. In the practice, the poor growth status at the storm season should be avoided since it
would lead to great sediment yield. Removing these values of birdfoot trefoil, the model had a better simulation with NRMSE
of 10.9% and NE of 0.98. Thus, the VFSMOD could well simulate the runoff and sediment yield of soil in the white clover
filter strips and the filter strips of birdfoot trefoil at the early and middle development periods. The simulated results showed
that the runoff coefficient increased during the development periods of the 2 grass species. The runoff coefficient was
9.2%-29.6%. The runoff coefficient increased with increasing the rainfall intensity, indicating the large rainfall may lead to big
runoff. At the same rainfall intensity and development period, the white clover had the lower runoff coefficient (P<0.05) than
the birdfoot trefoil. It suggested that the former grass had the better runoff reduction effect after rainfall. The sediment yield of
the 2 species was different. At the early period, both were similar in sediment yield. At the late period, the sediment yield of
birdfoot trefoil was significantly higher than the white clover (P<0.05). Since the plot with the white clover filter strip had the
small runoff and sediment yield in September when rainfall occurs frequently in the loess plateau. Thus, it rather than the
birdfoot trefoil was probably suitable to use for filter strip in the loess plateau especially in September.

Keyword径流 泥沙 Vfsmod 模型 黄土坡面 生草带 生长时期
Indexed By中文核心期刊要目总览
Document Type期刊论文
Recommended Citation
GB/T 7714
潘岱立,赵西宁,高晓东,等. 基于 VFSMOD 模型的黄土坡面生草带 产流产沙动态模拟[J]. 农业工程学报,2017,33(8):119-125.
APA 潘岱立,赵西宁,高晓东,宋亚倩,&吴普特.(2017).基于 VFSMOD 模型的黄土坡面生草带 产流产沙动态模拟.农业工程学报,33(8),119-125.
MLA 潘岱立,et al."基于 VFSMOD 模型的黄土坡面生草带 产流产沙动态模拟".农业工程学报 33.8(2017):119-125.
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