(1)973前期项目“天山北坡现代绿洲演变机理研究(2014CB460603,2015-2016)”,负责,经费78万元;
(2)国家国际科技合作课题“中亚地区土地利用变化及其对生态系统结构与功能的影响(2010DFA92720-09, 2011-2014)”,负责,经费100万元;
(3)作为第二负责人主持国家973项目课题“亚欧内陆干旱区碳循环过程及其在全球碳循环中的作用(2009CB825105,2009-2013)”,经费825万元。
(4)新疆联合基金-重点项目“中亚锡尔河流域水土开发和水利基础设施建设引起土地利用与覆被变化的气候与生态效应”(U1803243, 2019-2022),负责,经费256万元;
(5)面上基金“干旱区典型绿洲演变及其生态效应研究(No. 41671108,2017-2020)”,负责,经费67万元;
(6) 国家自然科学基金联合基金-优青项目“基于水碳循环和能量平衡的绿洲稳定性内涵分析(U1303382,2014-2017)”,负责,经费100万元;
(7)面上基金“天山北坡主要草地生态系统净初级生产力对放牧响应的模拟与实证研究(No. 41271126,2013-2016)”,负责,经费75万元;
(9)面上基金“近50年天山北坡林线变化及其驱动机制研究(No. 40971066,2010-2012)”,负责,经费53万元;
(10)院A类战略性先导科技专项(泛三极)项目专题级“气候变化和人类活动对大湖区水资源及其利用的影响”,负责,367.44万,2018-2022;
(11)中国科学院对外合作重点项目:“天山北坡土地利用与覆被变化对山地-绿洲-荒漠系统水热格局和局地气候的影响(No. 131965KYSB20160004, 2016-2018)”,负责,经费100万元;
(12)国家自然科学基金委中俄国际合作项目:“中国新疆玛纳斯河流域和俄罗斯Kalmykia 里海西北区域土壤次生盐渍化动态变化(2007-2008)”,负责,9万元
(13)国家自然科学基金面上项目:“土地变化的多尺度研究——以天山北坡三工河流域为例(2007-2009)” ,负责,44万元
(14)国家自然科学基金面上项目“干旱区绿洲人为驱动的两种典型土地利用/土地覆被变化及其生态环境效应研究(2005-2007)”,负责,35万元。
1)Zhang, M., Luo, G.* et al. (2019). Numerical simulation of the irrigation effects on surface fluxes and local climate in typical mountain-oasis-desert systems in the Central Asia arid area. Journal of Geophysical Research: Atmospheres. DOI: 10.1029/2019JD030507
2)Shi, H., Luo, G.*, Zheng, H., Chen, C., Bai, J., Liu, T., Ochege, F.U., De Maeyer, P. Coupling the Water-Energy-Food-Ecology Nexus into a Bayesian Network for Water Resources Analysis and Management in the Syr Darya River Basin, Journal of Hydrology (2019), doi: https://doi.org/10.1016/j.jhydrol.
3)Ochege, F. U., Luo, G.*, Obeta, M. C., Owusu, G., Duulatov, E., Cao, L., & Nsengiyumva, J. B. (2019). Mapping evapotranspiration variability over a complex oasis-desert ecosystem based on automated calibration of Landsat 7 ETM+ data in SEBAL. GIScience & Remote Sensing, 56(8), 1305-1332.
4)Nsengiyumva, J. B., Luo, G.*, Amanambu, A. C., Mind'je, R., Habiyaremye, G., Karamage, F. & Mupenzi, C. (2019). Comparing probabilistic and statistical methods in landslide susceptibility modeling in Rwanda/Centre-Eastern Africa. Science of the total environment, 659, 1457-1472.
5)Cai, P., Hamdi, R., Luo, G.*, He, H., Zhang, M., Termonia, P., & De Maeyer, P. (2019). Agriculture intensification increases summer precipitation in Tianshan Mountains, China. Atmospheric Research, 227, 140-146.
