[1] |
尹国康. 黄河中游多沙粗沙区水沙变化原因分析. 地理学报, 1998, 53(2): 174-183 [Yin G-K. An analysis on the causes of variations of runoff and sediment yield in the sandy and coarse sediment region of the middle Yellow River. Acta Geographica Sinica, 1998, 53(2): 174-183]
|
[2] |
毕慈芬, 王富贵, 李桂芬, 等. 砒砂岩地区沟道植物“柔性坝”拦沙试验. 泥沙研究, 2003, 28(2): 14-25 [Bi C-F, Wang F-G, Li G-F, et al. Experiment on sedi-ment retention by plant “flexible dam” in gully in soft rock region. Journal of Sediment Research, 2003, 28(2): 14-25]
|
[3] |
Habib AS, Chen XL, Gong JY. Analysis of Sudan vegetation dynamics using NOAA-AVHRR NDVI data from 1982-1993. Asia Journal of Earth Sciences, 2008, 1: 1-15
|
[4] |
Achard F, Eva HD, Stibig H, et al. Determination of deforestation rates of the world’s humid tropical forest. Science, 2002, 297: 999-1002
|
[5] |
Parmesan C, Yohe G. A globally coherent finger print of climate change impacts across natural systems. Nature, 2003, 421: 37-42
|
[6] |
Weiss JL, Gutzler DS, Coonrod JEA, et al. Long-term vegetation monitoring with NDVI in a diverse semi-arid setting, central New Mexico, USA. Journal of Arid Environments, 2004, 58: 249-272
|
[7] |
Al-Bakri JT, Taylor JC. Application of NOAA AVHRR for monitoring vegetation conditions and biomass in Jordan. Journal of Arid Environments, 2003, 54: 579-593
|
[8] |
Deng SF, Yang TB, Zeng B, et al. Vegetation cover variation in the Qilian Mountains and its response to climate change in 2000-2011. Journal of Mountain Science, 2013, 10: 1050-1062
|
[9] |
童晓伟, 王克林, 岳跃民, 等. 桂西北喀斯特区域植被变化趋势及其对气候和地形的响应. 生态学报, 2014, 34(12): 3425-3434 [Tong X-W, Wang K-L, Yue Y-M, et al. Trends in vegetation and their responses to climate and topography in northwest Guangxi. Acta Ecologica Sinica, 2014, 34(12): 3425-3434]
|
[10] |
赵婷, 白红英, 邓晨晖, 等. 2000—2016年秦岭山地植被覆盖变化地形分异效应. 生态学报, 2019, 39(12): 1-11[Zhao T, Bai H-Y, Deng C-H, et al. Topographic differentiation effect on vegetation cover in the Qinling Mountains from 2000 to 2016. Acta Ecologica Sinica, 2019, 39(12): 1-11]
|
[11] |
黎铭, 张会兰, 孟铖铖, 等. 皇甫川流域2000-2015年植被NDVI时空变化特征. 林业科学, 2019, 55(8): 36-44 [Li M, Zhang H-L, Meng C-C, et al. Spatial-temporal variations of vegetation coverage in Huangfuchuan basin from 2000 to 2015. Scientia Silvae Sinicae, 2018, 55(8): 36-44]
|
[12] |
Dutta D, Das PK, Paul S, et al. Assessment of ecological disturbance in the mangrove forest of Sundarbans caused by cyclones using MODIS time-series data (2001-2011). Natural Hazards, 2015, 79: 775-790
|
[13] |
Otto M, Hopfner C, Curio J, et al. Assessing vegetation response to precipitation in northwest Morocco during the last decade: An application of MODIS NDVI and high resolution reanalysis data. Theoretical and Applied Climatology, 2016, 123: 23-41
|
[14] |
Huete A, Didan K, Miura T, et al. Overview of the radiometric and biophysical performance of the MODIS vegetation indices. Remote Sensing of Environment, 2002, 83: 195-213
|
[15] |
Huete AR, Liu HQ, Batchily K, et al. A comparison of vegetation indices over a global set of TM images for EOS-MODIS. Remote Sensing of Environment, 1997, 59: 440-451
