“双安全”视阈下我国耕地变化驱动力研究进展与可视化分析

doi:10.3969/j.issn.1004-9479.2023.08.2021635

摘要/Abstract

摘要：

将“耕地变化驱动力”研究作为目标领域，从中国知网数据库和外文学术期刊数据库Web of Science（WoS）分别筛选出585篇和296篇文献，利用文献归纳法和CiteSpace对目标领域的中外文献进行对比分析。结果表明：（1）中外文献时间分布大致可分为两个阶段：1999—2010年，中外文献数量分别呈现快速增长状态、缓慢增长状态；2010—2020年，中外文献数量分别呈现波动增长、稳步增长状态。（2）中外文献作者与机构合作联系大多发生在学术机构内部，与其他机构的联系较少；热点研究区域可大致分为快速城镇化区、粮食主产区及生态脆弱区；社会经济因素是最主要的耕地变化驱动因子，而政策因素、自然因素的影响分别在粮食主产区、生态脆弱区的研究中较为多见；外文文献的研究尺度较为均衡，而中文文献中市县尺度研究占据主导位置。（3）中外文献的热点主题大致相同，外文文献在耕地质量、生态变化方面的研究视角更加丰富。最后，本文提出了加强机构合作、丰富耕地变化驱动力研究内涵与对象、拓宽耕地治理目标、充分考虑论文主题与研究尺度匹配性的研究展望。

关键词: 耕地变化, 时空分布, 演化路径, 热点主题, CiteSpace

Abstract:

The target area was "drivers of arable land change", and 585 and 296 papers were conditionally selected from the China Knowledge Network database and the Web of Science database, respectively. We used the literature induction method and CiteSpace tool to compare and analyze the Chinese and foreign literature in the target area. The results show that : (1) the temporal distribution of Chinese and foreign literature can be roughly divided into two stages: from 1999 to 2010, the number of Chinese and foreign literature showed rapid growth and slow growth respectively; from 2010 to 2020, the number of Chinese and foreign literature showed fluctuating growth and steady growth respectively. (2) The authors of Chinese and foreign literature are mostly associated with institutional cooperation within academic institutions, but less with other institutions; the hot research areas can be roughly divided into rapidly urbanizing areas, main grain-producing areas and ecologically fragile areas; socio-economic factors are the main drivers of arable land change, while the influence of policy factors and natural factors are more common in main grain-producing areas and ecologically fragile areas, respectively; the scale of foreign literature is more balanced, while the scale of Chinese literature is more balanced. The scale of research in foreign literature is more balanced, while the city and county scale research dominates in Chinese literature. (3) The hot topics in Chinese and foreign literature are more or less the same, and foreign literature has richer research perspectives on arable land quality and ecological changes. Finally, this paper puts forward the research outlook of strengthening institutional cooperation, enriching the connotation and objects of research on the drivers of farmland change, broadening the objectives of farmland governance, and fully considering the matching of thesis topics and research scales.

Key words: cultivated land change, spatial and temporal distribution, evolutionary path, hot topics, CiteSpace

虞加林, 胡银根, 李祥, 张豪. “双安全”视阈下我国耕地变化驱动力研究进展与可视化分析[J]. 世界地理研究, 2023, 32(8): 112-125.

Jialin YU, Yingen HU, Xiang LI, Hao ZHANG. Visual analysis and driving forces of cultivated land change in China under the "Dual Security" vision[J]. World Regional Studies, 2023, 32(8): 112-125.

