长期施肥对华北农田褐土团聚体微结构与稳定性的影响

    Effects of long-term fertilization on the microstructure and stability of cinnamon soil aggregates in cropland of North China

    • 摘要: 为定量分析不同施肥措施对华北农田褐土微观结构及稳定性的影响,该研究依托长期定位施肥试验,集成同步辐射显微CT(SR-μCT)与图像处理技术对不施肥(CK)、氮磷钾肥(NPK)和有机、无机配施(OF)三种处理土壤团聚体微结构及其稳定性进行定量分析,结果表明:经过26 a不同施肥处理,研究区土壤孔隙微结构与稳定性产生了实质性变化,其中长期OF处理土壤孔隙度、大孔隙率、狭长孔隙率、平均孔隙直径、平均弯曲度、孔喉平均表面积及平均质量直径等指标较CK处理分别提升了23.84%、145.71%、21.43%、37.16%、21.3%、51.12%和59.26%,表明长期OF处理显著改善了研究区土壤微结构,提升了团聚体稳定性。长期NPK处理与CK处理土壤团聚体在微结构特征与稳定性方面相似,但大孔隙(等效直径≥500 μm)率均显著低于OF处理(P<0.05)。研究结果可为农业土壤质量评价与保护提供支撑。

       

      Abstract: Abstract: Aggregates are the crucial building blocks to form the foundation of soil structure for better soil stability. Moreover, the pore structure of aggregates can pose a great impact on the transport and distribution of solutes and gases, particularly on bioactivity and hydraulic characteristics. Many biotic and abiotic factors can also influence the pore system of soil aggregates. It is difficult to detect the pore structure at the aggregate level so far. The abiotic measures can also be one of the most important steps to determine the soil pore structure in recent years. However, there is still a relatively large current controversy on the effects of different long-term fertilization on the soil microstructure characteristics (porosity, pore size distribution, and tortuosity) and stability, due mainly to the different types of soils, fertilizer, crops, and tillage. Fortunately, a variety of Computed Tomography (CT) techniques combined with image analysis can provide the three-dimensional (3D) distribution of porosity and pore size for better investigation of the 3D microstructure of soil aggregates. Synchrotron-based X-ray micro-CT (SR-μCT) can be another excellent tool for the higher resolution, stronger contrast, and faster scanning speed during characterization. The objective of this study was to evaluate the impacts of long-term different patterns of fertilization (no fertilizer, inorganic fertilizer, and combination of organic and inorganic application) on the aggregate microstructure of the cinnamon soil aggregates in the cropland of North China using SR-μCT measurements. The soil aggregates with diameters of approximately 3-5 mm were collected from the cinnamon soil with a long-term fertilization trial established in 1992. Three types of soil aggregate samples (3-5 mm) within 0.10 m soil profiles were selected from each site and then were scanned at 4 μm voxel resolution with the Shanghai Synchrotron Radiation Facility (SSRF). The 3D pore structure was constructed to quantify using the digital image analysis software ImageJ. The locally adaptive thresholding was employed to segment the sub volumes in ImageJ software, where the thresholds were chosen using visual observation. The sub volume of 500×500×500 (voxel) was extracted to reduce the edge artifacts for further morphological analysis. A systematic evaluation was made of the aggregate water stability and the soil properties. The results showed that there were substantial changes in the pore microstructure and stability of soil aggregates in the study area after 26 years of different soil fertilization treatments. Among them, the indexes of soil aggregate porosity, large porosity, narrow porosity, average pore diameter, average tortuosity, average surface area of pore throat, and Average Mass Diameter (MWD) increased by 23.84%, 145.71%, 21.43%, 37.16%, 21.3%, 51.12% and 59.26%, respectively, during the long-term chemical fertilizer combined with organic fertilizer (OF) treatment, compared with the no fertilizer (CK). It infers that the long-term OF treatment significantly improved the microstructure and stability of the OF soil aggregates. As such, the surface runoff was easily infiltrated into the ground to relieve the impact on the soil matrix, thus making the soil structure more stable. There were similar microstructural characteristics and stability OF soil aggregates under long-term chemical fertilizer (NPK) and CK treatment, but significantly different from that under OF treatment. The finding can greatly contribute to quantifying the structure of the unique soil in the North China Plain. The different effects of diverse long-term fertilization measures on soil structure can also provide strong support to the agricultural soil quality evaluation and protection.

       

    /

    返回文章
    返回