1. Azhdari, Z., Rafeie Sardooi, E., Bazrafshan, O., Zamani, H., Singh, V. P., Mohseni Saravi, M., Ramezani, M. 2020. Impact of climate change on net primary production (NPP) in south Iran. Environmental monitoring and assessment, 192: 1-16. 2. Anderson, R.G., Goulden, M.L. 2011. Relationships between climate, vegetation, and energy exchange across a montane gradient. Journal of Geophysical Research: Biogeosciences, 116(G1). 3. Davie, J.C.S., Falloon, P.D., Kahana, R., Dankers, R., Betts, R., Portmann, F.T., Wisser, D., Clark, D.B., Ito, A., Masaki, Y., Nishina, K. 2013. Comparing projections of future changes in runoff from hydrological and biome models in ISI-MIP. Earth System Dynamics, 4(2): 359-374. 4. Eisfelder, Ch., Klein, I., Markus. N., Keizer, C. 2014. Net primary productivity in Kazakhstan, its spatio-temporal patterns and relation to meteorological variables. Arid Environments 103: 17-30. 5. Gang, C., Zhou, W., Li, J., Chen, Y., Mu, S., Ren, J., Chen, J., Groisman, P.Y. 2013. Assessing the spatiotemporal variation in distribution, extent and NPP of terrestrial ecosystems in response to climate change from 1911 to 2000. PloS One, 8(11): e80394. 6. Jafari, M. 2007. Review on needfulness for plant ecophysiological study and investigation on climate change’s effects on forest, rangeland and desert ecosystems. Climate Change in South-Eastern European Countries: Causes, Impacts. In Workshop: Climate Change in South-Eastern European Countries: Causes, Impacts, Solutions, Orangerie, Burggarten, Graz, Austria. 7. Li, Q., Tuo, D., Zhang, L., Wei, X., Wei, Y., Yang, N., Xu, Y., Anten, N.P., Pan, X. 2014. Impacts of climate change on net primary productivity of grasslands in Inner Mongolia. The Rangeland Journal, 36(5): 493-503. 8. Liu, Ch., Xiaofeng, D., Liu, L.Y. 2015. Changes of NPP and their relationship to climate factors based on the transformation of different scales in Gansu, China. Catena 125: 190-199. 9. Nemani, R.R., Keeling, C.D., Hashimoto, H., Jolly, W.M., Piper, S.C., Tucker, C.J., Myneni, R.B., Running, S.W. 2003. Climate-driven increases in global terrestrial net primary production from 1982 to 1999. Science, 300(5625): 1560-1563. 10. Solly, B., Jarju, A. M., Sonko, E., Yaffa, S., Sawaneh, M. 2021. Detection of recent changes in Gambia vegetation cover using time series MODIS NDVI. Belgeo. Revue belge de géographie, (1). 11. Sun, G., Riekerk, H., Kornhak, L.V. 2000. Ground-water-table rise after forest harvesting on cypress-pine flatwoods in Florida. Wetlands, 20(1): 101-112. 12. Zhang, G., Kang, Y., Han, G., Sakurai, K. 2011. Effect of climate change over the past half century on the distribution, extent and NPP of ecosystems of Inner Mongolia. Global Change Biology, 17(1): 377-389. 13. Zhang, L., Xiao, J., Li, J., Wang, K., Lei, L., Guo, H. 2012. The 2010 spring drought reduced primary productivity in southwestern China. Environmental Research Letters, 7(4): 045706. 14. Zhao, C., Shao, Q., Liu, J. Y. 2012. Analysis of net primary productivity of terrestrial vegetation on the qinghaitibet plateau based on Modis remote sensing data. Science China Earth 55: 1306-1312. 15. Zhao, D., Wu, S., Yin, Y. 2013. Responses of terrestrial ecosystems net primary productivity to future regional climate change in China. PLoS ONE 8(4): 253-268. 16. Zoungrana, B.J., Conrad, C., Thiel, M., Amekudzi, L.K. Da, E.D. 2018. MODIS NDVI trends and fractional land cover change for improved assessments of vegetation degradation in Burkina Faso, West Africa. Journal of Arid Environments, 153, 66-75.
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