其他摘要 | Straw mulching is one of the important conservation tillage measures, and has a positive effect on reducing soil
erosion on slopping farmland. In order to study the impact of straw length on the hydrodynamic characteristics of overland
flow, indoor artificial fixed bed erosion resistance experiments were carried in the Soil and Water Conservation Engineering
Laboratory in Northwest A&F University. The study area was located in the southern Loess Plateau, Shaanxi Province, China
(34°14′–34°20′N, 107°59′–108°08′E). By the scour trough, the variations of hydrodynamic parameters of overland flow such
as flow velocity, runoff depth, Reynolds number, Froude number, Darcy-Weisbach resistance coefficient and Manning
roughness coefficient were determined at 4 slope gradients (3°, 5°, 10° and 15°), 5 flow rates (3.0, 4.5, 6.0, 7.5 and 9.0 L/min)
and 3 wheat straw lengths (3-5, 8-10 and 13-15 cm). The slope without straw mulch was considered as the control (CK). The
results showed that under the experimental condition, the wheat straw length greatly affected the hydrodynamic parameters.
Under straw mulching with different straw lengths, Reynolds number ranged from 166 to 558, the overland flow was primarily
laminar and subcritical flow when the flow rate was less than or equal to 7.5 L/min, and transformed into transition and
subcritical flow while the flow rate was 9.0 L/min. Under the conditions of straw mulching, compared with bare slope, the
overland flow ran with smaller flow velocity and higher runoff depth, Darcy-Weisbach resistance coefficient and Manning
roughness coefficient. Straw length affected the runoff depth. Compared with the bare slope, the runoff depth of overland flow
on slope with the straw length was increased by 107.69%-178.64%. Straw mulching could decrease the flow velocity by
48.30%-60.64% than the CK. The runoff depth decreased as the straw length increased, and the flow velocity increased with
the increase in straw length. The flow state index of overflow with straw mulching was reduced with increased of straw length
and slope gradient. When the straw length increased from 3-5 cm to 13-15 cm, the average flow state index was decreased
from 0.716 to 0.501. The Darcy-Weisbach resistance coefficient was 0.14-1.47 on bare slope, 2.67-8.00 on slope with 3-5 cm
straw mulch, 2.39-6.36 on slope with 8-10 cm straw mulch and 1.31-4.28 on slope with 13-15 cm straw mulch, respectively. It
averagely increased by 20.89, 15.69 and 8.17 times respectively compared with the bare slope, indicating that the straw mulch
could strongly resist the flow movement. Darcy-Weisbach resistance coefficient was decreased with the increase in straw
length. The Manning roughness coefficient was 0.013-0.044 on the bare slope, 0.071-0.132 on slope with 3-5 cm straw mulch,
0.067-0.118 on slope with 8-10 cm straw mulch and 0.049-0.083 on slope with 13-15 cm straw mulch, respectively. It
increased by 4.38, 3.64 and 2.33 times respectively compared with the bare slope. Manning roughness coefficient was reduced
with straw length increased. This study could provide reliable information for clarifying the mechanism behind soil erosion
with straw mulching on farmland slope. |
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