图/表 10

图1 目标领域中外文献载文量时间分布

Fig.1 Time distribution of Chinese and foreign literature in the target field

图2 中文（a）和外文（b）文献高产作者分布及合作网络图谱

Fig.2 Distribution and cooperative network of high-yield authors in Chinese（a） and foreign（b） literature

图3 中文（a）和外文（b）文献研究机构分布及合作网络图谱

Fig.3 Distribution and cooperative network of Chinese（a） and foreign（b） literature research institutions

图4 目标领域研究区域分布图

Fig.4 Research area distribution of the target field

图5 目标领域研究尺度分布图

Fig.5 Research scale distribution of the target field

图6 外文文献关键词共现时区视图

Fig.6 Co-occurrence time zone view of foreign literature keywords

表1 中外文献关键词统计表

Tab.1 Statistical table of international and domestic literature keywords

序号	外文					中文
序号	关键词	频次	中心度	突现年份	突现度	关键词	频次	中心度	突现年份	突现度
1	驱动力（driving force）	162	0.21	—	—	驱动力	422	0.64	1999	1.736 5
2	土地利用变化（landuse change）	145	0.10	—	—	土地利用变化	197	0.42	2001	1.210 5
3	中国（China）	93	0.07	—	—	主成分分析	114	0.32	—	—
4	城市扩张（urban expansion）	87	0.18	2010	2.730 0	耕地	109	0.29	2003	0.836 6
5	气候变化（climate change）	79	0.16	2010	2.558 2	耕地变化	107	0.29	—	—
6	影响（impact）	78	0.08	—	—	耕地数量变化	86	0.36	—	—
7	土地覆被变化（land cover change）	69	0.06	—	—	动态变化	49	0.11	—	—
8	景观变化（landscape change）	59	0.13	—	—	景观格局	31	0.10	2017	4.664 0
9	耕地废弃（farmland abandonment）	51	0.19	—	—	遥感	25	0.11	2013	1.790 5
10	生态多样性（biodiversity）	40	0.10	—	—	GIS	25	0.07	2014	0.932 4

