[3] Chen, Y. L., B. J. Long, X. B. Pan, et al., 2011: Differences between MODIS NDVI and AVHRR NDVI in monitoring grasslands change. J. Remote Sens., 15, 831–845. (in Chinese
[4] Chen, Q. W., K. N. Xiong, and A. J. Lan., 2014a: Monitoring studies on karst rocky desertification in Guizhou based on 3S. J. Arid Land Resour. Environ., 28, 62–67. (in Chinese doi:  10.3969/j.issn.1003-7578.2014.03.011
[5] Chen, Y. L., Y. M. Luo, W. H. Mo, et al., 2014b: Differences between MODIS NDVI and MODIS EVI in response to climatic factors. J. Nat. Resour., 29, 1802–1812. (in Chinese doi:  10.11849/zrzyxb.2014.10.015
[6] Chen, Y. L., W. H. Mo, J. F. Mo, et al., 2014c: Comparison between MODIS-NDVI and MODIS-EVI in Kasrt Rocky desertification area. Remote Sens. Technol. Appl., 29, 943–948. (in Chinese doi:  10.11873/j.issn.1004-0323.2014.6.0943
[7] Chen, Y. L. W. H. Mo, Y. M. Luo, et al., 2015a: EVI simulation of vegetation in karst rocky area using climatic factors. Trans. Chinese Soc. Agric. Eng., 31, 187–194. (in Chinese doi:  10.11975/j.issn.1002-6819.2015.09.029
[8] Chen, Y. L., M. T. Huang, and W. H. Mo, 2015b: Vegetation variation in typical ecological sections of southwest Guangxi based on MODIS NDVI data. J. Meteor. Sci., 35, 93–99. (in Chinese doi:  10.3969/2014jms.0017
[9] Chen, Y. L., J. F. Mo, W. H. Mo, et al., 2018: Temporal and spatial distributions of rocky desertification in Guangxi karst area in the past 30 years. Guangxi Sci., 25, 625–631. (in Chinese doi:  10.13656/j.cnki.gxkx.20181031.001
[11] Field, C. B., M. J. Behrenfeld, J. T. Randerson, et al., 1998: Primary production of the biosphere: Integrating terrestrial and oceanic components. Science, 281, 237–240. doi:  10.1126/science.281.5374.237
[12] Fu, X. F, S. T. Yang, and C. M. Liu, 2006: Spatial-temporal changes of NDVI and their relations with principal climatic factors in Yarlung Tsangpo river basin’s stations. Rese. Soil Water Conserv., 13, 229–232. (in Chinese doi:  10.3969/j.issn.1005-3409.2006.03.075
[13] Guo, J., M. C. Li, and D. Y. Liu, 2009: Temporal variation of vegetation NDVI and its relations to climate factors in Tianjin area. Chinese J. Ecol., 28, 1055–1059. (in Chinese
[15] Hou, G. L., D. Y. Liu, Z. X. Zhang, et al., 2012: Response of NDVI in different climatic zone to climate change in Songnen plain. Chinese J. Agrometeorol., 33, 271–277. (in Chinese doi:  10.3969/j.issn.1000-6362.2012.02.019
[17] Huang, X. S., H. Lu, X. P. Liao, et al., 2015: The distribution characteristics and defense strategies of droughts and floods of typical stony desertification area in Guangxi. J. Meteor. Res. Appl., 36, 59–61. (in Chinese doi:  10.3969/j.issn.1673-8411.2015.02.013
[18] Keeling, C. D., J. F. S. Chin, and T. P. Whorf, 1996: Increased activity of northern vegetation inferred from atmospheric CO2 measurements. Nature, 382, 146–149. doi:  10.1038/382146a0
[19] Knapp, A. K., and M. D. Smith, 2001: Variation among biomes in temporal dynamics of aboveground primary production. Science, 291, 481–484. doi:  10.1126/science.291.5503.481
[21] Li, Y. B., S. J. Wang, Q. Tan, et al., 2006: Research development and problems of Karst rocky desertification. Earth Environ., 34, 9–14. (in Chinese doi:  10.3969/j.issn.1672-9250.2006.03.002
[22] Liu, C. L., R. H. Fan, J. J. Wu, et al., 2009: Temporal lag of grassland vegetation growth response to precipitation in Xilinguolemeng. Arid Land Geogr, 32, 512–518. (in Chinese
[23] Melillo, J. M., A. D. McGuire., D. W. Kicklighter, et al., 1993: Global climate change and terrestrial net primary production. Nature, 363, 234–240. doi:  10.1038/363234a0
[24] Meng, J. J., and J. Wang, 2007: The response of vegetation dynamics to climate change in the southwestern karst region of China since the early 1980s. Geogr. Res., 26, 857–865. (in Chinese doi:  10.3321/j.issn:1000-0585.2007.05.001
[25] Nan, Y., Z. F. Liu, Y. H. Dong, et al., 2010: The responses of vegetation cover to climate change in the Changbai mountain area from 2000 to 2008. Sci. Geogr. Sinica, 30, 921–928. (in Chinese
[26] Nemani, R. R., C. D. Keeling, H. Hashimoto, et al., 2003: Climate-driven increases in global terrestrial net primary production from 1982 to 1999. Science, 300, 1560–1563. doi:  10.1126/science.1082750.