|
[16] |
Yan F, Wu B, Wang YJ. Estimating spatiotemporal patterns of aboveground biomass using Landsat TM and MODIS images in the Mu Us Sandy Land, China. Agricultural & Forest Meteorology, 2015, 200: 119-128
|
[17] |
中华人民共和国国土资源部. 中华人民共和国土地管理行业标准(TD/T 1014—2007) [EB/OL]. (2017-09-10) [2019-02-08]. https://max.book118.com/html/2014/0522/8394980.shtm [Ministry of Land and Resources of the People’s Republic of China. Land Management Industry Standard of the People’s Republic of China (TD/T 1014-2007) [EB/OL]. (2017-09-10) [2019-02-08]. https://max.book118.com/html/2014/0522/8394980.shtm]
|
[18] |
Gitelson AA, Kaufman YJ, Stark R, et al. Novel algorithms for remote estimation of vegetation fraction. Remote Sensing of Environment, 2002, 80: 76-87
|
[19] |
Zribi M, Le Hégarat-Mascle S, Taconet O, et al. Derivation of wild vegetation cover density in semi-arid regions: ERS2/SAR evaluation. International Journal of Remote Sensing, 2003, 24: 1335-1352
|
[20] |
Qi J, Marsett RC, Moran MS, et al. Spatial and temporal dynamics of vegetation in the San Pedro River basin area. Agricultural and Forest Meteorology, 2000, 105: 55-68
|
[21] |
Gutman G, Ignatov A. The derivation of the green vegetation fraction from NOAA/AVHRR data for use in numerical weather prediction models. International Journal of Remote Sensing, 1998, 19: 1533-1543
|
[22] |
Carlson TN, Ripley DA. On the relation between NDVI, fractional vegetation cover, and leaf area index. Remote Sensing of Environment, 1997, 62: 241-252
|
[23] |
Rundquist BC. The influence of canopy green vegetation fraction on spectral measurements over native tallgrass prairie. Remote Sensing of Environment, 2002, 81: 129-135
|
[24] |
Stew D, Daeschner S, Hope A, et al. Variability of the seasonally integrated normalized difference vegetation index across the north slope of Alaska in the 1990s. International Journal of Remote Sensing, 2003, 24: 1111-1117
|
[25] |
闫峰, 卢琦, 吴波, 等. 1981—2015年新疆生产建设兵团植被生长变化特征. 干旱区地理, 2018, 41(3): 553-563 [Yan F, Lu Q, Wu B, et al. Characteristics of vegetation growth in Xinjiang Production and Construction Corps in 1981-2015. Arid Land Geography, 2018, 41(3): 553-563]
|
[26] |
Holben BN, Justice CO. The topographic effect on spectral response from nadir-pointing sensors. Photogrammetry and Remote Sensing, 1980, 46: 1191-1200
|
[27] |
吴志杰, 何国金, 黄绍霖, 等. 南方丘陵区植被覆盖度遥感估算的地形效应评估. 遥感学报, 2017, 21(1): 159-167 [Wu Z-J, He G-J, Huang S-L, et al. Terrain effects assessment on remotely sensed fractional vegetation cover in hilly area of southern China. Journal of Remote Sensing, 2017, 21(1): 159-167]
|
[28] |
Carmel Y, Kadmon R. Effects of grazing and topography on long-term vegetation changes in a Mediterranean ecosystem in Israel. Plant Ecology, 1999, 145: 243-254
|
[29] |
Eisenlohr PV, Alves LF, Bernacci LC. Disturbances, elevation, topography and spatial proximity drive vegetation patterns along an altitudinal gradient of a top biodiversity hotspot. Biodiversity and Conservation, 2013, 22: 2767-2783
|