图7 外文文献关键词聚类图谱

Fig.7 Keywords clustering atlas of international research literature

图8 中文文献关键词共现时区图

Fig.8 Co-occurrence time zone view of Chinese literature keywords

图9 中文文献关键词聚类图谱

Fig.9 Cluster atlas of domestic research keywords

参考文献 61

1	苏锐清, 曹银贵. 中国耕地利用变化的研究方法分析: 立足驱动与模拟研究. 中国农业资源与区划, 2019, 40(6): 96-105.
	SU R, CAO Y. Research methods of cultivated land use change in China: Based on driving force and simulation study. Journal of China Agricultural Resources and Regional Planning, 2019, 40(6): 96-105.
2	郑亚楠, 张凤荣, 谢臻, 等. 中国粮食生产时空演变规律与耕地可持续利用研究. 世界地理研究, 2019, 28(6): 120-131.
	ZHENG Y, ZHANG F, XIE Z, et al. Study on the spatial and temporal evolution patterns of grain production and sustainable use of arable land in China. World Regional Studies, 2019, 28(6): 120-131.
3	王良健, 刘伟, 包浩生. 梧州市土地利用变化的驱动力研究. 经济地理, 1999(4): 74-79.
	WANG L, LIU W, BAO H. Study on driving forces of land use change in Wuzhou City. Economic Geography, 1999(4): 74-79.
4	刘明亮, 庄大方, 胡文岩. 基于地貌和空间分异特征的中国近期耕地变化分析. 资源科学, 2001(5): 11-16.
	LIU M, ZHUANG D, HU W. Analysis of cultivated land change in China based on landform and spatial differentiation. Resources Science, 2001(5): 11-16.
5	刘旭华, 王劲峰, 刘明亮, 等. 中国耕地变化驱动力分区研究. 中国科学(D辑: 地球科学), 2005(11): 1087-1095.
	LIU X, WANG J, LIU M, et al. Science in China (Series D: Earth Sciences), 2005(11): 1087-1095.
6	王千, 金晓斌, 周寅康. 江苏沿海地区耕地景观生态安全格局变化与驱动机制. 生态学报, 2011, 31(20): 5903-5909.
	WANG Q, JIN X, ZHOU Y. Change and driving mechanism of cultivated land landscape ecological security pattern in Jiangsu coastal area. Acta Ecologica Sinica, 2011, 31(20): 5903-5909.
7	于天, 曹银贵, 许婧雪. 基于不同尺度的中国耕地变化驱动力研究进展. 中国农学通报, 2016, 32(24): 194-198.
	YU T, CAO Y, XU J. Advances in driving forces of cultivated land change in China based on different scales. Chinese Agricultural Science Bulletin, 2016, 32(24): 194-198.
8	吴先华. 耕地非农化研究综述. 地理与地理信息科学, 2006(1): 51-56.
	WU X. A review of cultivated land conversion. Geography and Geo-Information Science, 2006(1): 51-56.
9	王文旭,曹银贵,苏锐清,等.我国耕地变化驱动力研究进展: 驱动因子与驱动机理.中国农业资源与区划,2020,41(7):21-30.
	WANG W, CAO Y, SU R, et al. Research progress on driving forces of cultivated land change in China: Driving factors and driving mechanism. Chinese Journal of Agricultural Resources and Regional Planning, 2020, 41(7): 21-30.
10	李智国. 中国耕地利用变化与城市化发展关系综述. 中国土地科学, 2011, 25(1): 84-88.
	LI Z. Relationship between cultivated land use change and urbanization development in China. China Land Science, 2011, 25(1): 84-88.
11	石晓丽, 史文娇. 气候变化和人类活动对耕地格局变化的贡献归因综述. 地理学报, 2015, 70(9): 1463-1476.
	SHI X, SHI W. Contribution of climate change and human activities to cultivated land pattern change: A review. Acta Geographica Sinica, 2015, 70(9): 1463-1476.
12	许婧雪, 曹银贵. 基于文献数据统计的中国耕地变化研究. 浙江农业科学, 2016, 57(9): 1365-1370.
	XU J, CAO Y. Research on cultivated land change in China based on literature data statistics. Journal of Zhejiang Agricultural Sciences, 2016, 57(9): 1365-1370.
13	吴大放, 刘艳艳, 董玉祥, 等. 我国耕地数量、质量与空间变化研究综述. 热带地理, 2010, 30(2): 108-113.
	WU D, LIU Y, DONG Y, et al. A review on the quantity, quality and spatial change of cultivated land in China. Tropical Geography, 2010, 30(2): 108-113.
14	任俊霖, 彭梓倩, 伍新木, 等. 中国生态补偿研究最新进展与前沿分析. 林业经济, 2020, 42(5): 19-29.
	REN J, PENG Z, WU X, et al. Recent progress and frontier analysis of ecological compensation research in China. Forestry Economics, 2020, 42(5): 19-29.
15	侯剑华, 胡志刚. CiteSpace软件应用研究的回顾与展望. 现代情报, 2013, 33(4): 99-103.
