General Information
Name: Li Xiaopeng
Title: Professor
Work Email: lixp@issas.ac.cn
Work Phone: 025-86881240
Research Fields
(1)Soil physics and digital agriculture
(2)Soil improvement technology
(3)Water and fertilizer transport model and technology
Education Background
(1)2004 – 2010, Ph.D., Soil Science, Institute of soil science Chinese academy of science, Nanjing, China
(2)2000 – 2004, Bachelor, Earth Sciences, Nanjing University, Nanjing, China
Professional Experience
(1)2016 – Present, Associate Professor, Soil Physics and Saline Soil Research Laboratory, Institute of soil science Chinese academy of science, Nanjing, China
(2)2012 – 2014, Visiting Scholar, University of Alberta, Alberta, Canada
(3)2009 – 2016, Research Assistant, Soil Physics and Saline Soil Research Laboratory, Institute of soil science Chinese academy of science, Nanjing, China
Social Positions
(1)2016 – Present, Deputy Director, Soil Quality Standardization Working Committee of Soil Society of China
Projects
(1)Barrier abatement and cultivation technology and demonstration of suitable saline crops in soda saline lands in the western Songnen Plain, Development of new conditioning agent for soda saline soil and new technology of water saving and drainage promotion to accelerate alkali desalination subject, 2022.11-2027.10, National Key R&D Program of China (PI)
(2)In-situ combined monitoring technology and sensor development of soil water, thermal and structural properties based on natural thermal processes, 2022.10-2024.10, Deployment Project of the Institute of soil science, Chinese Academy of Sciences during the 14th Five-Year Plan Period (PI)
(3)Black soil land protection and utilization of science and technology innovation project (Black soil granary), Freeze-thaw regulation technology of black soil compaction slab abatement, 2021.09-2026.08, Strategic Leading Science and Technology Project of Chinese Academy of Sciences (Category A)
(4)Study of mesoscale soil moisture inversion method integrating cosmic-ray neutron method and UAV remote sensing, 2019.01-2022.12, National Natural Science Foundation of China (PI)
(5)Research, development and demonstration of key technologies for grain production in areas, R&D upgrading and demonstration of key technology for Shajiang black soil improvement, 2019.01-2020.06, Program of Science and Technology Service Network of Chinese Academy of Sciences (STS Program)
(6)Precise design of breeding research platform, Standardize data on the breeding environment, 2019.11-2024.10, Strategic Leading Science and Technology Project of Chinese Academy of Sciences (Category A)
(7)Research and Demonstration of Low and Middle Yield Field Improvement Model in Huaihe River Basin, Shajiang black soil improvement and soil strength enhancement, 2017.01-2018.06, Program of Science and Technology Service Network of Chinese Academy of Sciences (STS Program) (PI)
(8)Science and technology innovation for food production and efficiency, Grain crop growth monitoring and diagnosis and precision cultivation technology, 2016.01-2020.12, National Key R&D Program of China
(9)Integrated technology research and development of chemical fertilizer and pesticide application reduction and efficiency enhancement, Intelligent precision fertilization and fertilizer deep application technology and its equipment, 2016.01-2020.12, National Key R&D Program of China
(10)Development and Upgrading of Soil Moisture Monitoring Network Equipment and Management System, 2016.01-2018.12, Frontier Projects of the Institute of soil science, Chinese Academy of Sciences during the 13th Five-Year Plan Period (PI)
(11)Technology Integration and Demonstration of Food Increasing Technology in Huabei County, Shajiang black soil improvement and rapid soil strength enhancement technology, 2015.01-2016.12, Program of Science and Technology Service Network of Chinese Academy of Sciences (STS Program) (PI)
(12)Research on regional scale farmland water nitrogen management system based on GSM monitoring network and WEBGIS, 2012.01-2014.12, Frontier Projects of the Institute of soil science, Chinese Academy of Sciences (PI)
(13)Geostatistical simulation and uncertainty analysis of regional soil hydrodynamic properties based on Markov chain, 2011.01-2013.12, National Natural Science Foundation of China Youth Fund Project (PI)
Patents
