华北典型潮土区土壤质量综合评价

Comprehensive Evaluation of Soil Quality in Typical Fluvo-aquic Soil Region of North China

  • 摘要:
      目的  为了有针对性选取典型潮土区的土壤质量评价最优方法,而进行不同种植制度下的土壤质量评价。
      方法  以华北典型潮土区为研究区域,结合实测与调研数据,运用主成分分析法筛选最小数据,基于线性和非线性两种评分指标方法与加性(SQIa)、加权加性(SQIw)和记忆(SQIn)三种不同的土壤质量指数法。选取最优方法的同时,评价典型潮土区不同种植制度下的土壤质量。
      结果  ①描述性统计分析表明,河北省中部潮土区土壤pH变异系数属于弱变异性,其余指标都属于中等变异性;有效磷、阳离子交换量(CEC)、土壤有机质(SOM)、土壤的速效养分含量的变异系数较大。②相关性研究表明,作物单产与SOM、全氮(TN)和缓效钾含量显著正相关,与土壤pH、速效钾、水溶态硼、有效铜、有效锌和有效铜含量呈显著负相关。③方法研究表明,典型潮土区最小数据集是SOM、缓效钾、有效铁、水解性氮、有效锌、有效磷、有效硫含量。不同方法最小数据集(MDS)与总数据集(TDS)的相关性强弱为:SQIw-NL > SQIa-NL > SQIw-L > SQIa-L > SQIn-L > SQIn-NL。④空间特征研究表明,研究区的土壤质量主要由中等等级II、III和IV等级主导。土壤质量指数(SQI)从南到北减少。⑤土地利用研究表明,不同种植制度土壤质量的大小顺序为:小麦-玉米/豆 > 花生 > 麦-玉米 > 棉花 > 玉米。
      结论  华北潮土区的最佳土壤质量评价方法是SQIw-NL法,最小数据集为SOM、缓效钾、有效铁、水解性氮、有效锌、有效磷、有效硫含量,不同管理措施一定程度下影响了作物的生长发育,且小麦-玉米/豆轮作可以提升土壤质量,献县的土壤质量相对较高。

     

    Abstract:
      Objective  In order to select suitable evaluation methods for soil quality in typical fluvo-aquic soil region, soil quality under different planting systems was evaluated.
      Method  The typical fluvo-aquic region of North China was taken as the study area, combined the measured and investigation data, the principal component analysis method was used to select the minimum data. Based on the two scoring methods of linear and nonlinear and three different soil quality index methods of SQIa, SQIw and SQIn, the optimal method was selected to evaluate the soil quality under different planting systems in typical fluvo-aquic area.
      Result  ① Descriptive statistical analysis showed that the coefficient of variation of soil pH in the fluvo-aquic soil region of central Hebei Province belongs to weak variability, while the other indices belong to moderate variability, and the coefficients of variation of available phosphorus, cation exchange capacity, organic matter and soil available nutrients are relatively large. ② Correlation studies showed that crop yield per unit area was significantly positively correlated with organic matter, total nitrogen and slowly available potassium, and negatively correlated with available potassium, water-soluble boron, pH, available copper, available zinc and available copper. ③ The results showed that the minimum data set of typical fluvo-aquic soil area were organic matter, slowly available potassium, available iron, hydrolytic nitrogen, available zinc, available phosphorus and available sulfur. The correlation between MDS and TDS by different methods is as follows: SQIw-NL > SQIa-NL > SQIw-L > SQIa-L > SQIn-L > SQIn-N. ④ The spatial characteristics showed that the soil quality in the study area was mainly dominated by medium grade II, III and IV. The soil quality index (SQI) decreased from south to north. ⑤ Land use research showed that the order of soil quality of different planting systems was as follows: wheat-corn / bean > peanut > wheat-corn > cotton > corn.
      Conclusion  The best soil quality evaluation method in the fluvo-aquic soil region of North China is SQIw-NL method, and the minimum data set are organic matter, slowly available potassium, available iron, hydrolytic nitrogen, available zinc, available phosphorus and available sulfur. Different management measures affect the growth and development of crops to a certain extent, and wheat-corn / bean rotation can improve soil quality, and the soil quality of Xianxian County is relatively higher.

     

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