Biodiversity Science ›› 2018, Vol. 26 ›› Issue (8): 785-788.doi: 10.17520/biods.2018234

• Editorial • Previous Article     Next Article

Remote sensing has become an indispensable technology for biodiversity research protection and change monitoring

Qinghua Guo*(), Jin Liu   

  1. State Key Laboratory of Vegetation and Environmental Change, Institute of Botany, Chinese Academy of Sciences, Beijing 100093
  • Online:2018-09-27
  • Guo Qinghua E-mail:qguo@ibcas.ac.cn
  • About author:# Co-first authors
[1] Cardinale BJ, Duffy JE, Gonzalez A, Hooper DU, Perrings C, Venail P, Narwani A, Mace GM, Tilman D, Wardle DA, Kinzig AP, Daily GC, Loreau M, Grace JB, Larigauderie A, Srivastava DS, Naeem S (2012) Biodiversity loss and its impact on humanity. Nature, 486, 59-67.
[2] Ceballos G, Ehrlich P, Barnosky A, García A, Pringle R, Palmer T (2015) Accelerated modern human-induced species losses: Entering the sixth mass extinction. Science Advances, 1, e1400253.
[3] Deng Y, Wang B, Li Q, Zhang ZM, Deng XB, Cao M, Lin LX (2018) An analysis of lightweight-drone-assisted mapping accuracy in a tropical forest plot. Biodiversity Science, 26, 892-904. (in Chinese with English abstract)
[邓云, 王彬, 李强, 张志明, 邓晓保, 曹敏, 林露湘 (2018) 轻小型无人机航摄技术辅助的热带森林样地测量精度问题探讨. 生物多样性, 26, 892-904.]
[4] Duffy JE (2009) Why biodiversity is important to the functioning of real-world ecosystems. Frontiers in Ecology and the Environment, 7, 437-444.
[5] Guo QH, Hu TY, Jiang YX, Jin SC, Wang R, Guan HC, Yang QL, Li YM, Wu FF, Zhai QP, Liu J, Su YJ (2018) Advances in remote sensing application for biodiversity research. Biodiversity Science, 26, 789-806. (in Chinese with English abstract)
[郭庆华, 胡天宇, 姜媛茜, 金时超, 王瑞, 关宏灿, 杨秋丽, 李玉美, 吴芳芳, 翟秋萍, 刘瑾, 苏艳军 (2018) 遥感在生物多样性研究中的应用进展. 生物多样性, 26, 789-806.]
[6] Guo QH, Liu J, Li YM, Zhai QP, Wang YC, Wu FF, Hu TY, Wan HW, Liu HM, Shen WM (2016) A near-surface remote sensing platform for biodiversity monitoring: Perspectives and prospects. Biodiversity Science, 24, 1249-1266. (in Chinese with English abstract)
[郭庆华, 刘瑾, 李玉美, 翟秋萍, 王永财, 吴芳芳, 胡天宇, 万华伟, 刘慧明, 申文明 (2016) 生物多样性近地面遥感监测: 应用现状与前景展望. 生物多样性, 24, 1249-1266.]
[7] Haper JL, Hawksworth DL (1995) Preface. In: Biodiversity: Measurement and Estimation (ed. Hawksworth DL), pp. 5-12. Chapman & Hall, London.
[8] Jiang ZG, Ma KP (2009) Status, challenges and strategy in Conservation Biology. Biodiversity Science, 17, 107-116. (in Chinese with English abstract)
[蒋志刚, 马克平 (2009) 保护生物学的现状、挑战和对策. 生物多样性, 17, 107-116.]
[9] Lausch A, Blaschke T, Haase D, Herzog F, Syrbe RU, Tischendorf L, Walz U (2015) Understanding and quantifying landscape structure: A review on relevant process characteristics, data models and landscape metrics. Ecological Modelling, 295, 31-41.
[10] Lei Q, Li JY, Ma KM (2018) Applications of remote sensing technology in avian ecology. Biodiversity Science, 26, 862-877. (in Chinese with English abstract)
[雷倩, 李金亚, 马克明 (2018) 遥感技术在鸟类生态学研究中的应用. 生物多样性, 26, 862-877.]
[11] Li AN, Yin GF, Zhang ZJ, Tan JB, Nan X, Ma KP, Guo QH (2018) Space-air-field integrated biodiversity monitoring based on experimental station. Biodiversity Science, 26, 819-827. (in Chinese with English abstract)
[李爱农, 尹高飞, 张正健, 谭剑波, 南希, 马克平, 郭庆华 (2018) 基于站点的生物多样性星空地一体化遥感监测. 生物多样性, 26, 819-827.]
