CINXE.COM

{"title":"Application of Cite Space Software in Visual Analysis of Land Use Coupling Research Progress","authors":"Jing Zhou, Weiqun Su, Naying Luo, Min Shang, Li Wu","volume":195,"journal":"International Journal of Geological and Environmental Engineering","pagesStart":28,"pagesEnd":36,"ISSN":"1307-6892","URL":"https:\/\/publications.waset.org\/pdf\/10012982","abstract":"<p>The coupling of land use system in geographical research is mainly the coupling of pattern and process, which is essentially the human-land coupling, and is an important part of the research and discussion of human-land relationship. Based on the Web of Science database, the paper titles, authors, keywords, and references from 1997-2020 related to land use coupling were used as data sources to explore the research progress of land use coupling. Cite Space bibliometric tool was used for co-occurrence analysis of the issuing country, issuing institution, co-cited author, disciplinary institution, and keywords. The results are shown as follows: (1) From 1997 to 2020, the United States, China, and Germany rank the top, with more than 250 published papers. Although China ranks second in the number of published papers on foreign literature, it has less centrality and less influence. (2) The top 10 institutions (universities) in the number of published papers (more than 300 articles) are mainly from the United States and China, and the University of Chinese Academy of Sciences has the highest output of papers. At the same time, the phenomenon of multi-institutional cooperation has increased in the field of land use coupling research. (3) From 1997 to 2020, land sensitivity research and the impact of climate change on land use patterns are the main directions of land use coupling research. However, in the past five years, scholars have mainly focused on the coupling research methods of land use and the coupling relationship between ecological and environmental factors and land use.<\/p>","references":"[1]\tW. Zhang, Y. Y. Zhou, and G. W. Hu, \"Coupling mechanism and space-time coordination of new-approach urbanization, new-approach Industrialization and service industry modernization in megacity behemoths: a case study of ten cities in China,\" Scientia Geographica Sinica, vol. 33, no. 5, pp. 562-579, 2013.\r\n[2]\tZ. L. Li, \"Research on the coupling mechanism and coordinated development of rural revitalization-rural tourism system: A case study on Fenghuang County in Hunan,\" Geographical Research, vol. 38, no. 3, pp. 643\u2013654, 2019.\r\n[3]\tK. E. Weich, \"Educational organizations as loosely coupled system,\" Administrative Science Quarterly, vol. 21, no. 1, pp. 1\u201319, 1976.\r\n[4]\tJ. G. Liu, \"Integration across a metacoupled world,\" Ecology and Society, vol. 22, no. 4, pp. 19, 2017.\r\n[5]\tC. J. Wu, \"On the research core of geography-regional system of human-land relationship\", Economic Geography, vol. 11, no. 3, pp. 1\u20136, 1991.\r\n[6]\tB. J. Fu, \"The integrated studies of geography: Coupling of patterns and processes,\" Acta Geographica Sinica, vol. 69, no. 8, pp. 1052\u20131059, 2014.\r\n[7]\tY. L. Zhao, X. F. Wei, and X. B. Li, \"Study on the land use coupling evolution of mountain-basin systems in karst areas,\" Carsologica Sinica, vol. 39, no. 1, pp. 48\u201353, 2020.\r\n[8]\tJ. Interov\u00e1, J. Kr\u00e1sa, M. Bauer, N. Noreika, and T. Dost\u00e1l, \"Using WaTEM\/SEDEM to model the effects of crop rotation and changes in land use on sediment transport in the Vrchlice Watershed,\" Sustainability, vol. 14, no. 10, pp. 5748\u20135748, 2022.\r\n[9]\tM. Lippe, L. Rummel, and S. G\u00fcnter, \"Simulating land use and land cover change under contrasting levels of policy enforcement and its spatially-explicit impact on tropical forest landscapes in Ecuador,\" Land Use Policy, vol. 119, no. 2022, 2022.\r\n[10]\tT. Y. Lu, D. X. Xu, J. X. Song, J. H. Guo, X. J. You, and Y. Jiang, \"Impacts of land use changes on ecosystem services at different elevations in an ecological function area, northern China,\" Ecological Indicators, vol. 140, no. 2022, 2022.