李诗瑶, 蔡银莺. 道路结构对耕地多维细碎化的影响效应分析—以国际大都市上海为例[J]. 中国生态农业学报(中英文), 2022, 30(7): 1203-1214. DOI: 10.12357/cjea.20210707
引用本文: 李诗瑶, 蔡银莺. 道路结构对耕地多维细碎化的影响效应分析—以国际大都市上海为例[J]. 中国生态农业学报(中英文), 2022, 30(7): 1203-1214. DOI: 10.12357/cjea.20210707
LI S Y, CAI Y Y. Effect analysis of road structure on multidimensional fragmentation of cultivated land: A case study in the international metropolis of Shanghai City[J]. Chinese Journal of Eco-Agriculture, 2022, 30(7): 1203−1214. DOI: 10.12357/cjea.20210707
Citation: LI S Y, CAI Y Y. Effect analysis of road structure on multidimensional fragmentation of cultivated land: A case study in the international metropolis of Shanghai City[J]. Chinese Journal of Eco-Agriculture, 2022, 30(7): 1203−1214. DOI: 10.12357/cjea.20210707

道路结构对耕地多维细碎化的影响效应分析以国际大都市上海为例

Effect analysis of road structure on multidimensional fragmentation of cultivated land: A case study in the international metropolis of Shanghai City

  • 摘要: 耕地细碎化是制约农业规模生产和农业现代化发展的重要因素, 现有研究表明耕地细碎化是一个多维问题, 系统研究区域耕地细碎化的空间分布和驱动因子对保护城郊优质农田和抑制城市扩张具有十分重要的意义。本文以国际大都市上海为例, 通过典型相关分析计算城市边缘区、乡村边缘区、乡村腹地道路结构对耕地多维细碎化的影响效应。结果表明: 1)上海市耕地多维细碎化程度呈现空间分异性, 耕地面积细碎化和分布细碎化主要发生在主城区附近, 而耕地形状细碎化主要发生在东南沿海地区。2)道路密度并不总与耕地细碎化程度呈正相关关系, 自城市边缘区到乡村边缘区再到城市郊区, 随着道路密度不断减少, 耕地面积和形状细碎化程度呈下降趋势, 但乡村边缘区耕地的分布细碎化程度较高。3)道路结构对耕地细碎化的影响强弱在城郊不同区域内存在差异: 在城市边缘区, 四级道路密度越大的区域, 耕地面积细碎化的程度越低; 在乡村边缘区, 三级道路密度越大的地方, 耕地分布细碎化程度越高; 在乡村腹地, 高速公路、一级道路和二级道路密度较小, 而三级道路和四级道路密度较大的区域, 耕地面积细碎化的程度越低, 形状细碎化的程度越高, 而在二级道路和三级道路密度越大, 四级道路密度越小的区域, 耕地分布细碎化的程度越高。这启示我们在规划道路的过程中, 需明晰区域耕地保护的重点, 结合区域特征考虑道路建设对不同维度耕地细碎化的潜在风险, 以减轻耕地保护的压力, 实现土地可持续利用。

     

    Abstract: Cultivated land fragmentation (CLF) is an important factor restricting agricultural scale production and modernization development. Recent studies have revealed that CLF is a multidimensional problem. A systematic study of the spatial distribution and driving factors of multidimensional cultivated land fragmentation (MCLF) has practical meaning for preserving high-quality farmland in suburbs and restraining urban land expansion. Taking the suburbs of the international metropolis of Shanghai City as an example, this article used canonical correlation analysis to calculate the effects of road structure on the MCLF in urban fringe, rural fringe and rural areas. The results showed that there was spatial heterogeneity in the degree of MCLF in the Shanghai suburbs in 2015. The size and distribution characteristics of CLF mainly occurred near the center of the main city, while the shape characteristics of CLF mainly occurred on the southeast coast. In addition, there was no positive correlation between road density and the degree of MCLF. Without the highest road density, the rural fringe had the highest level of distribution characteristics of CLF. Furthermore, the MCLF was affected by the road structure in heterogeneous zones. The higher density of the fourth-class road density represented a lower degree of the size characteristics of CLF in the urban fringe, and a higher density of the third-class road represented a higher degree of the distribution characteristics of CLF in the rural fringe. In rural areas, the area with a lower density of higher roads and a higher density of lower roads showed a lower CLF in terms of size characteristics and a higher CLF in terms of shape characteristics, while the area with a higher density of higher roads and a lower density of lower roads showed a higher CLF in terms of distribution characteristics. These discoveries enlightened us that to relieve the stress of cultivated land protection and achieve the goal of sustainable land use, we need to be explicit about the main challenges of regional cultivated land protection and consider the potential risks of road construction to the MCLF in the process of road planning and design.

     

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