Research on Temporal and Spatial Evolution Characteristics of Industrial Heritage in Jiangxi Province

DUAN Yapeng; CHEN Mingxia; OUYANG Lu; XU Subin

doi:10.3724/j.gyjzG23090706

Volume 54 Issue 3

Mar. 2024

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DUAN Yapeng, CHEN Mingxia, OUYANG Lu, XU Subin. Research on Temporal and Spatial Evolution Characteristics of Industrial Heritage in Jiangxi Province[J]. INDUSTRIAL CONSTRUCTION, 2024, 54(3): 25-37. doi: 10.3724/j.gyjzG23090706

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Research on Temporal and Spatial Evolution Characteristics of Industrial Heritage in Jiangxi Province

doi: 10.3724/j.gyjzG23090706

1. School of Architecture, Tianjin University, Tianjin 300072, China;
2. College of City Construction, Jiangxi Normal University, Nanchang 330022, China

Received Date: 2023-09-07
Available Online: 2024-05-29

Abstract

Abstract

Taking the data of “the third national survey of cultural relics” and the industrial heritage data obtained from on-site investigation as the research objects, ArcGIS spatial analysis and mathematical statistics were used to study the temporal and spatial evolution characteristics of industrial heritage in Jiangxi Province and explore its influencing factors. The results showed that: 1) from the perspective of time distribution, the industrial heritage of Jiangxi Province has the characteristics of large time span, uneven distribution and prominent stages, and is mainly modern industrial heritage; 2) from the perspective of spatial distribution, the industrial heritage of Jiangxi Province is concentrated in northwest Jiangxi and southern Jiangxi, forming a spatial pattern of “two cores, two pairs, and zonal distribution” in space; 3) from the perspective of heritage type, the industrial heritage light industry in Jiangxi Province is evenly distributed in blocks, and the other four types of light industry are scattered; 4) from the perspective of time evolution, the spatial distribution of industrial heritage in Jiangxi Province has four obvious transitions; 5) from the perspective of influencing factors, the analysis results of geographic detectors and spatial superposition analysis show that the spatial and temporal distribution differences of industrial heritage in Jiangxi Province are affected by multiple factors. Among them, government policies, river systems, road traffic, and industrial level are strong influencing factors.
- Jiangxi,
- industrial heritage,
- temporal and spatial distribution characteristics,
- visualization

