- 人文与社会
- 文章编号:1009-6000(2025)12-0111-08
- 中图分类号:K901 文献标识码:B
- Doi:10.3969/j.issn.1009-6000.2025.12.017
- 项目基金:江苏省社会科学基金项目“基于读者行为分析的高校图书馆提升纸质资源利用方法研究”(22TQB009)。
- 作者简介:郝佳琦,南京大学地理与海洋科学学院,硕士研究生,主要研究领域为文化地理与区域规划;
王跃,北京世纪超星信息技术发展有限责任公司;
黄贤金,通信作者,南京大学地理与海洋科学学院,教授,博士生导师,南京大学图书馆馆长,古籍保护与活化技术江苏省文化和旅游实验室。
- 我国数字化阅读的省域空间差异及其影响因素研究——以超星数字阅读为例
- Provincial Spatial Differences and Influencing Factors of Digital Reading in China: A Case Study of Chaoxing Digital Reading
- 郝佳琦 王跃 黄贤金
- HAO Jiaqi WANG Yue HUANG Xianjin
- 摘要:
数字化阅读已成为全民阅读的主要特征,尤其是高校师生群体,更是数字化阅读的重要推动者。文章基于对 2019—2023 年各省域空间数字化阅读的分析,发现突发公共卫生事件在客观上促进了数字化阅读的增加,减小了其省域差异性,并结合运用地理探测器和时空地理加权回归模型,解析了省域空间数字化阅读的影响因素。结果表明,高校聚集、科技论文产出、地区经济水平等因素起主要作用,受教育程度、网络通信水平和教育财政支出在部分地区和部分年份也发挥了重要作用。据此,从长期关注规划、空间平衡发展、宏观和微观研究结合等 3 个方面提出发展建议。 - 关键词:
数字化阅读;时空地理加权回归;地理探测器 - Abstract: Digital reading has become a defining feature of nationwide reading behavior in China, with university teachers and students serving as key drivers. Based on an analysis of provincial-level digital reading from 2019 to 2023 using data from the Chaoxing platform, this study finds that public health emergencies have objectively promoted the growth of digital reading and reduced inter-provincial disparities. Employing the geographical detector (GD) and the geographically and temporally weighted regression (GTWR) model, the paper further examines the factors influencing provincial spatial differences in digital reading. The results indicate that the concentration of universities, output of scientific papers, and regional economic development are the primary drivers, while educational attainment, internet communication infrastructure, and fiscal expenditure on education also play important roles in certain regions and specific years. Accordingly, the study offers policy recommendations from three perspectives: maintaining a long-term planning focus, promoting spatially balanced development, and integrating macro- and micro-level research.
- Key words: digital reading; geographically and temporally weighted regression (GTWR); geographical detector (GD)