Liu Jiyuan; Xiang Bao
Source Publicationjournalofgeographicalsciences
Abstract[1]Anyamba A, Eastman J R, 1996. Interannual variability of NDVI over Africa and its relation to El Nino/Southern Oscillation. International Journal of Remote Sensing, 17(13): 2533-2548. [2]Bretherton C S, Smith C, Wallace J M, 1992. An intercomparison of methods of finding coupled patterns in climate date. Climate, (5): 354-369. [3]Chen Shupeng, Tong Qingxi, 1998. Research on Mechanism of Remote Sensing Information. Beijing: Science Press. (in Chinese) [4]Chen Yufeng, Li Kerang, 1996. GIS-based research on possible impacts of global climate change on China's vegetation. Acta Geographica Sinica, 51 (Supplement): 26-39. (in Chinese) [5]Eric F Lambin, Daniele Ehrlich, 1997. Land-cover changes in sub-Saharan Africa (1982-1991): application of a change index based on remotely sensed surface temperature and vegetation indices at a continental scale. Remote Sensing of Environment, 61: 181-200. [6]Gong Peng, Shi Peijun, Pu Ruiliang et al., 1996. Earth Observation Technology and Earth System Science. Beijing: Science Press. (in Chinese) [7]Justice C O, 1985. Analysis of the phenology of global vegetation using meteorological satellite data. International Journal of Remote Sensing, (6): 1271. [8]Kogan F N, 1998. A typical pattern of vegetation conditions in southern Africa during El Nino years detected from AVHRR data using three-channel numerical index. International Journal of Remote Sensing, 19 (18): 3688-3694. [9]Li Kerang, 1996. Research progress of global climate change and its impact and future prospect. Acta Geographica Sinica, 51(Supplement): 1-14. (in Chinese) [10]Li Xiubin, 1996. A review of the international researches on land use/land cover change. Acta Geographica Sinica, 51 (6): 553-558. (in Chinese) [11]Townshend J R G, 1984. Agricultural land-cover discrimination using thematic mapper spectral bands. International Journal of Remote Sensing, (5): 681-698. [12]Tucker C J, Townshend J R G, Goff T E, 1985. African land-cover classification using satellite data. Science, 227: 369-375. [13]Wang Shaowu, Gong Daoyi, 1999a. Impact of ENSO on global land and Chinese precipitation in the past century. Chinese Science Bulletin, (3): 315-320. (in Chinese) [14]Wang Shaowu, Gong Daoyi, 1999b. ENSO events and their intensity during the past century. Meteorological Monthly, 25 (1): 9-13. [15]Wu Zhengfang, Deng Huiping, 1996. Responses of broad-leaved Pinus koraiensis forests to global climate change. Acta Geographica Sinica, 51 (Supplement): 81-91. (in Chinese)
Document Type期刊论文
First Author Affilication中国科学院地理科学与资源研究所
Recommended Citation
GB/T 7714
Liu Jiyuan,Xiang Bao. relationshipbetweenlandcoverandmonsooninterannualvariationsineastasia[J]. journalofgeographicalsciences,2002,000(001):42.
APA Liu Jiyuan,&Xiang Bao.(2002).relationshipbetweenlandcoverandmonsooninterannualvariationsineastasia.journalofgeographicalsciences,000(001),42.
MLA Liu Jiyuan,et al."relationshipbetweenlandcoverandmonsooninterannualvariationsineastasia".journalofgeographicalsciences 000.001(2002):42.
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