(1)Li Xiaopeng, Yang Kun, Wang Sheng, Liu Jianli, Zhang Jiabao, Liang Linzhou. Buried wireless soil testing device: ZL 202120370832.8, 2021-12-31
(2)Li Xiaopeng, Yang Kun, Wang Sheng, Liu Jianli, Zhang Jiabao, Liang Linzhou. FDR-based wireless soil moisture detection device: ZL 202120374580.6, 2021-12-21
(3)Li Xiaopeng, Yang Kun, Wang Sheng, Liu Jianli, Zhang Jiabao. IoT-based soil moisture detection device: ZL 202120374260.0 2021-12-21
(4)Li Xiaopeng, Yang Kun, Wang Sheng, Liu Jianli, Zhang Jiabao, Liang Linzhou. Ultra-long standby soil moisture detection device: ZL 202120374579.3, 2021-12-21
(5)Li Xiaopeng, Yang Kun, Wang Sheng, Liu Jianli, Zhang Jiabao. NB-IoT-based soil detection device: ZL 202120370837.0, 2021-12-21
(6)Li Xiaopeng, Yang Kun, Wang Sheng, Liu Jianli, Zhang Jiabao. Probe-like soil moisture monitoring device: ZL 20210370842.1, 2021-12-21
(7)Li Xiaopeng, Yang Kun, Wang Sheng, Zhang Jiabao, Liu Jianli. Soil moisture detection device: ZL 202130096875.7, 2021-09-17
(8)Li Xiaopeng, Liu Jianli, Yan Yifan, Zou Xiaojuan, Ji Jingchun, Zhao Yuan. A water control and anti-cracking soil amelioration method and corresponding device for swelling shajiang black soil: ZL 201810329791.0, 2021-04-27
(9)Li Xiaopeng, He Chengdong, Liu Jianli, Zhang Jiabao, Yan Yifan. Soil detection device and soil water content and bulk density detection methods: ZL 201810993944.1, 2020-11-03
(10)Li Xiaopeng, Zhao Yuan, Liu Jintao, Liu Jianli, Zhang Jiabao. Small and medium scale soil water monitoring system and method integrating cosmic-ray neutron method and UAV remote sensing: ZL 201910857253.3 2020-09-01
(11)Li Xiaopeng, Liu Jianli, Zhang Jiabao, Huang Shan, Zhang Su, Xuan Kefan. Grain water content measuring device and grain water content measuring method: ZL 201811325378.3, 2020-08-28
(12)Li Xiaopeng, Liu Jianli, Zhang Jiabao, Huang Shan, Zhang Su, Zhao Yuan. Crop biomass density measurement device and measurement method: ZL 201811324905.9 2020-08-28
(13)Li Xiaopeng, Liu Jianli, Zhang Jiabao. Line-scanning LiDAR based soil surface morphology monitoring device, soil surface morphology monitoring and data analysis method: ZL 201710951332.1, 2019-06-21
(14)Li Xiaopeng, Liu Jianli, Zhang Jiabao, Zhang Su, Huang Shan, Ji Jingchun. Portable soil water content and bulk density measurement device and measurement method: ZL 201810993945.6, 2019-03-12
(15)Li Xiaopeng, Liu Jianli, Zhang Jiabao, Ji Jingchun. New soil tension meter and soil water potential measurement method: ZL 201710475965.X , 2019-05-21
(16)Tu Yonghui, Tang Haoye, Li Xiaopeng, Hu Wenyou, Zhou Hu, Ni Jun. A multi-purpose flow analyzer feed tray device: ZL 201720716424.7, 2018-05-08
(17)Li Xiaopeng, Liu Jianli, Yan Yifan, Zhao Yongchao, Zhang Jiabao. A easy maintenance and anti-frost tensiometer and test method for measuring soil water potential: ZL201510988292.9, 2017-10-24
Publications
(1)Li Xiaopeng, Ma Bin, Drozdowski Bonnie, Salifu Francis, Chang Scott X. Effects of Capping Strategy and Water Balance on Salt Movement in Oil Sands Reclamation Soils. WATER, 2020, 12(2): 512–512.
(2)Li Xiaopeng, Chang Scott X, Liu Jintao, Zheng Zemei, Wang Xihua. Topography-soil relationships in a hilly evergreen broadleaf forest in subtropical China. Journal of Soils and Sediments, 2017, 17(4): 1101–1115.
(3)Li Xiaopeng, Liu Jianli, Zhang Jiabao, Wang Weipeng, Xin Wenwen. Analysis of fractal magnitude of soil particles in loamy Chao soils in North China Plain. Transactions of the Chinese Society of Agricultural Engineering, 2014, 30(4): 118–124.
(4)Li Xiaopeng, Liu Jianli, Zhang Jiabao, Wang Weipeng, Xin Wenwen. Soil texture distribution simulation and risk assessment using transition probability-based geostatistics. INTERNATIONAL AGROPHYSICS, 2014, 28(4): 447–457.
(5)Li Xiaopeng, Chang Scott X, Salifu K Francis. Soil texture and layering effects on water and salt dynamics in the presence of a water table: a review. Environmental Reviews. 2014, 22(1): 41–50.
(6)Li Xiaopeng, Jiabao Zhang, Jintao Liu, Jianli Liu, Anning Zhu, Fei Lv, Congzhi Zhang. A modi?ed checkbook irrigation method based on GIS-coupled model for regional irrigation scheduling. IRRIGATION SCIENCE, 2010, 29: 115–126.
(7)Li Xiaopeng, Zhang Jiabao, Zhu Anning, Jin Lei. Simulation the Temporal and Spatial Distribution of Farmland Soil Water Drainage Based on GIS. Chinese Journal of Soil Science, 2009, 40(4): 743–746.