\r\n[11]\tC. L. Fang, C. H. Zhou, C. L. Gu, L. D. Chen, and S. C. Li, \"Theoretical analysis of interactive coupled effects between urbanization and eco-environment in mega-urban agglomerations,\" Acta Geographica Sinica, vol. 71, no. 4, pp. 531\u2013550, 2016.\r\n[12]\tY. F. Ren, C. L. Fang, C. Bao, G. D. Li, and R. W. Liu, \"Progress in local and tele-coupling relationship between urbanization and eco-environment,\" Acta Gegographica Sinica, vol. 75, no. 2, pp. 1\u201318, 2018.\r\n[13]\tY. Xing, L. Yue, W. L. Zhang, and Q. J. Hu, \"Research on coordination of land use and economic growth in Duyun based on coupling coordination degree model,\" Chinese Journal of Agricultural Resources and Regional Planning, vol. 40, no. 4, pp. 128\u2013134+216, 2019.\r\n[14]\tX. Y. Xiong and Y. M. Xu, \"Linear coupling and canonical correlation analysis on land use change and economic effects,\" Statistics & Decision, vol. 34, no. 10, pp. 104\u2013107, 2018.\r\n[15]\tC. L. Fang, Y. F. Ren, \"Analysis of near-distance coupling energy metabolic efficiency and environmental pressure between urbanization and eco-environment in Beijing-Tianjin-Hebei urban agglomeration,\" Scientia Sinica Terrae, vol. 47, no. 7, pp. 833\u2013846, 2017.\r\n[16]\tK. C. Su, Q. Y. Yang, B. L. Zhang, and Z. X. Zhang, \"The coupling mechanism between rural land use transition and small-scale peasant economy change in mountainous areas,\" Geographical Research, vol. 38, no. 2, pp. 399\u2013413, 2019.\r\n[17]\tH. L. Long, D. Z. Ge, J. Y. Wang, \"Progress and prospects of the coupling research on land use transitions and rural transformation development, Acta Geographica Sinica, vol. 74, no. 12, pp. 2547\u20132559, 2019.\r\n[18]\tX. Wang, L. L. Yao, Y. Li, and X. H. Chen, \"Coordination and its spatio-temporal differentiation of new-type urbanization and intensive land use: case studies of the cities in Heilongjiang Province,\" Economic Geography, vol. 37, no. 5, pp. 173\u2013180, 2017.\r\n[19]\tX. H. Lu, D. L. Chen, and B. Kuang, \"Coupling effect of industrial integration and urban land use efficiency: taking the urban agglomeration of the middle reaches of the Yangtze River as a case,\" China Land Science, vol. 32, no. 9, pp. 66\u201373, 2018.\r\n[20]\tX. Q. Li, B. Jiang, Y. Mi, Y. Sun, and Y. Han, \"Characteristics of spatial and temporal differentiation of coupling coordination between intensive land utilization and new urbanization in urban agglomerations in middle and upper reaches of the Yangtze River,\" Research of Soil and Water Conservation, vol. 24, no. 5, pp. 291\u2013297, 2017.\r\n[21]\tZ. Q. Zhang, Y. L. Lao, C. Z. He, J. H. Wei, and B. Q. Hu, \"Mechanism of land use functions and their spatio-temporal differentiation of coupling coordination degree: Taking Guangxi as an example,\" Journal of Agricultural Resources and Environment, vol. 38, no. 2, pp. 317\u2013331, 2021.\r\n[22]\tQ. Zhang, J. A. Li, and H. Y. An, \"The study on coupling coordination degree and spatial-temporal change of land use comprehensive benefits in plain-mountainous transitional belt: take Leshan City as an example in Sichuan,\" Journal of Sichuan Normal University (Natural Science), vol. 44, no. 2, pp. 262\u2013269, 2021.\r\n[23]\tF. Wang and C. S. Ye, \"Coupling relationship between rural transformation and land use change in ecological economic zone of Poyang Lake,\" Research of Soil and Water Conservation, vol. 25, no. 6, pp. 284\u2013231, 2018.\r\n[24]\tY. L. Liu et al., \"Spatio-temporal coupling relationship between multi-functionality of land use and multi-dimensional poverty in China\u2019s southwestern mountainous areas,\" China population, resources and environment, vol. 30, no. 10, pp. 154\u2013164, 2020.\r\n[25]\tK. Y. Zhu, R. Lin, and H. Li, \"Study of virtual reality for mild cognitive impairment: A bibliometric analysis using CiteSpace,\" International Journal of Nursing Sciences, vol. 9, no. 1, pp. 129\u2013136, 2021.\r\n[26]\tH. F. Luo et al., \"Study on pain catastrophizing from 2010 to 2020: a bibliometric analysis via CiteSpace,\" Frontiers in Psychology, vol. 12, no. 2021, pp. 759347, 2021.