农业工程学报
農業工程學報
농업공정학보
2013年
21期
115-125
,共11页
秦伟%左长清%郑海金%马良%杜鹏飞
秦偉%左長清%鄭海金%馬良%杜鵬飛
진위%좌장청%정해금%마량%두붕비
土壤%侵蚀%降雨%土壤流失方程%降雨侵蚀力因子%土壤可蚀性因子%生物措施因子%工程措施因子
土壤%侵蝕%降雨%土壤流失方程%降雨侵蝕力因子%土壤可蝕性因子%生物措施因子%工程措施因子
토양%침식%강우%토양류실방정%강우침식력인자%토양가식성인자%생물조시인자%공정조시인자
soils%erosion%rain%soil loss equation%rainfall erosivity factor%soil erodibility factor%biological measures factor%engineering measures factor
土壤流失方程是开展水土流失监测,指导水土流失防治的重要技术工具。针对红壤坡地土壤流失方程因子算法和取值研究薄弱的问题,基于野外径流小区观测资料,采用80%经验频率法确定了赣北红壤区侵蚀性降雨标准为降雨量10.0 mm、平均雨强1.3 mm/h、最大30 min雨强5.0 mm/h,区内次降雨侵蚀力采用总动能和最大30 min雨强乘积计算最佳。通过建立基于年降雨量的逐年侵蚀力简易算式,测算土壤可蚀性因子以及6种生物措施因子、5种工程措施因子取值,选定适宜的地形因子算式,构建了赣北红壤坡地土壤流失方程体系。经检验,模型能良好预报赣北红壤坡地多年平均土壤侵蚀强度;年际尺度预报的精度整体较高,但对于降雨较多年平均水平浮动较大或地表出现沟蚀等侵蚀类型时,预报精度将有所降低。有关因子的确定可为土壤流失方程在南方红壤坡地水土流失监测和水土保持规划中的应用提供技术支撑。
土壤流失方程是開展水土流失鑑測,指導水土流失防治的重要技術工具。針對紅壤坡地土壤流失方程因子算法和取值研究薄弱的問題,基于野外徑流小區觀測資料,採用80%經驗頻率法確定瞭贛北紅壤區侵蝕性降雨標準為降雨量10.0 mm、平均雨彊1.3 mm/h、最大30 min雨彊5.0 mm/h,區內次降雨侵蝕力採用總動能和最大30 min雨彊乘積計算最佳。通過建立基于年降雨量的逐年侵蝕力簡易算式,測算土壤可蝕性因子以及6種生物措施因子、5種工程措施因子取值,選定適宜的地形因子算式,構建瞭贛北紅壤坡地土壤流失方程體繫。經檢驗,模型能良好預報贛北紅壤坡地多年平均土壤侵蝕彊度;年際呎度預報的精度整體較高,但對于降雨較多年平均水平浮動較大或地錶齣現溝蝕等侵蝕類型時,預報精度將有所降低。有關因子的確定可為土壤流失方程在南方紅壤坡地水土流失鑑測和水土保持規劃中的應用提供技術支撐。
토양류실방정시개전수토류실감측,지도수토류실방치적중요기술공구。침대홍양파지토양류실방정인자산법화취치연구박약적문제,기우야외경류소구관측자료,채용80%경험빈솔법학정료공북홍양구침식성강우표준위강우량10.0 mm、평균우강1.3 mm/h、최대30 min우강5.0 mm/h,구내차강우침식력채용총동능화최대30 min우강승적계산최가。통과건립기우년강우량적축년침식력간역산식,측산토양가식성인자이급6충생물조시인자、5충공정조시인자취치,선정괄의적지형인자산식,구건료공북홍양파지토양류실방정체계。경검험,모형능량호예보공북홍양파지다년평균토양침식강도;년제척도예보적정도정체교고,단대우강우교다년평균수평부동교대혹지표출현구식등침식류형시,예보정도장유소강저。유관인자적학정가위토양류실방정재남방홍양파지수토류실감측화수토보지규화중적응용제공기술지탱。
A soil loss equation is an important technique for monitoring and preventing soil erosion. Based on field observation data from runoff plots, standards on erosive rainfall in red-soil slop land located in northern Jiangxi province were defined by using the method of 80%experience frequency. Results showed that the rainfall amount, average rainfall intensity, and break point intensity of 30 minutes of erosive rainfall standards were 10.0 mm, 1.3 mm/h, and 5.0 mm/h, respectively. The best result of individual rainfall erosion was calculated through the product of the total rainfall energy and the break point intensity of 30 minutes. The soil loss equation of the red-soil slop land in northern Jiangxi province was established based on building annual rainfall erosion regression models, selecting the topographic factor algorithm, measuring the value of the soil erodibility factor, and calculating the factor values of six biological measures and five engineering measures factors. The mean relative error (MRE), linear regression coefficient (R2), and the Nash-Suttclife efficiency coefficient (Ens), were used in the simulation results evaluation. Upon testing, when preventing annual average erosion intensity, the MRE, R2 and Ens were 5.48%, 0.99, and 0.99 for the simulation values of the soil loss equation and the observed values. When preventing inter-annual average erosion intensity, the R2 and Ens were 0.95 and 0.89. The results suggested that the equation can be used to predict annual average and inter-annual average soil erosion intensity precisely. However, its predicting accuracy is reduced while rainfall significantly deviates from multi-year mean level or gully erosion and other types occur on slope land. All of these can provide technological support for the monitoring and planning of water and soil conservation in the southern red-soil area.