Anderson K and Gaston K J. 2013. Lightweight Unmanned Aerial Vehicles Will Revolutionize Spatial Ecology. Frontiers in Ecology and the Environment, 11(3): 138-146.郭庆华,吴芳芳,胡天宇,陈琳海,刘瑾,赵晓倩,高上,庞树鑫. 2016.无人机在生物多样性遥感监测中的应用现状与展望. 生物多样性,24(11):1267-1278. [Guo Qinghua, Wu Fangfang, Hu Tianyu, Chen Linhai, Liu Wei, Zhao Xiaoqian, Gao Shang and Pang Shuxin. 2016. Perspectives and Prospects of Unmanned Aerial Vehicle in Remote Sensing Monitoring of Biodiversity. Biodiversity Science, 24(11): 1267-1278. ] Hao Z.Q., Zhang J, Bo Song, Ji Ye and Buhang Li. 2007. Vertical Structure and Spatial Associations of Dominant Tree Species in an Old-Growth Temperate Forest. Forest Ecology and Management, 252: 1-11. 胡健波,张健. 2018.无人机遥感在生态学中的应用进展. 生态学报,38(1):20-30. [Hu Jianbo and Zhang Jian. 2018. Unmanned Aerial Vehicle Remote Sensing in Ecology: Advances and Prospects. Acta Ecologica Sinica, 38(1): 20-30. ] Koh L P and Wich S A. 2012. Dawn of Drone Ecology: Low-Cost Autonomous Aerial Vehicles for Conservation. Tropical Conservation Science, 5(2): 121-132. MacArthur R and MacArthur J W. 1961. On Bird Species Diversity. Ecology, 42: 594-598. 孙中宇,陈燕乔,杨龙,唐光良,袁少雄,林志文.2017.轻小型无人机低空遥感及其在生态学中的应用进展.应用生态学报,28(2):528-536.[Sun Zhongyu, Chen Yanqiao, Yang Long, Tang Guangliang, Yuan Shaoxiong and Lin Zhiwen. 2017. Small Unmanned Arial Vehicles for Low-Altitude Remote Sensing and Its Application Process in Ecology. Chinese Journal of Applied Ecology, 28(2): 528-536. ] Whitehead K and Hugenholtz C H. 2014a. Remote Sensing of The Environment with Small Unmanned Aircraft Systems (UASS), Part 1: A Review of Progress and Challenges. Journal of Unmanned Vehicle Systems, 2(3): 69-85. Whitehead K, Hugenholtz C H, Myshak S, Brown O, LeClair A, Tamminga A, Barchyn T E, Moorman B and Eaton B. 2014b. Remote Sensing of the Environment with Small Unmanned Aircraft Systems (UASs), part 2: Scientific and Commercial Applications. Journal of Unmanned Vehicle Systems, 2(3): 86-102. Zhang J, Hu J B, Lian J Y, Fan Z J, Ouyang X J and Ye W H. 2016a. Seeing the Forest from Drones: Testing the Potential of Lightweight Drones as a Tool for Long-Term Forest Monitoring. Biological Conservation, 198: 60-69. Zhang J, Scott E Nielsen, Lingfeng Mao, Shengbin Chen and Jens-Christian Svenning. 2016b. Regional and Historical Factors Supplement Current Climate in Shaping Global Forest Canopy Height. Journal of Ecology, 104: 469-478. Zhang J, W Daniel Kissling and He Fangliang. 2013. Local Forest Structure, Climate and Human Disturbance Determine Regional Distribution of Boreal Bird Species Richness in Alberta, Canada. Journal of Biogeography, 40: 1131-1142. |