	HOU J, HU Z. Review and prospect of CiteSpace software application research. Journal of Modern Information, 2013, 33(4): 99-103.
16	陈悦, 陈超美, 刘则渊, 等. CiteSpace知识图谱的方法论功能. 科学学研究, 2015, 33(2): 242-253.
	CHEN Y, CHEN C, LIU Z, et al. Methodological functions of the CiteSpace knowledge graph. Studies in Science of Science, 2015, 33(2): 242-253.
17	SHI P, YUAN Y, LI X, et al. Land use pattern adjustment under ecological security: Look for secure land use pattern in China. Geographical Review of Japan, 2008, 77(12): 866-882.
18	姚鑫, 杨桂山, 万荣荣. 昆山市22年来耕地流失研究. 长江流域资源与环境, 2010, 19(9): 1063-1068.
	YAO X, YANG G, WAN R. A study of arable land loss in Kunshan over 22 years. Resources and Environment in the Yangtze Basin, 2010, 19(9): 1063-1068.
19	刘康,李月娥, 吴群, 等. 基于Probit回归模型的经济发达地区土地利用变化驱动力分析:以南京市为例.应用生态学报, 2015, 26(7): 2131-2138.
	LIU K, LI Y, WU Q, et al. Driving forces of land use change in developed areas based on Probit Regression Model: A case study of Nanjing City. Chinese Journal of Applied Ecology, 2015, 26(7): 2131-2138.
20	龚健,杨建新,张志,等.中部粮食主产区土地利用变化及其驱动机制研究:以湖北省鄂州市为例. 水土保持研究, 2014, 21(4): 285-289.
	GONG J, YANG J, ZHANG Z, et al. Study on land use change and its driving mechanism in central grain-producing areas: A case study of Ezhou City, Hubei Province. Research of Soil and Water Conservation, 2014, 21(4): 285-289.
21	麦尔耶姆.亚森,买买提.沙吾提,吐尔逊.艾山,等.新疆渭干河-库车河三角洲绿洲耕地时空变化特征分析.中国农业科学,2017,50(18):3506-3518.
	MALYEEM Y, MAMATI S, TURSON E, et al.Spatial-temporal change characteristics of cultivated land in oasis of Weigan-Kuqa River Delta in Xinjiang.Scientia Agricultura Sinica,2017,50(18):3506-3518.
22	ZHONG T, HUANG X, YE L, et al. The impacts on illegal farmland conversion of adopting remote sensing technology for land inspection in China. Sustainability, 2014, 6(7): 4426-4451.
23	严岩, 赵景柱, 王延春, 等. 中国耕地资源损失驱动力分析. 生态学杂志, 2005(7): 817-822.
	YAN Y, ZHAO J, WANG Y, et al. Driving forces of cultivated land loss in China. Chinese Journal of Ecology, 2005(7): 817-822.
24	陈正虎, 胡封举. 黄冈市2015年度耕地质量等别变化分析及驱动力研究. 环境与发展, 2017, 29(9): 235-237.
	CHEN Z, HU F. Analysis and driving forces of cultivated land quality equality change in Huanggang City in 2015. Environment and Development, 2017, 29(9): 235-237.
25	墨姗姗. 我国省级区域二氧化碳排放的影响因素研究. 保定: 河北大学, 2013.
	MO S. Research on influencing factors of regional carbon dioxide emissions at provincial level in China. Baoding: Hebei University, 2013.
26	柯楠, 卢新海, 匡兵, 等. 碳中和目标下中国耕地绿色低碳利用的区域差异与影响因素. 中国土地科学, 2021, 35(8): 67-76.
	KE N, LU X, KUANG B, et al. Regional differences and influencing factors of green and low-carbon arable land use in China under carbon neutral goal. China Land Science, 2021, 35(8): 67-76.
27	ZHENG X, FAN J, CUI J, et al. Effects of biogas slurry application on peanut yield, soil nutrients, carbon storage, and microbial activity in an ultisol soil in southern China. Journal of Soils & Sediments, 2016, 16(2): 449-460.
28	XIA C, CHEN B.Urban land-carbon nexus based on ecological network analysis. Applied Energy, 2020, 27(6): 115-465.
29	ZHANG L, LI Z, ZHANG S, et al. Characteristics and driving mechanism of soil organic carbon content in farmland of Beijing plain: Implication for the fate of engineered polymers in soil. Advances in Polymer Technology, 2019(329):1-10.
30	LI J, ZHOU K, DONG H, et al. Cultivated land change, driving forces and its impact on landscape pattern changes in the Dongting Lake Basin. International Journal of Environmental Research and Public Health, 2020, 17(21): 79-88.
