吴凯, 顾晋饴, 何宏谋, 党素珍. 基于重心模型的丘陵山地区耕地利用转换时空特征研究[J]. 农业工程学报, 2019, 35(7): 247-254. DOI: 10.11975/j.issn.1002-6819.2019.07.031
    引用本文: 吴凯, 顾晋饴, 何宏谋, 党素珍. 基于重心模型的丘陵山地区耕地利用转换时空特征研究[J]. 农业工程学报, 2019, 35(7): 247-254. DOI: 10.11975/j.issn.1002-6819.2019.07.031
    Wu Kai, Gu Jinyi, He Hongmou, Dang Suzhen. Spatiotemporal characteristics of cultivated land use transition in hilly and mountainous regions based on barycenter model[J]. Transactions of the Chinese Society of Agricultural Engineering (Transactions of the CSAE), 2019, 35(7): 247-254. DOI: 10.11975/j.issn.1002-6819.2019.07.031
    Citation: Wu Kai, Gu Jinyi, He Hongmou, Dang Suzhen. Spatiotemporal characteristics of cultivated land use transition in hilly and mountainous regions based on barycenter model[J]. Transactions of the Chinese Society of Agricultural Engineering (Transactions of the CSAE), 2019, 35(7): 247-254. DOI: 10.11975/j.issn.1002-6819.2019.07.031

    基于重心模型的丘陵山地区耕地利用转换时空特征研究

    Spatiotemporal characteristics of cultivated land use transition in hilly and mountainous regions based on barycenter model

    • 摘要: 地形起伏是决定山地丘陵区土地利用类型时空格局的关键因素,是耕地利用的耕地利用时空转换的控制因子之一。为分析丘陵区耕地利用转换时空特征,选取位于山地丘陵区的赣州市为典型区。基于均值变点法对赣州的起伏度进行定量分析,将赣州市划分为平坦(12.4%)、微起伏(11.3%)、小起伏(43.6%)和中起伏(32.7%)4个等级。利用重心模型计算得到,1990、1995、2000、2004、2009和2014年5个时期耕地重心的移动角度分别为63.4°、330.5°、201.4°、203.4°和106.4°,与森林、灌草、裸地、水体和人造表面重心移动角度的Pearson相关系数分别为0.44、0.94、0.02、0.36和0.85。灌草、人造地表两种类型是与耕地重心的移动角度Pearson相关性最高,耕地与人造地表最为密切,但其形态变化并不具有一致性。1990-2014年平坦、微起伏、小起伏和中起伏区域承载耕地面积比例平均为34%:19%:35%:12%,区域承载的耕地利用强度与耕地发生转换的强度大小随着起伏度等级增加而减小。从数量来说森林与耕地变化最密切。从空间位置上,耕地与草地变化最密切。

       

      Abstract: Topographic relief is the constraining factor of land use in an area. This is especially the case in transitional zones in hilly and mountainous regions. To analyze the spatial and temporal characteristics of cultivated land utilization transformation in hilly and mountainous regions, this study selected Ganzhou city as a case study area. Six period (1990, 1995, 2000, 2004, 2009 and 2014) dataset of land use of 30 m resolution images were used to extract the relief degree and land cover data of land surface. The optimal statistical unit of topographic relief was determined by means of DEM data and mean turning-point analysis method. In order to contrastive analyzing the dynamic relationship of the spatial location-relation and the spatial correlation for different land use types, this study introduced the concept of land use barycenter. The results showed that the best statistical window was proved 0.865 km2. The topographic relief of Ganzhou was divided into four grades: Plains, micro relief mountains, small relief mountains and medium relief mountains. The ranking of annual mean area for mountain types was small relief mountains>medium relief mountains>plains>micro relief mountains. In addition, the spatial distribution of elevation was consistent with the relief degree of land surface. Based on six period dataset of land use of 30 m resolution in the Ganzhou, cultivated land forest, grasses, bare land, water and artificial surface barycenter and there movement directions of five period (1990-1995, 1995-2000, 2000-2004, 2004-2009 and 2009-2014) were calculated. Five period barycenter movement directions of cultivated land was 63.4°, 330.5°, 201.4°, 203.4° and 106.4°. Pearson correlation coefficients of barycenter movement for cultivated land and forest, grasses, bare land, water and artificial surface were 0.44, 0.94, 0.02, 0.36, 0.85. The correlation coefficient of barycenter movement for cultivated land and grasses was 0.94, which was higher than the others. By tracking adjacent patch shape changes of cultivated land and grasses in observation of land use patch and land use spatial pattern, the spatial position change of cultivated land and grasses was closely related. The second high correlation coefficient of barycenter movement for cultivated land was 0.85, which was for cultivated land and artificial surface. Artificial surface had the closest ties to cultivated land, but the morphological change of cultivated land and artificial surface was not consistency. Cultivated land use intensity and the area of cultivated land use transition decreased with the raising relief degree of land surface. The major transformation types about cultivated land were mutual conversion between forest and cultivated land, and mutual conversion between grasses and cultivated land. The area change of cultivated land had a higher interrelationship to the forest than the others. Moreover, the spatial position change of cultivated land had a higher interrelationship to the grasses than the others. The cultivated land use transition in hilly and mountainous regions is the results of natural and human effects. The study provide a scientific basis for the management of cultivated land in hilly and mountainous regions.

       

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