研究方向：生态水文遥感、流域可持续管理

个人简介：

周秋文，男，1986年生，博士，教授，博士生导师，贵州省青年拔尖人才。国际水文科学协会山地干旱协作组委员、中国地质学会岩溶青年工作委员会委员。曾获全国首批课程思政师范课程、教学名师、团队。北京师范大学地理信息系统专业博士毕业，美国德州农工大学和威斯康星大学麦迪逊分校访问学者，主要研究领域为生态水文遥感与流域可持续管理。

科研与教学方面，获贵州省自然科学一等奖1项，主讲的课程“遥感原理与应用”获教育部课程思政示范课程、教学名师和教学团队，获贵州省高等教育教学成果二等奖1项。科研方面，近五年内以第一或者通讯作者身份发表SCI论文十余篇。以第一作者身份出版专著2部；主持国家自然科学基金2项、贵州省科技计划重点项目2项、贵州省哲学社会科学规划重点课题1项。教学方面，具有丰富的本科生指导经验，指导的本科生发表核心期刊以上论文多篇，并于2017年获第十五届“挑战杯”中国大学生课外学术科技作品竞赛三等奖。是《Water Resources Research》、《Hydrology and Earth System Sciences》、《Journal of Hydrology》、《Science of the Total Environment》等期刊的审稿专家，获2024年《Journal of Hydrology》期刊优秀审稿人称号。

   社会服务方面，多次作为特邀专家参与CCTV10《地理中国》节目录制，并多次为新华社、中国新闻社、贵州日报“天眼新闻”、“动静贵州”等媒体就地质、地貌、水文等领域进行科普讲解，是贵州省“天眼问政”专家团成员。

工作经历:

2019.08-2020.08 美国德州农工大学 访问学者

2018.12-至今 贵州师范大学 地理与环境科学学院 教授

2014.07-2018.12 贵州师范大学 地理与环境科学学院 副教授

教育背景:

2011.09-2014.07 北京师范大学 地理学与遥感科学学院 地图学与地理信息系统 博士研究生

获奖情况:

2022年度贵州省级“金课”

2022年度贵州省高等教育教学成果二等奖

2021年度教育部课程思政示范课程、教学名师、教学团队

2018年度贵州省自然科学一等奖

2018年度贵州省测绘地理信息科技进步奖

2017年度贵州省测绘地理信息科技进步奖

2017年指导学生获第十五届“挑战杯”中国大学生课外学术科技作品竞赛三等奖

主持项目:

国家自然科学基金：层间溶隙流对表层岩溶泉水文过程的影响机制研究（42461004）

国家自然科学基金：喀斯特江河上游区植被恢复的水文综合响应研究（41761003）

贵州省哲学社会科学规划重点课题：贵州以流域横向生态补偿等为重点推进生态产品价值化补偿研究（25GZZD19）

贵州省科技计划重点项目：西南喀斯特地区耕地细碎化与干旱化的耦合演化机制与生态系统服务提升策略研究（黔科合基础-ZK[2025]重点045）

贵州省科技计划重点项目：乌江上游典型流域植被恢复的水文响应研究（黔科合基础[2019]1433号）

贵州省科学技术基金：基于稀疏样点的喀斯特复杂地形区土壤水分空间估算方法研究（黔科合J字[2015]2118号）（已结题，优秀等次）

贵州师范大学2017年度学术新苗培养及创新探索专项项目：典型喀斯特流域植被变化对水文过程的影响研究（黔科合平台人才[2017]5726-24）

贵州省本科教学工程建设项目：地理与环境生态大学生创新训练中心（2016DC03）

民革中央2025年度重点调研课题：多元化生态产品价值实现路径的探索（第一执笔人）

民革贵州省委会2024年度重点调研课题：赤水河流域生态修复效果调查与评估（第一执笔人）

参与项目：

国家自然科学基金委员会-贵州省人民政府喀斯特科学研究中心项目：喀斯特生物多样性形成和维持的钙依赖机制及其应用基础（U1812401）

贵州地质灾害早期精准识别与智能预警关键技术研究机应用示范

代表性成果：

出版专著：

周秋文，周旭，罗娅，等. 喀斯特地区植被与土壤层水文效应研究[M]. 科学出版社，2020.

