干旱区生态环境知识资源中心(Arid): 黑土区土壤侵蚀厚度对土地生产力的影响及其评价

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	黑土区土壤侵蚀厚度对土地生产力的影响及其评价
其他题名	Influence of soil erosion thickness on soil productivity of black soil and its evaluation
	刘慧 1; 魏永霞 2
来源期刊	农业工程学报
ISSN	1002-6819
出版年	2014
卷号	30 期号:20 页码:288-296
中文摘要	为了研究黑土区土壤侵蚀厚度对土地生产力的影响,采用盆栽试验,人为剥离黑土表层0、5、10、15、20、25和30 cm土壤以模拟侵蚀厚度不同的耕层土壤,分析土壤侵蚀厚度对土壤理化性质、大豆生物性状和水分利用效率等指标的影响。并对TOPSIS(technique for order preference by similarity to ideal solution)模型进行改进,用于评价侵蚀厚度不同的土壤的土地生产力。结果表明:土壤全N、碱解N、全P、速效P、有机质含量和土壤田间持水率均随侵蚀厚度的增加而递减,土壤容重随侵蚀厚度的增加而递增。土壤侵蚀厚度对大豆生长有显著影响,随着侵蚀厚度的增加,大豆减产率呈S 型曲线递增,产量、耗水量呈Z 型曲线递减,水分利用效率呈指数曲线关系递减。改进的TOPSIS模型对不同侵蚀厚度下土地生产力的评价结果较为理想,计算的土地生产力指数随土壤侵蚀厚度的变化呈Z型曲线,与大豆产量的变化趋势相同,且二者呈指数函数关系,决定系数达0.996,均方根误差为0.65。研究结果可为黑土区土壤侵蚀防治提供理论依据。
英文摘要	Soil erosion is one of the most widespread ecological problems in the world. It accelerates the process of land desertification, causes soil degradation and soil productivity reduction; affects the agricultural development and food security; and seriously restricts the sustainable development of society, economy, and ecology in the world. In the black soil region of Northeast China, where is the most important grain production area and one of six soil erosion regions in China, serious soil erosion causes a decrease in the black soil thickness, leading to a steep decline in soil productivity. In this study, the influence of soil erosion thickness on the indexes of soil physicochemical properties, soybean biological traits and water use efficiency in the black soil region were studied in a pot experiment in 2012 and 2013. The tested soil was obtained from 0, 5, 10, 15, 20, 25, and 30 cm below the surface layer to simulate the plough layer soil with soil erosion thickness of 0, 5, 10, 15, 20, 25, and 30 cm. A quantitative model of soybean yield in the black soil region on the soil erosion thickness was established to explore the response of soybean yield to soil erosion thickness. Combining the physical and chemical properties of the soil in the experimental zone, the TOPSIS model is improved, by which the soil productivity under different soil erosion thickness was evaluated. The results showed that soil erosion thickness had a significant influence on many important indicators of soil quality. Total N, alkaline hydrolysis N, total P, available P, organic matter content, and field moisture capacity decreased, whereas soil bulk density increased. With the increase in erosion thickness; total K and available K contents had no remarkable changes. Soil erosion thickness also had a significant influence on soybean growth, which was mainly reflected by the reduction in plant height, decreased in the number of pods and grains per plant, resulting in decrease of soybean yield. With the increase of the soil erosion thickness, soybean yield reduction rate increased in a S-shaped curve, soybean yield and water consumption decreased in a Z-shaped curve, while water use efficiency decreased in the form of exponential function. The TOPSIS and improved TOPSIS models were used to calculate the soil productivity indexes under different soil erosion thicknesses, and a comparative analysis was carried out between the results of the two models and the commonly used fuzzy matter-element model. The three models had a high consistency in the soil productivity evaluation, and among which the improved TOPSIS model was the most adequate one. The soil productivity indexes calculated by the fuzzy matter-element and TOPSIS models showed a good linear relationship with soil erosion thickness, while the indexes calculated by the improved TOPSIS model showed a Z-shaped curve, which was consistent with the change of soybean yield. To further analyze the evaluation results of the three models, regression analysis was conducted on the soil productivity indexes and the soybean yield. The result showed that, soybean yield had a linear relationship with the soil productivity indexes calculated by the fuzzy matter-element and TOPSIS models but an exponential relationship with that calculated by the improved TOPSIS model. The soil productivity indexes calculated by the improved TOPSIS model developed from this study can properly reflect the soil productivity levels under different soil erosion thicknesses and can be used for the evaluation of soil productivity. The results will provide a more reasonable and reliable evaluation method and valuable information for further study on soil erosion prevention and control in the black soil region.
中文关键词	土壤 ; 侵蚀 ; 农作物 ; 黑土区 ; 土地生产力 ; TOPSIS模型改进 ; 评价
英文关键词	soils erosion crops black soil region soil productivity the improved TOPSIS model evaluation
语种	中文
国家	中国
收录类别	CSCD
WOS类目	AGRICULTURE MULTIDISCIPLINARY
WOS研究方向	Agriculture
CSCD记录号	CSCD:5294583
资源类型	期刊论文
条目标识符	http://119.78.100.177/qdio/handle/2XILL650/231491
作者单位	1.东北农业大学水利与建筑学院, 哈尔滨, 黑龙江 150030, 中国; 2.东北农业大学水利与建筑学院, 农业部农业水资源高效利用重点实验室;;黑龙江省高校节水农业重点实验室, 哈尔滨, 黑龙江 150030, 中国
推荐引用方式 GB/T 7714	刘慧,魏永霞. 黑土区土壤侵蚀厚度对土地生产力的影响及其评价[J],2014,30(20):288-296.
APA	刘慧,&魏永霞.(2014).黑土区土壤侵蚀厚度对土地生产力的影响及其评价.农业工程学报,30(20),288-296.
MLA	刘慧,et al."黑土区土壤侵蚀厚度对土地生产力的影响及其评价".农业工程学报 30.20(2014):288-296.