主编,Ecosystem Observation, Simulation and Assessment,书号:ISBN 978-3-0365-6774-7 (Hbk) ISBN 978-3-0365-6775-4 (PDF),Basel, Switzerland, MDPI,2023年.
主编,生态遥感:理论、方法与应用,书号:ISBN 978-7-03-070274-6,北京:科学出版社,2021年.
第1副主编, 中国生态状况与发展历程,长春:吉林科学技术出版社,2021年.
第1副主编, 全国生态环境十年变化(2000-2010年)遥感调查与评估, 北京:科学出版社, 2014年.
[1]Analysis ofVegetation Changes and DrivingFactors on the Qinghai-Tibet Plateaufrom 2000 to 2022.Forests2024, 15,2188.
[2]Quantitative Analysis about the Spatial Heterogeneity of Water Conservation Services Function Using a Space–Time Cube Constructed Based on Ecosystem and Soil Types.Diversity2024, 16, 638.
[3]Gradient Analysis of Spatial-Temporal Change and Conservation Effectiveness in Different Ecological Protected Areas.Diversity2024, 16(5), 265.
[4]生态系统水源涵养服务功能定量评估方法研究进展.应用生态学报,2024,35(01):275-288.
[5]森林地上生物量遥感反演研究进展[J].林草资源研究,2023(06):146-158.
[6]Assessment of water conservation services based on the method of integrating hydrological observation data according to different ecosystem types and regions.Water, 2023, 15, 1475.
[7]National-scale mapping of building footprints using feature super-resolution semantic segmentation of Sentinel-2 images,GIScience & Remote Sensing, 2023, 60:1, 2196154.
[8]Continental-scale wetland mapping: A novel algorithm for detailed wetland types classification based on time series Sentinel-1/2 images,Ecological Indicators,2023, 148, 110113.
[9]High-Resolution Quantitative Retrieval of Soil Moisture Based on Multisource Data Fusion with Random Forests: A Case Study in the Zoige Region of the Tibetan Plateau,Remote sensing, 2023, 15, 1531.
[10]High-Spatial-Resolution NDVI Reconstruction with GA-ANN.Sensors,2023,23: 2040.