周秋文，罗娅，周旭，等. 地理学实践创新指导与案例分析[M]. 黄河水利出版社，2019.

代表性教育教学论文：

[1]Li X, Li P, You H, Zhou Q*, et al. Using eye tracking to explore differences and influencing factors of map reading ability in different problem situation among high school students[J]. Computers & Education, 2026, 240: 105466. （SCI/SSCI双检索，中科院一区）

[2]李萍,周秋文,游慧明,等.高中生地图能力影响因素的路径分析[J].地理教学,2023,(13):4-8.

[3]吕媛,周秋文,罗娅.国外中学地理研学旅行研究进展[J].地理教学,2021,(17):59-64.

代表性研究论文：

[1] Yuan Z, Zhou Q*, Li Y, et al. Baseflow in karst regions is significantly higher than the global average and exhibits spatial variability[J]. Hydrology and Earth System Sciences, 2026.

[2] Yang H, Luo Y*, Zhou Q*, et al. Influence of interlayer fissures on runoff characteristics of karst slopes: insights from simulated rainfall experiments[J]. Journal of Hydrology, 2026, 664: 134415.

[3] Li Y, Zhou Q*, Zhao Y, et al. Regulation of shallow soil hydrological processes by rainfall characteristics and vegetation type on karst hillslopes: Insights from plot-scale field experiments[J]. Journal of Hydrology, 2025, 663: 134199.

[4] Zhou Q, Yang X, Li Y, et al. Predicting the Spatial Distribution of Soil Thickness in Karst Areas With Shallow Soils Using Dynamic Vegetation Characteristics[J]. Land Degradation & Development, 2025: 1–14. https://doi.org/10.1002/ldr.70074.

[5] Chen M, Zhou Q*, Peng D, et al. Exploring the spatiotemporal heterogeneity of vegetation changes in subtropical humid karst region under CO₂ fertilization [J]. Journal of Geographical Sciences, 2025, 35(1): 65-87.

[6] Zhou Q*, Yuan E, Feng S, et al. Impact of socioeconomic factors on vegetation restoration in humid karst areas of China: Evidence from a survey of 45 villages[J]. Journal of Rural Studies, 2025, 114: 103546.

[7] Sun Q, Zhou Q*, Luo Y, et al. Resilience and Resistance of Vegetation in Response to Droughts in a Subtropical Humid Region Dominated by Karst[J]. Forests, 2024, 15(11): 1931.

[8] Yuan E, Zhou Q*, Yan W, et al. The impact of socioeconomic factors on vegetation restoration in karst regions: a perspective beyond climate and ecological engineering[J]. Ecological Engineering, 2024, 206: 107332.

[9] Li Y, Li K, Zhou Q, et al. Spatiotemporal dynamics and similarity in soil moisture in shallow soils on karst slopes[J]. Journal of Hydrology, 2024, 639: 131655.

[10] Hu L, Zhou Q*, Peng D, et al. Effects of vegetation restoration on the temporal variability of soil moisture in the humid karst region of southwest China[J]. Journal of Hydrology: Regional Studies, 2024, 53: 101852.

[11] Li Y, Zhou Q*, Zhao Y. Hydrologic response in a typical karst desertification catchment[J]. Carbonates and Evaporites, 2024, 39(2): 16.

[12] Zhao M, Zhou Q*, Luo Y, et al. Threshold Effects between Ecosystem Services and Natural and Social Drivers in Karst Landscapes[J]. Land, 2024, 13(5): 691.