[12] Liu FZ, Du JH, Zhou Y, Huang ZP, Li YP, Wang W, Xiao W (2018) Monitoring technology and practice on protected areas biodiversity by integrating unmanned aerial vehicle (UAV) and ground approaches. Biodiversity Science, 26, 905-917. (in Chinese with English abstract)
[刘方正, 杜金鸿, 周越, 黄志旁, 李延鹏, 王伟, 肖文 (2018) 无人机和地面相结合的自然保护地生物多样性监测技术与实践. 生物多样性, 26, 905-917.]
[13] Liu XH, Wu PF, He XB, Zhao XY (2018) Application and data mining of infra-red camera in the monitoring of species. Biodiversity Science, 26, 850-861. (in Chinese with English abstract)
[刘雪华, 武鹏峰, 何祥博, 赵翔宇 (2018) 红外相机技术在物种监测中的应用及数据挖掘. 生物多样性, 26, 850-861.]
[14] MA (Millennium Ecosystem Assessment) (2005) Ecosystems and Human Well-being: Synthesis. Island Press, Washington, DC.
[15] Ma KP (2016) Hot topics for Biodiversity Science. Biodiversity Science, 24, 1-2. (in Chinese)
[马克平 (2016) 生物多样性科学的热点问题. 生物多样性, 24, 1-2.]
[16] Oindo BO, Skidmore AK (2002) Interannual variability of NDVI and species richness in Kenya. International Journal of Remote Sensing, 23, 285-298.
[17] Pasher J, Smith PA, Forbes MR, Duffea J (2014) Terrestrial ecosystem monitoring in Canada and the greater role for integrated earth observation. Environmental Reviews, 22, 179-187.
[18] Pimm SL, Jenkins CN, Abell R, Brooks TM, Gittleman JL, Joppa LN, Raven PH, Roberts CM, Sexton J (2014) The biodiversity of species and their rates of extinction, distribution, and protection. Science, 344, 987.
[19] Shi LL, Jia YF, Zuo AJ, Ma TH, Lei JL, Lei CG, Wen L (2018) Dynamic change of vegetation cover and productivity of Poyang Lake wetland based on MODIS EVI time series. Biodiversity Science, 26, 828-837. (in Chinese with English abstract)
[史林鹭, 贾亦飞, 左奥杰, 马童慧, 雷佳琳, 雷光春, 文力 (2018) 基于MODIS EVI时间序列的鄱阳湖湿地植被覆盖和生产力的动态变化. 生物多样性, 26, 828-837.]
[20] Skidmore AK, Pettorelli N, Coops NC, Geller GN, Hansen M, Lucas R, Mucher CA, O'Connor B, Paganini M, Pereira HM, Schaepman ME, Turner W, Wang TJ, Wegmann M (2015) Agree on biodiversity metrics to track from space. Nature, 523, 403-405.
[21] Tang ZY, Jiang MW, Zhang J, Zhang XY (2018) Applications of satellite and air-borne remote sensing in biodiversity research and conservation. Biodiversity Science, 26, 807-818. (in Chinese with English abstract)
[唐志尧, 蒋旻炜, 张健, 张新悦 (2018) 航空航天遥感在物种多样性研究与保护中的应用. 生物多样性, 26, 807-818.]
[22] Turner W, Spector S, Gardiner N, Fladeland M, Sterling E, Steininger M (2003) Remote sensing for biodiversity science and conservation. Trends in Ecology & Evolution, 18, 306-314.
[23] Wang L, Shi C, Tian JY, Song XN, Jia MM, Li XJ, Liu XM, Zhong RF, Yin DM, Yang SS, Guo XX (2018) Researches on mangrove forest monitoring methods based on multi-source remote sensing. Biodiversity Science, 26, 838-849. (in Chinese with English abstract)
[王乐, 时晨, 田金炎, 宋晓楠, 贾明明, 李小娟, 刘晓萌, 钟若飞, 殷大萌, 杨杉杉, 郭先仙 (2018) 基于多源遥感的红树林监测. 生物多样性, 26, 838-849.]
[24] Zhou ZY, Liu R, Shi SN, Su YJ, Li WK, Guo QH (2018) Ecological niche modeling with LiDAR data: A case study of modeling the distribution of fisher in the southern Sierra Nevada Mountains, California. Biodiversity Science, 26, 878-891. (in Chinese with English abstract)
[周中一, 刘冉, 时书纳, 苏艳军, 李文楷, 郭庆华 (2018) 基于激光雷达数据的物种分布模拟: 以美国加州内华达山脉南部区域食鱼貂分布模拟为例. 生物多样性, 26, 878-891.]
No related articles found!
Viewed
Full text


Abstract

Cited

  Shared   
  Discussed