截止2022年12月,以第一作者/通讯作者发表论文如下: [1] Zhiqiang Lin, Peng S*, Yuanyuan Yin, et al. Coupled InVEST-GTWR modeling reveals scale-dependent drivers of N and P export in a Chinese mountainous region, International Journal of Applied Earth Observation and Geoinformation, 2025, 142: 104705. [2] Ma D, Peng S*, Lin Z. Towards a more comprehensive scenario analysis: Response of soil erosion to future land use and climate change in the Central Yunnan Urban Agglomeration, China[J]. Journal of Environmental Management, 2025, 376: 124523. [3] Zhu, Y., Peng S*, Lin, Z, et al. Landslide susceptibility assessment and attribution analysis in Yunnan Province based on weighted information value-logistic regression model. Geomatics, Natural Hazards and Risk, 2025, 16(1): 2525428. [4] Ma D, Peng S*, Lin Z, et al. Identification of high-risk soil erosion areas in the central Yunnan urban agglomeration and the differentiated driving mechanisms compared to the overall agglomeration. Sci Rep. 2025, 15(1):16968. [5] Ma D, Peng S*, Lin Z, et al. Identification of soil erosion sensitive areas based on improved stability mapping method and the relative contributions of climate change and human activities[J]. Ecological Indicators, 2024, 169: 112952. [6] Lin Z, Peng S*, Ma D, et al. Patterns of change, driving forces and future simulation of LULC in the Fuxian Lake Basin based on the IM-RF-Markov-PLUS framework[J]. Sustainable Futures, 2024, 8: 100289. [7] Yang Y, Peng S*, Huang B, et al. Multi-scale analysis of the susceptibility of different landslide types and identification of the main controlling factors[J]. Ecological Indicators, 2024, 168: 112797. [8] Shi S, Peng S*, Lin Z, et al. Analysis of ecological environment quality heterogeneity across different landform types in Myanmar and its driving forces[J]. Ecological Indicators, 2024, 168: 112755. [9] Zhu J, Peng S*, Shen X, et al. Multiple scale impacts of land use intensity on water quality in the Chishui river source area[J]. Ecological Indicators, 2024, 166: 112396. [10] Zhu Z, Peng S*, Ma X, et al. Identification of potential conflicts in the production-living-ecological spaces of the Central Yunnan Urban Agglomeration from a multi-scale perspective[J]. Ecological Indicators, 2024, 165: 112206. [11] Fu L, Ma X, Peng S, et al. Exploring the scale effect of nonpoint source pollution risk on water quality in Lake Basins of Central Yunnan Plateau using the Minimum Cumulative Resistance model[J]. PeerJ, 2024, 12: e18247. [12] Huang X, Liu J, Peng S*, et al. The impact of multi-scenario land use change on the water conservation in central Yunnan urban agglomeration, China[J]. Ecological Indicators, 2023, 147: 109922. [13] Luo M, Peng S*, Cao Y, et al. Earthquake fatality prediction based on hybrid feature importance assessment: a case study in Yunnan Province, China[J]. Natural Hazards, 2023, 116(3): 3353-3376. [14] Lin Z, Peng S*. Comparison of multimodel simulations of land use and land cover change considering integrated constraints-A case study of the Fuxian Lake basin[J]. Ecological Indicators, 2022, 142: 109254. [15] Xiaoliang Ma, Shuangyun Peng*. Research on the spatiotemporal coupling relationships between land use/land cover compositions or patterns and the surface urban heat island effect[J]. Environmental Science and Pollution Research, 2022, 29:39723-39742. [16] Ma X, Peng S*. Assessing the quantitative relationships between the impervious surface area and surface heat island effect during urban expansion[J]. PeerJ, 2021, 9: e11854. [17] Zhang E, Feng H, Peng S*. Measurement of urban expansion and spatial correlation of central Yunnan urban agglomeration using nighttime light data[J]. Mathematical Problems in Engineering, 2021, 2021(1): 8898468. [18] Peng S, Li S. Scale relationship between landscape pattern and water quality in different pollution source areas: A case study of the Fuxian Lake watershed, China[J]. Ecological indicators, 2021, 121: 107136. [19] Yingxin Li, Shihua Li, Shuangyun Peng*, Shoulu Zhao, Wenxian Yang, Lidan Qiu. Extraction of plateau lakewater bodies based on an improved FCM algorithm[J], Journal of Intelligent & Fuzzy Systems, 2021, 41(1): 1727-1740. [20] 朱紫怡, 彭双云*, 林之强, 等.基于频率-幅度的云南省生境质量敏感区识别及其驱动机制[J].环境科学,1-18. [21] 林之强, 彭双云*, 施双富, 等. 滇中城市群地表温度时空演变及其与LULC的响应[J]. 水土保持学报, 2024, 38(06): 253-263+272. [22] 尹圆圆, 彭双云*, 林之强, 等. 2000~2020年云南省氮磷输出时空变化特征及其多尺度驱动机制分析[J]. 环境科学, 2025, 1-15. [23] 彭双云, 陈明潇, 张老伟, 等. 滇中城市群碳储量时空演变及其对LULC变化的响应[J].水土保持学报, 2024, 38(04): 246-256+266. [24] 杨玉钱, 彭双云*, 吕铭皓, 等. 1990—2020年滇中城市群耕地非农化时空变化特征及驱动机制[J]. 水土保持学报, 2024, 38(03): 239-251. [25] 卢向美, 彭双云*, 蔡福诚, 等. 人类活动与气候变化对云南九大高原湖泊流域湿地景观格局的影响[J]. 湿地科学, 2024, 22(02): 191-206. [26] 朱加应, 彭双云*. 近30年来滇中城市群生态用地变化轨迹时空演变特征及其驱动机制[J]. 水土保持学报, 2024, 38(01): 278-288. [27] 黄欣, 彭双云*, 王哲, 等. 基于地理探测器的云南省生态系统产水服务的空间异质性及驱动因素[J]. 应用生态学报, 2022, 33(10): 2813-2821. [28] 杨文仙, 李石华, 彭双云*, 等. 顾及地形起伏的InVEST模型的生物多样性重要区识别——以云南省为例[J]. 应用生态学报, 2021, 32(12): 4339-4348. [29] 林之强, 彭双云*, 洪亮, 等. 基于夜光数据的滇中城市建成区动态监测与时空格局演变[J]. 水土保持研究, 2021, 28(01): 265-271. [30] 张恩伟, 彭双云*, 冯华梅. 基于GIS和RUSLE的滇池流域土壤侵蚀敏感性评价及其空间格局演变[J]. 水土保持学报, 2020, 34(02): 115-122. 截止2022年12月,获得的软件著作权如下: [1] 2014SR030663,民族教育资源空间分布合理性评价系统 [2] 2012SR129357,土地利用变化智能模拟空间信息平台V1.0 [3] 2011SR069829,污染源管理地理信息网络发布系统V1.0 [4] 2011SR069355,污染源管理与突发污染事件应急决策支持空间信息平台V1.0 [5] 2010SR046775,公共卫生管理空间信息平台V1.0 [6] 2010SR046776,云南省艾滋病时空分系统V1.0 [7] 2010SR046779,艾滋病传播模拟与决策支持信息平台V1.0 [8] 2014SR030663,民族教育资源空间分布合理性评价系统 |