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References

[1]	周志仪,罗娜,江婉平.南昌市工业遗产的现状与特征[J].建筑与文化, 2017(10):80-82.
[2]	单霁翔.关注新型文化遗产:工业遗产的保护[J].北京规划建设, 2007(2):11-14.
[3]	MICHAEL R. Industrial Archeology[J]. Amateur Historian, 1955, 2(8):225-229.
[4]	张松.城市规划遗产保护国际宪章与国内法规汇编[M].上海:同济大学出版社, 2007.
[5]	ARIAS P, ORDÓÑEZ C, LORENZO H, et al. Documentation for the preservation of traditional agro-industrial buildings in N.W. Spain using simple close-range photogrammetry[J]. Survey Review, 2006, 38(300):525-540.
[6]	CHAPOULIE R, CAZENAVE S, DUTTINE M. Laser cleaning of historical limestone buildings in bordeaux appraisal using cathodoluminescence and electron paramagnetic resonance[J]. Environmental Science&Pollution Research, 2008, 15(3):237-243.
[7]	LEARY T E, SHOLES E C. Authenticity of place and voice:Examples of industrial heritage preservation and interpretation in the us and Europe[J]. The Public Historian, 2000, 22(3):49-66.
[8]	IFKO S. Comprehensive management of lndustrial heritage sites as a basis for sustainable regeneration[J]. Procedia Engineering, 2016, 161:2040-2045.
[9]	PERFETTO M C, PRESENZA A. Conceptualising industrial heritage tourism management[J]. International Journal of Tourism Policy, 2017, 7(2):110-128.
[10]	GARACA V, TRIFKOVIC A, CURCIC N, et al. Aspects of industrial heritage tourism:Case of Novi Sad[J]. Revista de Cercetare Si Interventie Sociala, 2014, 44:181-198.
[11]	曾锐,于立,李早,等.国外工业遗产保护再利用的现状和启示[J].工业建筑, 2016, 46(2):1-4.
[12]	李勤,孟海.国外工业遗产保护和更新的借鉴[J].工业建筑, 2014, 44(10):176-180.
[13]	刘娜,薛美珏.苏南工业遗产旅游开发模式研究[J].全国流通经济, 2019(29):141-143.
[14]	石培华,张一楠,王莉琴.国内工业遗产旅游发展现状及驱动机制研究[J].未来与发展, 2022, 46(8):36-44 , 7.
[15]	刘抚英.工业遗产保护与再利用模式谱系研究:基于尺度层级结构视角[J].城市规划, 2016, 40(9):84-96 , 112.
[16]	申辰,郑东军.基于GIS技术的河南新乡市近现代工业遗产保护与再利用探研[J].建筑与文化, 2023(6):167-169.
[17]	韩福文,王芳.工业遗产保护视角下的工业特色文化城市建设:以辽宁工业城市为例[J].经济地理, 2013, 33(6):66-72.
[18]	李彦瑾.共生视角下的工业遗产改造再利用研究[D].成都:西南交通大学, 2018.
[19]	于佳.文化景观视角下工业遗产的活化研究[J].北方建筑, 2023, 8(3):42-46.
[20]	崔卫华,王之禹,徐博.世界工业遗产的空间分布特征与影响因素[J].经济地理, 2017, 37(6):198-205.
[21]	张新红,杨玉欢,刘奔腾.中国工业遗产的时空分布特征与空间整合保护[J].经济地理, 2023, 43(2):103-114.
[22]	曾灿,刘沛林,李伯华,等.国家工业遗产时空分布特征及影响因素:以中国四批国家工业遗产名单为例[J].热带地理, 2022, 42(5):740-750.
[23]	王长松,薛昀宴.广东省工业遗产的时空分布特征研究[J].人文天下, 2017(20):47-51.
[24]	邵秀英,李昭阳,王阳华,等.山西省工业遗产筛选及空间分布特征研究[J].中国名城, 2022, 36(7):82-89.
[25]	刘俊丽,段亚鹏,王颖.江西省红色工业遗产的现状调查与特征分析[J].城市建筑, 2021, 18(8):80-83 , 100.
[26]	葛维春,徐占春.小三线研究现状与江西小三线建设历史研究[J].宜春学院学报, 2017, 39(10):48-52.
[27]	周志仪,罗娜,江婉平.南昌市工业遗产的现状与特征[J].建筑与文化, 2017(10):80-82.
[28]	薛寒飞.景德镇工业遗产的价值评估与价值实现研究[D].景德镇:景德镇陶瓷大学, 2021.
[29]	胡建新,张杰,张冰冰.传统手工业城市文化复兴策略和技术实践:景德镇"陶溪川"工业遗产展示区博物馆、美术馆保护与更新设计[J].建筑学报, 2018(5):26-27.
[30]	李小云,郑剑艺,钟新平.城市转型背景下的景德镇市陶瓷工业遗产保护和再利用[J].工业建筑, 2015, 45(5):38-41 , 23.
[31]	徐文俊.城市工业遗产保护与利用的对策研究:以南昌市过一次为例[D].南昌:南昌大学, 2020.
[32]	汤国安,刘学军,闾国年,等.地理信息系统教程[M].北京:高等教育出版社, 2007:276-279.
[33]	曾灿,刘沛林,李伯华,等.国家工业遗产时空分布特征及影响因素:以中国四批国家工业遗产名单为例[J].热带地理, 2022, 42(5):740-750.
[34]	冯亚芬,俞万源,雷汝林.广东省传统村落空间分布特征及影响因素研究[J].地理科学, 2017, 37(2):236-243.
[35]	周磊.江西工业遗产保护及再利用探析[D].南昌:江西师范大学, 2014.
[36]	刘义程.发展与困顿:近代江西的工业化历程(1858-1949)[D].福州:福建师范大学, 2007.
[37]	江西省地方志编撰委员会.江西省志·江西省陶瓷工业志[M].北京:方志出版社, 2005:370.
[38]	王铁崖.中外旧约章汇编:第一卷[M].北京:三联书店出版社, 1957:616.
[39]	胡嘉诏.江西之建设[J].经建季刊, 1948(6):1.
[40]	刘海龙,刘美彤,呼旭红,等.中国博物馆时空演变特征及成因分析[J].热带地理, 2022, 42(3):469-480.
[41]	赵沁娜,李航.国家工业遗产空间分异特征及形成机理研究[J].城市问题, 2022(11):54-64.
[42]	陈航,高凯,龚政.西南地区工业遗产时空分布特征及其影响因素[J/OL].中国园林, 2024.[2024-02-01]. http://kns.cnki.net/kcms/detail/11. 2165.tu.20230619.1659.002.html.
[43]	王劲峰,徐成东.地理探测器:原理与展望[J].地理学报, 2017, 72(1):116-134.

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