个人简介
杨仁敏，博士，副教授，硕士生导师。2016年毕业于中国科学院南京土壤研究所，获农学博士学位，曾获中国科学院院长优秀奖。主要从事土壤环境模型和湿地土壤方面的研究。先后主持或参与多个国家级和省部级项目。在SoilScience Society of America Journal,Science of the Total Environment,Land Degradation & Development等主流期刊发表SCI论文20余篇，其中第一作者14篇（第一作者兼通讯作者8篇）。
E-mail: yangrenmincs@163.com
工作经历
2019/07 – 至今，江苏师范大学，地理信息科学系，副教授
2016/07– 2019/06，江苏师范大学，地理信息科学系，讲师
其中：2017/10– 2018/10，悉尼大学，访问****（国家留学基金委资助）
学历背景
2013/09 – 2016/06，中国科学院南京土壤研究所，农学博士
2009/09 – 2012/06，河海大学，地理信息科学系，理学硕士
2005/09 – 2009/06，南京工业大学，地理信息工程系，理学学士
科研项目
[1]国家自然科学基金青年项目，**，原生滨海湿地土壤遥感三维制图模型与储碳功能定量研究，2018/01– 2020/12，主持
[2]江苏省高校自然科学研究面上项目，17KJB210004，基于数字制图技术的滨海湿地土壤碳库动态变化研究，2017/09– 2019/08，主持
[3]江苏师范大学自然科学基金项目，16XLR038，基于遥感和过程模型的土壤三维模拟研究，2017/01– 2018/12，主持
论文列表（*为通讯作者）
[1]Yang R.M.*2019. Mechanisms of soil organic carbon storage response to Spartina alterniflora invasion and climate change. Scienceof the Total Environment. (inpress)
[2]Yang R.M.*, Guo W.W. 2019. Modelling of soil organic carbon and bulk density in invaded coastal wetlands using Sentinel-1 imagery. International Journal of Applied Earth Observation and Geoinformation. (in press)
[3]Yang R.M.*, Guo W.W. 2019. Using Sentinel-1 imagery for soil salinity prediction under the condition of coastal restoration. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing12, 1482-1488.
[4]Yang R.M.*, Guo W.W., Zheng J.B. 2019.Soil prediction for coastal wetlands following Spartina alterniflora invasion using Sentinel-1 imagery and structural equation modeling. Catena173, 465-470.
[5]Yang R.M.*, Guo W.W. 2019. Using time-series Sentinel-1 data for soil prediction on invaded coastal wetlands. Environmental Monitoring and Assessment191, 462.
[6]Yang R.M.*, Guo W.W. 2018. Exotic Spartina alterniflora enhances the soil functions of a coastal ecosystem. Soil Science Society of America Journal82,901-909. (Featured in CSA News magazine)
[7]Yang R.M.*, Guo W.W. 2018. Invasive Spartina strengthens soil resilience in wetlands of the east-central China coast. Land Degradation & Development29,2846-2853.
[8]YangR.M.*, Minasny B., Ma Y.X., Field D., McBratney A., Wu C.F. 2018. A preliminary soil security assessmentof agricultural land in middle-eastern China. Soil Use and Management, 34, 584-596.
[9]Yang R.M., Yang Fan, Yang Fei, Huang L.M., Liu F., Yang J.L., Zhao Y.G., Li D.C., Zhang G.L.*2017. Pedogenic knowledge-aided modelling of soil inorganic carbon stocks in an alpine environment. Scienceof the Total Environment599, 1445-1453.
[10]Yang R.M., Zhang G.L.*, Liu F., Lu Y.Y., Yang Fan, Yang Fei, Yang M., Zhao Y.G., Li D.C. 2016. Comparison of boosted regression tree and random forest models for mapping topsoil organic carbon concentration in an alpine ecosystem. Ecological Indicators60, 870-878.
[11]Yang R.M., Liu F., Zhang G.L.*, Zhao Y.G., Li D.C., Yang J.L., Yang Fei, Yang Fan. 2016. Mapping Soil Texture Based on Field Soil Moisture Observations at a High Temporal Resolution in an Oasis Agricultural Area. Pedosphere26, 699-708.
[12]Yang R.M., Zhang G.L.*, Yang Fei, Zhi J.J., Yang Fan, Liu F., Zhao Y.G., Li D.C. 2016. Precise estimation of soil organic carbon stocks in the northeast Tibetan Plateau. Scientific Reports6, 21842.
[13]Yang R.M., Rossiter D.G., Liu F., Lu Y.Y., Yang Fan, Yang Fei, Zhao Y.G., Li D.C., Zhang G.L.*2015. Predictive mapping of topsoil organic carbon in an alpine environment aided by Landsat TM. PLoS ONE10, e**.
[14]Yang R.M., An R.*, Wang H.L., Chen Z.X., Jonathan AQ-B. 2013. Monitoring wetland changes on the source of the Three Rivers from 1990 to 2009, Qinghai, China. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing6, 1817-1824.
[15]Yang F., Huang L.M., Yang R.M., Yang F., Li D.C., Zhao, Y.G., Yang J.L., Liu F., Zhang G.L.* 2018. Vertical distribution and storage of soil organic and inorganic carbon in a typical inland river basin, Northwest China. Journal of Arid Land10, 183-201.
[16]Zhi J.J., Zhang G.L.*, Yang R.M., Yang F., Jin C.W., Liu F., Song X.D., Zhao Y.G., Li D.C. 2018. An Insight into Machine Learning Algorithms to Map the Occurrence of Soil Mattic Horizon in the Northeastern Qinghai-Tibetan Plateau. Pedosphere28, 739-750.
[17]Yang Fei, Huang L.M., Rossiter D.G., Yang Fan, Yang R.M., Zhang G.L.* 2017. Evolution of loess-derived soils along a topo-climatic sequence in the Qilian Mountains, NE Tibetan Plateau. European Journal of Soil Science68, 270-280.
[18]Zhi J.J., Zhang G.L.*, Yang F., Yang R.M., Liu F., Song X.D., Zhao Y.G., Li D.C. 2017. Predicting mattic epipedons in the northeastern Qianghai-Tibetan Plateau using Random Forest. Geoderma Regional10, 1-10.
[19]Brus D.J., Yang R.M., Zhang G.L.* 2016. Three-dimensional geostatistical modeling of soil organic carbon: a case study in the Qilian Mountains, China. Catena141, 46-55.
[20]Liu F., Rossiter D.G., Song X.D., Zhang G.L.*, Yang R.M., Zhao Y.G., Li D.C., Ju B. 2016. A similarity-based method for three-dimensional prediction of soil organic matter concentration. Geoderma263, 254-263.
[21]Yang F., Zhang G.L.*, Yang F., Yang R.M.2016. Pedogenetic interpretations of particle-size distribution curves for an alpine environment. Geoderma282, 9-15.
[22]Yang J.L., Zhang G.L.*, Yang F., Yang R.M., Yi C., Li D.C., Zhao Y.G., Liu F. 2016. Controlling effects of surface crusts on water infiltration in an arid desert area of Northwest China. Journal of Soils and Sediments16, 2408-2418.
[23]Yang F., Zhang G.L.*, Yang J.L., Li D.C., Zhao Y.G., Liu F., Yang R.M., Yang F. 2014. Organic matter controls of soil water retention in an alpine grassland and its significance for hydrological processes. Journal of Hydrology519, 3086-3093.