基于空间决策模型的耕-果错位空间分析与协调布局优化

    Spatial analysis and coordinated layout optimization of farmland-orchard mismatch using spatial decision modeling

    • 摘要: 当前农业生产“空间错位、功能错乱”问题严重,优化耕地果园布局,实现耕地下山果树上山,对改善耕地质量、优化耕地空间布局具有重要意义。该研究以林果业为主导农业的江西省赣州市寻乌县为例,在耕-果空间错位矛盾下,以耕地质量评价为基础,耦合地形空间与地理学定义划定“山上山下”以识别耕-果错位空间,在矛盾优化原则下应用GIS技术构建空间决策模型协调优化果园与耕地的空间布局。研究表明:1)寻乌县耕地细碎,质量评价结果为Ⅰ级的耕地面积为2227.02 hm2,占总耕地面积的24.17%;Ⅴ级面积为671.70 hm2,占7.29%;地形空间划分的“山下”空间占24.06%,“山上”空间占48.19%。 2)以“山上山下”为分区标准,在耕地适宜性评价结果下初划耕地空间为保护区与拟调区,初划林果空间为宜耕区、宜果区与保留区,拟调区与宜耕区为耕-果发生错位的空间,耕地错位面积1221.77 hm2,果园错位面积5169.39 hm2。3)按矛盾协调原则在空间决策模型下优化耕-果错位空间,最终结果为1247.25 hm2的“山下”果园调为耕地,1221.77 hm2的“山上”耕地调整为果园。研究结果优化了耕-果空间布局,提高了耕地质量,可为当前“山上”换“山下”优化耕地布局工作提供参考与理论依据。

       

      Abstract: Agricultural production has a very serious "spatial dislocation and functional disorganization" in China at present. It is of great significance to optimize the spatial layout of farmland and orchards. This study aims to optimize the spatial layout of farmland for the farmland downhill fruit trees uphill, in order to improve the quality of arable land. The study area was taken as Xunwu County, Ganzhou City, Jiangxi Province, China. The forestry and fruit industries were also dominated by the agricultural industry. 13 indicators were selected to evaluate the farmland quality under the contradiction of spatial mismatch between farming and fruiting. The topography, slope and elevation were used to classify the "on the mountain" and "under the mountain". Land quality, geographic location and landscape pattern were first utilized to evaluate the farmland quality. The topographic space was then coupled with the geographic definition of "on the mountain" and "under the mountain", in order to identify the dislocation space between farmland and orchards. Finally, a spatial decision-making model was constructed using GIS technology. The contradiction zones of farmland and orchards were identified to coordinate the spatial layout. The efficiency of land use was promoted with agricultural activities. The results showed that: 1) The overall quality of finely divided farmland was achieved at the medium level. Among them, the area of farmland with grade Ⅰ was 2 227.02 hm2 after quality evaluation, accounting for 24.17% of the total farmland area; The area of farmland with the quality of grade V was 671.70 hm2, accounting for 7.29%. The topographic space was divided into "under the mountain" of 24.06% and "on the mountain" of 48.19%. 2) The "on the mountain" and "under the mountain" were taken as the zoning criteria. The farmland space was initially delineated into the protected areas and the areas to be transferred. The forest and fruit space was divided into the suitable for the cultivation and fruits, as well as the reserved areas. The transfer and arable areas belonged to the dislocation space of agricultural production. Specifically, the dislocation spaces of farmland and orchards were 1 221.77 and 5 169.39 hm2, respectively. 3) The dislocation space of farmland and orchards was optimized under the spatial decision-making model, according to the contradiction coordination. The 1 247.25 hm2 orchards "under the mountain" was adjusted to the farmland, whereas, the 1 221.77 hm2 farmland "on the mountain" was to the orchards. The optimal layout of farmland and orchards had improved the quality of farmland, as well as the degree of concentration and contiguity. The finding can also provide a strong reference and theoretical basis to optimize the layout of farmland from "on the mountain" to "under the mountain".

       

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