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我国风蚀区风速日变率时空变化特征 被引量:5
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作者 袁莹莹 殷水清 +1 位作者 谢云 郭中领 《干旱区地理》 CSCD 北大核心 2018年第3期480-487,共8页
基于我国风蚀区239个气象站点逐时风速数据,采用谐波分析方法分析我国风蚀区风速日变率特征。结果表明:85.3%的站点有且只有第一个谐波通过F检验,日变率以24 h为周期;14.2%的站点第一和二个谐波通过检验,日变率以24 h为主周期,以12 h为... 基于我国风蚀区239个气象站点逐时风速数据,采用谐波分析方法分析我国风蚀区风速日变率特征。结果表明:85.3%的站点有且只有第一个谐波通过F检验,日变率以24 h为周期;14.2%的站点第一和二个谐波通过检验,日变率以24 h为主周期,以12 h为副周期;西藏墨竹工卡站第一和三个谐波通过检验。日平均风速变化范围为0.96~8.36 m·s^(-1),均值为2.42 m·s^(-1);风速>3 m·s^(-1)站点集中分布在内蒙古北部高原、青藏高原地形平坦的高原区、甘肃河西走廊及新疆东北部。季节风速表现出春季>冬季>夏季>秋季的特征;第一个谐波振幅变化范围为0.28~3.28 m·s^(-1);相位变化范围为-1.55~4.67,集中在3.21~4.67,表明大部分站点在午后风速值达到最大。研究可为逐时风速的随机模拟提供基础,进而为风蚀区风蚀量估算提供更好的数据支撑。 展开更多
关键词 风蚀 逐时风速日变率 谐波分析 时空变化
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Estimation of USLE crop and management factor values for crop rotation systems in China 被引量:6
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作者 GUO Qian-kun LIU Bao-yuan +2 位作者 XIE Yun LIU ying-na yin shui-qing 《Journal of Integrative Agriculture》 SCIE CAS CSCD 2015年第9期1877-1888,共12页
Soil erosion on cropland is a major source of environmental problems in China ranging from the losses of a non-renewable resource and of nutrients at the source to contamination of downstream areas. Regional soil loss... Soil erosion on cropland is a major source of environmental problems in China ranging from the losses of a non-renewable resource and of nutrients at the source to contamination of downstream areas. Regional soil loss assessments using the Universal Soil Loss Equation (USLE) would supply a scientiifc basis for soil conservation planning. However, a lack of in-formation on the cover and management (C) factor for cropland, one of the most important factors in the USLE, has limited accurate regional assessments in China due to the large number of crops grown and their complicated rotation systems. In this study, single crop soil loss ratios (SLRs) were col ected and quantiifed for 10 primary crops from past studies or re-ports. The mean annual C values for 88 crop rotation systems in 12 cropping system regions were estimated based on the combined effects of single crop SLRs and the percentage of annual rainfal erosivity (R) during the corresponding periods for each system. The C values in different cropping system regions were compared and discussed. The results indicated that the SLRs of the 10 primary crops ranged from 0.15 to 0.74. The mean annual C value for al 88 crop rotation systems was 0.34, with a standard deviation of 0.12. The mean C values in the single, double and triple cropping zones were 0.37, 0.36 and 0.28, respectively, and the C value in the triple zone was signiifcantly different from those in single and double zones. The C values of dryland crop systems exhibited signiifcant differences in the single and triple cropping system regions but the differences in the double regions were not signiifcant. This study is the ifrst report of the C values of crop rotation systems in China at the national scale. It wil provide necessary and practical parameters for accurately assessing regional soil losses from cropland to guide soil conservation plans and to optimize crop rotation systems. 展开更多
关键词 cover and management factor crop rotation system soil loss ratio rainfall erosivity cropping system region
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