[1] Liang Xiaoyu, Xin Zhongbao, Wang Ronghua, Zhang Zhiqiang.Incorporating the RUSLE model into the sediment connectivity index to explore the relationship between soil erosion and sediment transport.CATENA, 2026, 262: 109646

[2] Liang Xiaoyu, Xin Zhongbao, Zhang Zhiqiang.Trade-offs between soil water storage and carbon sequestration: Differences between natural secondary forests and plantation forests on the Loess Plateau.Ecological Engineering, 2025, 221:107779.

[3] Liu Jinhao, Xin Zhongbao.The increasing climate suitability for human habitation on the Qinghai-Xizang Plateau.Geography and Sustainability, 2025, 100393.

[4] Liu Jinhao, Xin Zhongbao.Regionalization of Human Settlement Suitability in the Natural Environment of the Qinghai-Xizang Plateau.Ecosystem Health and Sustainability, 2025, 11:0442.

[5] Lin Feng, Xin Zhongbao, Ran Lishan, Qian Junxi. Evaluation of Human Settlement Quality of Nyingchi City, Southeastern Qinghai-Xizang Plateau, China. Chinese Geographical Science, 2025, 35 (6), 1456-1472.

[6] Cao Meng, Xin Zhongbao.Modified InVEST model for spatiotemporal variations of water conservation and its driving factors in the southwestern alpine Canyon region of China from 1990 to 2020.Environmental and Sustainability Indicators, 2025, 28:101034.

[7] Li Xiaoyu, Xin Zhongbao.Village greenspace in Hehuang Valley, Northeastern Qinghai-Xizang Plateau: proportions, influencing factors, and potential for improvement.Landscape Ecology, 2025, 40 (11): 201.

[8] Lin Dian, Xin Zhongbao, Lin Feng, Liu Jinhao, Huang Yanzhang.Variability of soil organic carbon with elevation gradient in the Yarlung Tsangpo River Basin on the southeastern Qinghai-Xizang Plateau.International Soil and Water Conservation Research, 2025, 13(4):945-956.

[9] Zhang Jiyong, Xin Zhongbao.Hydrological Regime Dynamics and Its Response to Environmental Changes in a Typical Watershed of the Chinese Loess Plateau.Hydrological Processes, 2025, 39 (11), e70319.

[10]  Zou Weiting, Xin Zhongbao.The optimal DEM resolution for determining sediment connectivity at runoff plot scale.Soil & Tillage Research, 2025, 254:106700.

[11]  杨帆，信忠保．黄土丘陵区小流域侵蚀输沙及泥沙连通性对水土保持响应研究．生态学报，2025，45（24）：12221-12235.

[12]  陈萍，王嘉宇，曹梦，刘鑫雨，信忠保．川西高原林地水源涵养功能沿海拔梯度的变化及其影响因素．生态学报，2025，45（22）：11281-11290.

[13]  陈萍，信忠保，周金星，张志强．生态系统稳定性概念、评估方法及影响因素．生态学报，2025，45（14）：6647-6662.

[14]  刘鑫雨，肖玉玲，邹伟婷，信忠保.黄土丘陵沟壑区不同土地利用类型SCS-CN模型研究.水土保持学报，2026，40（2）：

[15]  李笑婵，信忠保.基于UAV-SfM 点云数据特征的黄土高原小流域精细地形构建.水土保持学报，2026，40（1）：

[16]  曹梦，信忠保.1990—2020年西南高山峡谷区水源涵养功能时空变化及其驱动因素.水土保持学报，2025，39（6）：290-300.

[17]  石晓蕊，信忠保.雅鲁藏布江流域生态系统服务评估及其权衡/协同关系.水土保持学报，2025，39（5）：209-218.

[18]  张继永，肖玉玲，邹伟婷，信忠保.黄土丘陵区不同水土保持措施坡面小区侵蚀性降雨标准.水土保持学报，2025，39（4）：350-359.