[13] Zhou Q*, Luo Y, Shi C, et al. Hydrological effects of vegetation restoration in karst areas research: Progress and challenges[J]. Transactions in Earth, Environment, and Sustainability, 2023, 1(2-3): 177-204.

[14] Luo Y, Zhou, Q*, Peng D, et al. Key influence of hydrogeological, geochemical, and geological structure factors on runoff characteristics in karst catchments[J]. Journal of Hydrology, 2023,623:129852.

[15] Peng, D., Zhou, Q*., Tang, X., et al. Changes in soil moisture caused solely by vegetation restoration in the karst region of southwest China. Journal of Hydrology, 2022,613, 128460.

[16] Yan W, Zhou Q*, Peng D, et al. Response of surface-soil quality to secondary succession in karst areas in Southwest China: Case study on a limestone slope[J]. Ecological Engineering, 2022, 178: 106581.

[17] Zhou Q, Zhu A, Yan W, et al. (2022). Impacts of forestland vegetation restoration on soil moisture content in humid karst region: A case study on a limestone slope. Ecological Engineering, 180:106648.

[18] Yuan, E, Zhou, Q*, Yan, W, et al. (2022). Response of the winter soil moisture of different vegetation types to rainfall events in karst slope land. Hydrology Research, 53(10), 1271-1285.

[19] Yan, W, Zhou, Q*., Peng, D., et al. (2021). Soil moisture responses under different vegetation types to winter rainfall events in a humid karst region. Environmental Science and Pollution Research, 28(40), 56984-56995.

[20] Wei X, Zhou Q*, Cai M, et al. (2021). Effects of Vegetation Restoration on Regional Soil Moisture Content in the Humid Karst Areas—A Case Study of Southwest China. Water, 13(3): 321.

[21] Wei X, Zhou Q*, Luo Y, et al. (2021). Vegetation dynamics and its response to driving factors in typical karst regions, Guizhou Province, China. Frontiers of Earth Science, 15(1): 167-183.

[22] Zhou, Q., Wei, X., Zhou, X., et al. (2019). Vegetation coverage change and its response to topography in a typical karst region: the lianjiang river basin in southwest china. Environmental Earth Sciences, 78(6). DOI：10.1007/s12665-019-8218-z

[23] Zhou, Q., Sun, Z., Liu, X., et al. (2019). Temporal Soil Moisture Variations in Different Vegetation Cover Types in Karst Areas of Southwest China: A Plot Scale Case Study. Water, 11, 1423.

[24] Zhou, Q., Luo, Y., Zhou, X., et al. (2018). Response of vegetation to water balance conditions at different time scales across the karst area of southwestern China—A remote sensing approach. Science of the Total Environment, 645, 460-470.

[25] Zhou, Q., Keith, D. M., Zhou, X., et al. (2018). Comparing the Water-holding Characteristics of Broadleaved, Coniferous, and Mixed Forest Litter Layers in a Karst Region. Mountain research and development, 38(3), 220-230.

[26] Zhou, Q., Zhou, X., Luo, Y., & Cai, M. (2018). The Effects of Litter Layer and Topsoil on Surface Runoff during Simulated Rainfall in Guizhou Province, China: A Plot Scale Case Study. Water, 10(7), 915.

[27] Zhou, Q., Yang, S., Zhao, C., et al. (2016). Development and implementation of a spatial unit non-overlapping water stress index for water scarcity evaluation with a moderate spatial resolution. Ecological indicators, 69, 422-433.

[28] Zhou, Q., Yang, S., Zhao, C., Cai, M., & Ya, L. (2014). A soil erosion assessment of the upper Mekong River in Yunnan Province, China. Mountain Research and Development, 34(1), 36-48.

[29] Zhou, Q., Yang, S., Cai, M., et al. (2014). Soil erosion and its relationship with topographical factors in a mountainous watershed in the upper Mekong River in Yunnan province, China. Fresenius Environmental Bulletin, 2014, 23(1A):215-222.