6)Ye, H., Huang, X. T., Luo, G. P.*, Wang, J. B., Zhang, M., & Wang, X. X. (2019). Improving remote sensing-based net primary production estimation in the grazed land with defoliation formulation model. Journal of Mountain Science, 16(2), 323-336.
7)Huang, X.T., Luo, G.P.*, Han, Q.F., 2018. Temporospatial patterns of human appropriation of net primary production in Central Asia grasslands. Ecological Indicators, 91, 555-561
8) Nsengiyumva, J., Luo, G. P.*, Nahayo, L., Huang, X., & Cai, P. (2018). Landslide susceptibility assessment using spatial multi-criteria evaluation model in Rwanda. International journal of environmental research and public health, 15(2), 243.
9) Han, Q., Luo, G.P.*, Li, C., & Li, S., 2018. Response of Carbon Dynamics to Climate Change Varied among Different Vegetation Types in Central Asia. Sustainability, 10(9), 3288.
10) Huang, X., Luo, G.P.*, Ye, F., & Han, Q., 2018. Effects of grazing on net primary productivity, evapotranspiration and water use efficiency in the grasslands of Xinjiang. Journal of Arid Land, 8:1-13
11) Amuti, T., Luo, G.P.*, Yin, G., Hu, Q., & Walter-Shea, E. A., 2018. Validation of a Process-Based Agro-Ecosystem Model (Agro-IBIS) for Maize in Xinjiang, Northwest China. Agronomy, 8(3), 299
12) Zhang, M., Luo, G.P.*, Hamdi, R., Qiu, Y., Wang, X., Maeyer, P. D., & Kurban, A., 2017. Numerical Simulations of the Impacts of Mountain on Oasis Effects in Arid Central Asia. Atmosphere, 8(11), 212.
13) Zhang, M., Luo, G.*, De Maeyer, P., Cai, P., & Kurban, A., 2017. Improved atmospheric modelling of the oasis-desert system in central asia using wrf with actual satellite products. Remote Sensing, 9(12), 1273.
14) Huang, X., Luo, G.*, He, H., Wang, X., & Amuti, T. (2017). Ecological Effects of Grazing in the Northern Tianshan Mountains. Water, 9(12), 932.
15) Huang, X., Luo, G.*, Wang, X., 2017. Land–Atmosphere Exchange of Water and Heat in the Arid Mountainous Grasslands of Central Asia during the Growing Season. Water, 9, 727
16) Huang, X., Luo, G.*, & Lv, N., 2017. Spatio-temporal patterns of grassland evapotranspiration and water use efficiency in arid areas. Ecological Research, 1-13.
17) Zhang, Q., Luo, G.*, Li, L., Zhang, M., Lv, N., & Wang, X., 2017. An analysis of oasis evolution based on land use and land cover change: a case study in the Sangong river basin on the northern slope of the Tianshan Mountains. Journal of Geographical Sciences, 27(2), 223-239.
18) Chen, Y., Luo, G.*, Maisupova, B., Chen, X., et al., 2016. Carbon budget from forest land use and management in Central Asia during 1961–2010. Agricultural and Forest Meteorology 221: 131–1412
19) Han, Q., Luo, G. *, Li, C., Shakir, A., 2016. Simulated grazing effects on carbon emission in Central Asia. Agricultural and Forest Meteorology 216: 203–214
20) Luo, G.*, Amuti, T., Zhu, L., Mambetov, B., Maisupova, B., Zhang, C., 2015. Landscape pattern dynamics in the inland river delta based on CA-Markov model: A case study of the Ili River delta. Regional Environmental Change, 15(2): 277-289.
21) Chaofan Li, Chi Zhang, Geping Luo, Xi Chen, Bagila Maisupova. 2015. Carbon stock and its responses to climate change in Central Asia. Global Change Biology, doi: 10.1111/gcb.12846
22) Amut, T., Luo, G. *, 2014. Analysis of land cover change and its driving forces in a desert oasis landscape of Xinjiang, northwest China. Solid Earth, 5: 1071–1085.
23) Han, Q.F., Luo G.P. *, 2014. Modeling the grazing effect on dry grassland carbon cycling with Biome-BGC model. Ecological Complexity, 17:149-157.
