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ZHANG Quan, ZOU Chengdong, LI Xiaoying. Research on the Network Construction of Linear Cultural Heritage Resources Along the Hui-Hang Ancient Road from the Spatial Perspective[J]. INDUSTRIAL CONSTRUCTION, 2024, 54(3): 80-89. doi: 10.3724/j.gyjzG23060703
Citation: ZHANG Quan, ZOU Chengdong, LI Xiaoying. Research on the Network Construction of Linear Cultural Heritage Resources Along the Hui-Hang Ancient Road from the Spatial Perspective[J]. INDUSTRIAL CONSTRUCTION, 2024, 54(3): 80-89. doi: 10.3724/j.gyjzG23060703

Research on the Network Construction of Linear Cultural Heritage Resources Along the Hui-Hang Ancient Road from the Spatial Perspective

doi: 10.3724/j.gyjzG23060703
  • Received Date: 2023-06-07
    Available Online: 2024-05-29
  • On the basis of finding out the background of heritage resources, analyzing the composition of heritage value, and following the law of heritage work, the protection pattern of linear cultural heritage network can be clarified, which can provide a scientific basis for its systematic protection and development. Therefore, by means of historical literature research, geospatial analysis, principal component analysis and other methods, the identification, feature analysis and value assessment of the “heritage sources” of Hui-Hang Ancient Road were completed. Based on the analysis results, the protection scope of four spatial levels, namely the whole area, the ancient road network, the heritage protection area and the heritage resource point, was defined. At the same time, the key points of protection, activation and utilization at all levels were proposed in order to promote the overall protection of heritage resources along the Hui-Hang Ancient Road.
  • [1]
    张亮.徽州古道的概念、内涵及文化遗产价值[J].中华文化论坛, 2015, 113(9):37-43

    , 192.
    [2]
    张亮.徽州古道:徽州文化形成、扩散的通道[J].中国文化遗产, 2015, 70(6):90-97.
    [3]
    李天骄,韩学伦.线性文化遗产保护视域下的中东铁路吉林段工业遗产保护与利用研究[J].工业建筑, 2019, 49(7):51-55

    , 96.
    [4]
    SHEN L, SARMAN A M, BIN MOHAMAD M I, et al. Study on construction of corridor for conservation of port heritage under interdiciplinary perspective[J]. Resmilitaris, 2023, 13(2):1842-1865.
    [5]
    LIN F, ZHANG X, MA Z, et al. Spatial structure and corridor construction of intangible cultural heritage:a case study of the Ming Great Wall[J/OL]. Land, 2022, 11(9).[2022-09-06]. https://doi.org/10.3390/land11091478.
    [6]
    王思思,李婷,董音.北京市文化遗产空间结构分析及遗产廊道网络构建[J].干旱区资源与环境, 2010, 24(6):51-56.
    [7]
    滕耀宝.基于最小阻力模型的潇贺古道遗产廊道网络构建研究[J].规划师, 2020, 36(8):66-70.
    [8]
    贺鼎,王子瑜,吴海怡.基于MCR与MCA模型的景德镇瓷业遗产廊道体系构建研究[J].地理与地理信息科学, 2022, 38(3):74-82.
    [9]
    汪永臻,曾刚.空间视角下丝绸之路文化遗产廊道构建研究:以甘肃段为例[J].世界地理研究, 2022, 31(4):862-871.
    [10]
    文冬妮.南岭走廊少数民族非物质文化遗产空间分布与廊道构建[J].社会科学家, 2021(3):70-75.
    [11]
    吴锡超.中央红色交通线线性文化遗产网络构建:以文物为视角[J].南方文物, 2021, 122(2):94-101.
    [12]
    绩溪县地方志编纂委员会.绩溪县志[M].合肥:黄山书社, 1998:306-307.
    [13]
    歙县地方志编纂委员会.歙县志[M].北京:中华书局, 1995:249.
    [14]
    许道宝.绩溪八条古道通杭州[EB/OL].(2015-03-17)[2022-09-06]. http://www.hsdaily.cn/hsck/resfile/2015-03-17/12/12.pdf.
    [15]
    陈琪.徽州古道研究[M].芜湖:安徽师范大学出版社, 2016:21-72.
    [16]
    张泉,白冬梅,邹成东.长三角副中心城市促进区域经济协同发展研究:以合肥市为例[J].现代管理科学, 2022(3):19-29.
    [17]
    李玉杰,赵晟.基于主成分分析法和熵值法的海岛可持续动态评价研究:以浙江舟山为例[J].海洋湖沼通报, 2023, 45(3):76-81.
    [18]
    梁圣蓉,阚耀平.非物质文化遗产的旅游价值评估模型[J].南通大学学报(社会科学版), 2011, 27(6):96-102.
    [19]
    孟雪,李玲玲.城市住区空间环境儿童友好度评价体系研究:基于儿童照护者的视角[J].城市问题, 2022(1):34-43.
    [20]
    张亮.封闭与开放:徽州古代陆路交通发展历程及空间分布特征[J].深圳大学学报(人文社会科学版), 2016, 33(6):11-17, 47.
    [21]
    周洋,陈琪.徽州古道的现状调查及价值研究[J].黄山学院学报, 2016, 18(4):6-10.
    [22]
    安徽省徽州地区地方志编纂委员会.徽州地区简志[M].合肥:黄山书社, 1989:124.
    [23]
    徽州地区交通志编纂委员会.徽州地区交通志[M].合肥:黄山书社, 1996:34-40.
    [24]
    绩溪县人民政府(办公室).绩溪县县级文物保护单位一览表[EB/OL].(2019-12-11)[2022-09-06]. https://www.cnjx.gov.cn/OpennessContent/show/1786688.html.
    [25]
    黄山市人民政府办公室.黄山市省级文物保护单位名录[EB/OL].(2021-04-13)[2022-09-06]. https://www.huangshan.gov.cn/zwgk/public/6615714/10259902.html.
    [26]
    黄山市人民政府办公室.黄山市市级文物保护单位名录[EB/OL].(2021-03-18)[2022-09-06]. https://www.huangshan.gov.cn/zwgk/public/6615714/10259936.html.
    [27]
    黄山市人民政府办公室.黄山市县级文物保护单位名录[EB/OL].(2021-01-20)[2022-09-06]. https://www.huangshan.gov.cn/zwgk/public/6615714/10259955.html.
    [28]
    吕舟.城乡历史文化保护传承体系建设与北京中轴线的案例实践[J].世界建筑, 2022, 390(12):25-29.
    [29]
    黄茜茜,奚江琳,李锋,等.基于主成分分析法军队营区建筑遗产综合评估模型研究[J].四川建筑, 2016, 36(5):37-38

    +41.
    [30]
    陈韵羽.古蜀道基于线性文化遗产的"三位一体"保护模式再探:以剑门蜀道为中心[J].中华文化论坛, 2014(2):73-79, 192.
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