31	王春雨, 孙晓芳, 王猛, 等. 2000—2015年中国城市化进程中耕地质量及其时空变化研究(英文). Journal of Resources & Ecology, 2019, 74(10): 2001-2010.
	WANG C, SUN X, WANG M, et al. Spatial-temporal changes of cultivated land quality during urbanization in China from 2000 to 2015. Journal of Resources & Ecology, 2019, 74(10): 2001-2010.
32	张军岩, 贾绍凤, 高婷. 石家庄城市化进程中的耕地变化. 地理学报, 2003, 58(4): 620-628.
	ZHANG J, JIA S, GAO T. Cultivated land change during urbanization in Shijiazhuang. Acta Geographica Sinica, 2003, 58(4): 620-628.
33	万红莲, 刘东玥. 关中西部城市化过程中的土地利用问题研究——以陕西省宝鸡市为例(英文). Agricultural Science & Technology, 2015(9): 6-9.
	WAN H, LIU D. Study on land use in the urbanization process of Western Guanzhong: A case study of Baoji City in Shaanxi Province. Agricultural Science & Technology, 2015(9): 6-9.
34	LI J, DENG X. Multi-level modeling of urban expansion and cultivated land conversion for urban hotspot counties in China. Landscape and Urban Planning, 2012, 108(2-4): 131-139.
35	RUI X, YUE L, XIN H, et al. Exploring the driving forces of farmland loss under rapid urbanization using binary logistic regression and spatial regression: A case study of Shanghai and Hangzhou Bay. Ecological Indicators, 2018, 9(5): 455-467.
36	YAN F, NING J, SU F. Agricultural evolution: Process, pattern and water resource effect. Applied Sciences, 2020, 10(15): 50-65.
37	YAN F, ZHANG S, KUANG W, et al. Comparison of cultivated landscape changes under different management modes: A case study in Sanjiang Plain. Sustainability, 2016, 8(10): 10-17.
38	CHENG W. Farmland landscape pattern at different slope gradients in a shallow hilly region of Chongqing. Journal of Ecology, 2007, 26(9): 1424-1431.
39	伍第政, 王婧静. 东莞市土地景观格局破碎化分析(英文). Journal of Landscape Research, 2011(7): 43-45.
	WU D, WANG J. Analysis of land landscape fragmentation in Dongguan City. Journal of Landscape Research, 2011(7): 43-45.
40	JIANG Y. Impact of land-use change on soil properties in a typical karst agricultural region of Southwest China: A case study of Xiaojiang Watershed, Yunnan. Journal of Geographical Sciences, 2006, 16(1): 69-77.
41	王宝锋. 新时期海南省耕地占补平衡存在问题及对策研究. 国土资源情报, 2020(11): 9-15.
	WANG B. Study on the existing problems and countermeasures of the balance of cultivated land occupation and supplement in Hainan Province in the new period. Land and Resources Information,2020(11):9-15.
42	王静怡, 李晓明. 近20年中国耕地数量变化趋势及其驱动因子分析.中国农业资源与区划, 2019, 40(8): 171-176.
	WANG J, LI X. Change trend and driving factors of cultivated land quantity in China in recent 20 years. Chinese Journal of Agricultural Resources and Regional Planning, 2019, 40(8): 171-176.
43	胡贤辉, 杨钢桥. 江汉平原耕地数量变化驱动机制分析——以仙桃市为例. 中国人口·资源与环境, 2005(1): 35-38.
	HU X, YANG G. Driving mechanism of cultivated land quantity change in Jianghan Plain: A case study of Xiantao City. China Population, Resources and Environment, 2005(1): 35-38.
44	王楠. 河南省耕地数量变化及其驱动力分析. 价值工程, 2016, 35(20): 50-52.
	WANG N. Analysis of cultivated land quantity change and its driving force in Henan Province. Value Engineering, 2016, 35(20): 50-52.
45	杨桂山. 长江三角洲近50年耕地数量变化的过程与驱动机制研究. 自然资源学报, 2001(2): 121-127.
	YANG G. Process and driving mechanism of cultivated land quantity change in the Yangtze River Delta in recent 50 years. Journal of Natural Resources, 2001(2): 121-127.
46	徐志瑞, 王雨生, 孙庆卫, 等.云南省近10年耕地利用变化的驱动力研究.青岛农业大学学报(自然科学版), 2011, 28(2): 150-153.