24) Luo G. P.*, Dai, L., 2013. Detection of Alpine Tree Line Change with High Spatial Resolution Remotely Sensed Data. Journal of Applied Remote Sensing, 7(1), 073520
25) Han, Q.F., Luo G.P. *, Li, C.F., Ye, H., Chen, Y.L., 2013. Modeling grassland net primary productivity and water-use efficiency along an elevational gradient of the Northern Tianshan Mountains. Journal of Arid Land, 5(3): 354-365.
26) Han, Q.F., Luo G.P. *, 2013. Remote sensing-based quantification of spatial and temporal variation in canopy phenology of four dominant tree species. Journal of Applied Remote sensing. DOI: 10.1117/1.JRS.7.073485
27) Dai Li, Li Yanzhong, Luo G. P. *, Xu Wenqiang, Lu Lei, Li Chaofan, Feng Yixing, 2013.The spatial variation of alpine timberlines and their biogeographical characteristics in the northern Tianshan Mountains of China, ENVIRONMENTAL EARTH SCIENCES, 68(1): 129-137
28) Zhang C., Li C. F., Luo G. P. *, Chen X., 2013. Modeling Plant Structure and Its Impacts on Carbon and Water Cycles of the Central Asian Arid Ecosystem in the Context of Climate Change. Ecological Modelling 267:158-17.
29) Luo, G., Han, Q., Zhou, D., Li, L.*, Chen, X., Li, Y., Hu Y., Li, B. L., 2012. Moderate grazing can promote above-ground primary production of grassland under water stress, Ecological Complexity, 11: 126-136
30) Feng, Y., Luo, G.*, Lu, L., Zhou, D., Han, Q., Xu, W., 2011. Effects of land use change on landscape pattern of the Manas River watershed in Xinjiang, China, Environmental Earth Sciences, 64(8): 2067-2077
31) Luo, G.*, Feng, Y., Zhang, B., Cheng, W., 2010.Sustainable land-use patterns for arid lands: A case study in the northern slope areas of the Tianshan Mountains, Journal of Geographical Sciences,20(4):510-524
32) Luo, G.*, Yin, C., Chen, X., Xu, W., Lu, L., 2010. Combining system dynamic model and CLUE-S model to improve land use scenario analyses at regional scale: a case study of Sangong watershed in Xinjiang, China,Ecological Complexity, 7:198–207
33) Zhou, D. C., Luo, G. P. *, & Lei, L. U. (2010). Processes and trends of the land use change in Aksu watershed in the central asia from 1960 to 2008. Journal of Arid Land, 02(3), 157-166.
34) Luo, G. P., Lei, L. U., Yin, C. Y., & Feng, Y. X., 2009. An analysis of oasis stability in avid areas: a case study in the northern slope areas of the Tianshan Mountains. Journal of Arid Land, 01(1), 49-56.
35) Luo, G. P., Zhou, C. H., Chen, X., & Li, Y., 2008. A methodology of characterizing status and trend of land changes in oases: a case study of Sangong river watershed, Xinjiang, china. Journal of Environmental Management, 88(4), 775.
36) Luo, G., Chen, X., Xu, W., 2008. Soil properties related to land-use systems in oases of Sangong river watershed, Xinjiang. Journal of Geographical Sciences,18(4), 483-498.
37) Luo, G., Zhou, C., & Xi, C., 2006. Stability of patches of oasis landscape in arid areas: a case study of Sangong river watershed, Xinjiang, china. Chinese Science Bulletin, 51(s1), 92-100.
38) 英文专著:Chen, X., Zhang, C., Luo, G. Modeling dryland ecosystems’ response to global change in Central Asia China. Beijing: Meteorological Press, 2014
39) 中文专著:陈曦,罗格平. 亚洲中部干旱区生态系统碳循环. 北京:中国环境出版社,2015
40) 中文专著:陈曦,罗格平,吴世新,王伟胜,方晖,陈秋晓. 中亚干旱区土地利用与覆被变化. 北京:科学出版社,2015