[27] Su, W. C., H. Yang, Q. Li, et al., 2006: Rocky land desertification and its controlling measurements in the Karst mountainous region, Southwest of China. Chinese J. Soil Sci., 37, 447–451. (in Chinese doi:  10.3321/j.issn:0564-3945.2006.03.008
[28] Wang, J. H., W. H. Mo, Y. L. Chen, et al., 2014: Distribution characteristics and evolution of rocky and desertified land in Pingguo County of Guangxi based on "3S" techniques. Sci. Soil Water Conserv., 12, 66–70. (in Chinese doi:  10.3969/j.issn.1672-3007.2014.03.010
[29] Wang, S. J., Y. B. Li, and R. L. Li, 2003: Karst rocky desertification: Formation background, evolution and comprehensive taming. Quat. Sci., 23, 657–666. (in Chinese doi:  10.3321/j.issn:1001-7410.2003.06.009
[30] Weltzin, J. F., M. E. Loik, S. Schwinning, et al., 2003: Assessing the response of terrestrial ecosystems to potential changes in precipitation. BioScience, 53, 941–952. doi:  10.1641/0006-3568(2003)053[0941:ATROTE]2.0.CO;2
[31] Wu, L. L., S. W. Zhou, and S. K. Zheng, 2012: Study on spatial relations between rocky desertification and mountain climate in Northwest Guangxi province based on GIS technology. J. Anhui Agric. Sci., 40, 11787–11790. (in Chinese doi:  10.3969/j.issn.0517-6611.2012.23.090
[32] Yu, H. D., X. C. Yang, B. Xu, et al., 2013: Changes of grassland vegetation growth in Xilin Gol league over 10 years and analysis on the influence factors. J. Geo-Inf. Sci., 15, 270–279. (in Chinese
[33] Yuan, D. X., 2008: Global view on karst rock desertification and integrating control measures and experiences of China. Pratac. Sci., 25, 19–25. (in Chinese
[34] Zhang, J, X. F. Gu, X. J. Zhou, et al., 2009b: Application of removing MODIS stripe noise using cubic spline interpolation. Microcomput. Inf., 25, 189–191. (in Chinese doi:  10.3969/j.issn.1008-0570.2009.31.081
[35] Zhang, Q. Y., S. H. Wu, D. S. Zhao, et al., 2013: Responses of growing season vegetation changes to climatic factors in Inner Mongolia grassland. J. Nat. Resour., 28, 754–764. (in Chinese
[36] Zhang, S. J., T. Wang, T. M. Wang, et al., 2009a: The variations in NDVI of different vegetation types in Xinjiang and its relation to climate factors. Pratac. Sci., 26, 26–31. (in Chinese
[37] Zhao, W. W., Y. H. Lv, W. W. Guo, et al., 2006: The correlations between climatic factors and NDVI in hilly and gully area of loess plateau in northern Shaanxi. Res. Soil Water Conserv., 13, 112–114. (in Chinese doi:  10.3969/j.issn.1005-3409.2006.02.036
[38] Zheng, Y. F., L. Y. Niu, R. J. Wu, et al., 2009: Vegetation cover change in Guizhou of Southwest China in 1982-2003 in response to climate change. Chinese J. Ecol., 28, 1773–1778. (in Chinese
[39] Zhou, G. S, and X. S. Zhang, 1996: Study on NPP of natural vegetation in China under global climate change. Acta Phytoecol. Sinica, 20, 11–19. (in Chinese doi:  10.3321/j.issn:1001-7488.1998.05.001