	XU Z, WANG Y, SUN Q, et al. Driving forces of cultivated land use change in Yunnan Province in recent 10 years. Journal of Qingdao Agricultural University(Natural Science), 2011, 28(2): 150-153.
47	张婷, 骆希, 蔡海生.江西省耕地的动态变化及驱动因子.水土保持通报, 2014, 34(3): 305-310.
	ZHANG T, LUO X, CAI H. Dynamic change and driving factors of cultivated land in Jiangxi Province. Bulletin of Soil and Water Conservation, 2014, 34(3): 305-310.
48	丁武泉.西部欠发达地区耕地动态变化及需求预测研究——以四川省井研县为例.安徽农业科学, 2007, 35(33): 10801-10803.
	DING W. Study on dynamic change and demand forecast of cultivated land in less developed area of western China -- A case study of Jingyan County, Sichuan Province. Journal of Anhui Agricultural Sciences, 2007, 35(33): 10801-10803.
49	王芳, 陈芝聪, 谢小平. 太湖流域建设用地与耕地景观时空演变及驱动力.生态学报,2018, 38(9): 3300-3310.
	WANG F, CHEN Z, XIE X. Spatial-temporal changes and driving forces of construction land and cultivated land landscape in Taihu Lake Basin. Journal of Ecology, 2018, 38(9): 3300-3310.
50	岳德鹏, 王计平, 刘永兵. GIS与RS技术支持下的北京西北地区景观格局优化. 地理学报, 2007(11): 1223-1231.
	YUE D, WANG J, LIU Y, et al. Landscape pattern optimization in northwest Beijing based on GIS and RS technology. Journal of Geography, 2007(11): 1223-1231.
51	阳文锐. 北京城市景观格局时空变化及驱动力. 生态学报, 2015, 35(13): 4357-4366.
	YANG W. Spatio-temporal changes of urban landscape pattern and driving forces in Beijing. Journal of Ecology, 2015, 35(13): 4357-4366.
52	李卫锋, 王仰麟, 彭建.深圳市景观格局演变及其驱动因素分析. 应用生态学报, 2004(8): 1403-1410.
	LI W, WANG Y, PENG J, et al. Landscape pattern evolution and its driving factors in Shenzhen City. Chinese Journal of Applied Ecology, 2004(8): 1403-1410.
53	朱震达. 中国土地荒漠化的概念、成因与防治. 第四纪研究, 1998(2): 145-155.
	ZHU Z. Concept, cause and control of desertification in China. Quaternary Sciences, 1998(2): 145-155.
54	吴业, 杨桂山, 万荣荣. 耕地变化与社会经济发展关系研究进展. 地理科学进展, 2008(1): 90-98.
	WU Y, YANG G, WAN R. Research progress on the relationship between cultivated land change and social and economic development. Progress in Geography, 2008(1): 90-98.
55	陈朝, 吕昌河. 基于综合指数的湖北省耕地质量变化分析. 自然资源学报, 2010, 25(12): 2018-2029.
	CHEN C, LV C. Analysis of cultivated land quality change in Hubei Province based on comprehensive index. Journal of Natural Resources, 2010, 25(12): 2018-2029.
56	周峰, 周颖. 江苏省锡山市耕地数量、质量变化影响因素分析. 中国土地科学, 2001(4): 7-10.
	ZHOU F, ZHOU Y. Analysis on influencing factors of cultivated land quantity and quality change in Xishan City, Jiangsu Province. China Land Science, 2001(4): 7-10.
57	李丹, 刘友兆, 李治国. 耕地质量动态变化实证研究——以江苏省金坛市为例. 中国国土资源经济, 2004(6): 24-27.
	LI D, LIU Y, LI Z. An empirical study on dynamic changes of cultivated land quality in Jintan City, Jiangsu Province. China Land and Resources Economy, 2004(6): 24-27.
58	陈印军, 王晋臣, 肖碧林, 等. 我国耕地质量变化态势分析. 中国农业资源与区划, 2011, 32(2): 1-5.
	CHEN Y, WANG J, XIAO B, et al. Situation analysis of cultivated land quality change in China. Journal of China Agricultural Resources and Regional Planning, 2011, 32(2): 1-5.
59	宋小青,欧阳竹.1999-2007年中国粮食安全的关键影响因素. 地理学报, 2012, 67(6): 793-803.
	SONG X, OUYANG Z. Key factors influencing food security in China from 1999 to 2007. Acta Geographica Sinica, 2012, 67(6): 793-803.
60	蔡运龙. 中国农村转型与耕地保护机制. 地理科学, 2001(1): 1-6.
	CAI Y,Rural transformation and farmland protection mechanism in China. Scientia Geographica Sinica, 2001(1): 1-6.
61	宋戈, 吴次芳, 王杨. 城镇化发展与耕地保护关系研究. 农业经济问题, 2006(1): 64-67.
	SONG G, WU C, WANG Y. Study on the relationship between urbanization development and cultivated land protection. Issues in Agricultural Economy, 2006(1): 64-67.