\r\n[27]\tJ. S. Chu, M. Cao, L. L. Zhao, Y. G. Zhu, and X. G. Hong, \"Bibliometrics and visualization analysis of EwE model based on CiteSpace,\" Chinese Journal of Applied Ecology, vol. 32, no. 2, pp. 763\u2013770, 2021.\r\n[28]\tY. Z. Liu, \"Research progress and trend analysis of computer vision based on cite space,\" Journal of Physics: Conference Series, vol. 1941, no. 1, 2021.\r\n[29]\tT. Z. Cao, D. M. Han, X. F. Song, W. Liu, and D. Du, \"Bibliometric analysis of research progress on coastal surface water and groundwater interaction,\" Advances in Earth Science, vol. 35, no. 2, pp. 154\u2013166, 2020.\r\n[30]\tL. Yang et al., \"Phytoremediation of heavy metal pollution: Hotspots and future prospects,\" Ecotoxicology and Environmental Safety, vol. 234, no. 2022, pp. 113403, 2022.\r\n[31]\tY. Li and X. Qi, \"CiteSpace-based government WeChat research literature measurement and research trend analysis,\" Procedia Computer Science, vol. 199, no. 2022, pp. 665\u2013673, 2022.\r\n[32]\tX. N. Liu, \"A visualization analysis on researchers of internet finance credit risk in coastal area,\" Journal of Coastal Research, vol. 103, no. 1, pp. 85\u201389, 2020.\r\n[33]\tW. R. Zhang, K. Yan, H. Z. Wang, and J. M. Xu, \"Bibliometric analysis of research progress on polycyclic aromatic hydrocarbons degrading genes during 1983\u20132019,\" Acta Scientiae Circumstantiae, vol. 40, no. 3, pp. 1138\u20131148, 2020.\r\n[34]\tC. X. Deng et al., \"Progress of research regarding the trade-offs of ecosystem services,\" Chinese Journal of Eco-Agriculture, vol. 28, no. 10, pp. 1509\u20131522, 2020.\r\n[35]\tH. L. Zhao and J. Zhang, \"Research progress and hotspot analysis of flood and drought disasters in China based on Citespace and Vosviewer,\" Acta Ecologica Sinica, vol. 40, no. 12, pp. 4219\u20134228, 2020.\r\n[36]\tX. F. Chen, S. M. Yao, L. C. Zhang, \"The theory and practice of urban-rural integration in China under the new urbanization,\" Scientia Geographica Sinica, vol. 36, no. 2, pp. 188\u2013195, 2016.\r\n[37]\tL. Wu, J. Zhou, B. Xie, S. Yang and J. Li, \"Spatiotemporal differences of land use pattern between mountainous areas and basin areas at township scale: A case study of Yuxi City, \" Front. Environ. Sci., vol. 10, 1029917, 2022.\r\n[38]\tD. Smiraglia, T. Ceccarelli, S. Bajocco, et al. \"Unraveling landscape complexity: land use\/land cover changes and landscape pattern dynamics (1954\u20132008) in contrasting peri-urban and agro-forest regions of Northern Italy,\" Environmental Management, vol. 56, no. 4, pp. 916\u2013932, 2015.\r\n[39]\tM. F. Gondwe, M. A. Cho, P. W. Chirwa, et al. \"Land use land cover change and the comparative impact of co-management and government-management on the forest cover in Malawi (1999\u20132018), \" Journal of Land Use Science, vol. 14, no. 4-6, pp. 281\u2013230, 2019.\r\n[40]\tI. E. Olorunfemi, J. T. Fasinmirin, A. A. Olufayo, et al. \"GIS and remote sensing-based analysis of the impacts of land use\/land cover change (LULCC) on the environmental sustainability of Ekiti State, southwestern Nigeria,\" Environment Development and Sustainability, vol.22, no. 2, pp. 661\u2013692, 2020.\r\n[41]\tH. Solomon, W. Bewket, J. Nyssen, et al. \"Analyzing past land use land cover change and CA-Markov-based future modelling in the Middle Suluh Valley, Northern Ethiopia,\" Geocarto International, vol. 35, no. 3, pp. 225\u2013255, 2020.\r\n[42]\tN. K. Msofe, L. X. Sheng, Z. X. Li, et al. \"Impact of land use\/cover change on ecosystem service values in the Kilombero Valley Floodplain, Southeastern Tanzania,\" Forests, vol. 11, no. 1, pp. 17, 2020.\r\n[43]\tM. S. Meer, A. K. Mishra. \"Land use\/land cover changes over a district in Northern India using remote sensing and GIS and their impact on society and environment,\" Journal of the Geological Society of India, vol. 95, no. 1, pp. 179\u2013182, 2020.","publisher":"World Academy of Science, Engineering and Technology","index":"Open Science Index 195, 2023"}