[1]	张永凯, 汤庆园. 我国高铁技术创新模式演化路径分析[J]. 世界地理研究, 2023, 32(4): 63-71.
[2]	王雯雅, 汪明峰, 张英浩, 汪凡. 中国互联网与数字乡村研究热点与进展[J]. 世界地理研究, 2023, 32(2): 70-81.
[3]	张艺川, 胡萌, 李红. 基于CiteSpace的引力模型研究进展及其热点问题综述[J]. 世界地理研究, 2023, 32(1): 130-140.
[4]	杨文龙, 史文天. 中西方地缘经济研究的进展与展望[J]. 世界地理研究, 2022, 31(5): 905-918.
[5]	张育庆, 詹程程. 女性主义地理学研究进展与展望[J]. 世界地理研究, 2022, 31(4): 881-893.
[6]	郭利丹, 井沛然, 张玉阔. 中国国际河流研究热点与前沿的可视化分析[J]. 世界地理研究, 2022, 31(3): 490-502.
[7]	秦月, 徐长乐. 国外城市群联动研究综述与展望[J]. 世界地理研究, 2022, 31(3): 582-590.
[8]	王帮娟, 刘承良. 国内外交通地理学研究进展的比较[J]. 世界地理研究, 2022, 31(1): 53-63.
[9]	敬博, 李同昇, 朱依平, 成文浩. 我国山区人地系统研究进展[J]. 世界地理研究, 2021, 30(6): 1230-1240.
[10]	付逸飞. 入户盗窃犯罪的时空分布热点及其机理研究——以A市CP区警情分析为例[J]. 世界地理研究, 2021, 30(5): 1005-1014.
[11]	王新越, 时高磊, 朱文亮. 旅游产业发展动力演化研究[J]. 世界地理研究, 2021, 30(2): 378-388.
[12]	朱尧, 邹永广, 李强红, 李志强. 网络关系视角下中国公民出境旅游安全感知事件时空分布特征[J]. 世界地理研究, 2020, 29(6): 1304-1312.
[13]	杨瑜, 姚前, 石勇, 孙建新, 王文华, 孙迪, 殷杰. 国外旅游风险研究综述[J]. 世界地理研究, 2020, 29(6): 1237-1247.
[14]	吴鸣明, 李俊峰, 杨鑫宇. 芜湖市城市公园体系等级结构及其时空分布格局[J]. 世界地理研究, 2020, 29(2): 406-415.
[15]	韩禹文, 唐承财, 杨春玉, 吕宁. 中国传统村落旅游研究的知识图谱分析[J]. 世界地理研究, 2019, 28(5): 200-209.