(8)Li Xiaopeng, Zhang Jiabao, Zhu Anning, Xin Xiuli, Zhang Congzhi, Huang Ping. WNMM-Model-Based Optimization of Soil Water and Nitrogen Management in Fluvo-Aquic Soil. Journal of Ecology and Rural Enviroment, 2009, 25(1): 62–68.
(9)Li Xiaopeng, Zhang Jiabao, Liu Jintao, Zhu Anning. Simulating Soil Water Drainage and Nitrogen Leaching in Tianranwenyanqu Basin. Enviromental Science, 2009, 30(3): 864–869.
(10)Li Xiaopeng, Zhang Jiabao, Ji Liqing, Zhu Anning, Liu Jintao. Application of Pedo-transfer Functions in Calculating Saturated Soil Hydraulic Conductivity of Fengqiu County. Journal of Irrigation and Drainage, 2009, 28(2): 70–73.
(11)Ji Jingchun, Liu Jianli, Chen Jingjing, Niu Yujie, Xuan Kefan, Jiang Yifei, Jia Renhao, Wang Can, Li Xiaopeng*. Optimization of Topdressing for Winter Wheat by Accurate Growth Monitoring and Improved Production Estimation. Remote Sensing. 2021, 13, 2349.
(12)Hussain Sajid, Huang Jing, Zhu Chunquan, Zhu Lianfeng, Cao Xiaochuang, Hussain Saddam, Ashraf Muhammad, Khaskheli Maqsood Ahmed, Kong Yali, Jin Qianyu, Li Xiaopeng*, Zhang Junhua. Pyridoxal 5 '-phosphate enhances the growth and morpho-physiological characteristics of rice cultivars by mitigating the ethylene accumulation under salinity stress. PLANT PHYSIOLOGY AND BIOCHEMISTRY, 2020, 154: 782–795.
(13)Wang Can, Li Xiaopeng, Zhang Jiabao, Liu Yiren, Situ Zhiren, Gao Chen, Liu Jianli. Using Bayesian compressed sensing and sparse dictionaries to interpolate soil properties. Geoderma. 2022, 428, 116162.
(14)Wang Can, Li Xiaopeng, Xuan Kefan, Jiang Yifei, Ji Jingchun, Jia Renhao, Liu Jianli. Progression of Compressive Sensing Applied in Geoscience Spatial Data Reconstruction. Soils, 2022, 54(2): 232–239.
(15)Kefan Xuan, Xiaopeng Li, Xiuling Yu, Yifei Jiang, Jingchun Ji, Renhao Jia, Can Wang, Jianli Liu. Effects of different organic amendments on the soil pore structure acquired by three-dimensional investigation. European Journal of Soil Science. 2022.
(16)Can Wang, Xiaopeng Li, Kefan Xuan, Yifei Jiang, Renhao Jia, Jingchun Ji, Jianli Liu. Interpolation of soil properties from geostatistical priors and DCT-based compressed sensing. Ecological Indicators. 2022, 140, 109013.
(17)Jiang Yifei, Li Xiaopeng, Xuan Kefan, Ji Jingchun, Jia Renhao, Wang Can, Liu Jianli. Applicability of cosmic-ray neutron sensing for monitoring soil moisture in farmland. Chinese Journal of Applied Ecology, 2022, 33(4): 909–914.
(18)Niu Yujie, Li Xiaopeng, Zhang Jiabao, Ma Donghao, Ji Jingchun, Xuan Kefan, Jiang Yifei, Wang Chunfen, Deng Haodong, Liu Jianli. Inversion of Leaf Area Index in Winter Wheat by Merging UAV LiDAR with Multispectral Remote Sensing Data. Acta Pedologica Sinica, 2022, 59(1): 161–171.
(19)Wang Liang, Zhu Jiangpeng, Du Xiaoyue, Zhang Jiafei, Han Xiaole, Zhou Weijun, Li Xiaopeng, Liu Jianli, Liang Fei, He Yong, Cen Haiyan. A model for phenotyping crop fractional vegetation cover using imagery from unmanned aerial vehicles. Journal of experimental botany, 2021, 72: 4691–4707.
(20)Shen Xuhui, Liu Jintao, Wang Wanjie, Han Xiaole, Zhang Jie, Li Guofang, Li Xiaopeng, Shi Yue. A novel physical model demonstrating critical zone structure and flow processes in headwaters for teaching and research purposes. Hydrogical Processes, 2021, 35(6).
(21)Ji Jingchun, Liu Jianli, Niu Yujie, Xuan Kefan, Jiang Yifei, Deng Haodong, Li Xiaopeng. Comparison of Estimation Methods for Growth Parameters of Winter Wheat Based on Full-Band Hyperspectral Data. Crops, 2020(6): 180–188.
(22)Wu Pengfei, Liu Lin, Qiao Xiao, Zhou Jie, Liu Jintao, Li Xiaopeng, Han Xiaole. Terrain Extraction of Small Hillside Watershed on Qinghai-Tibet Plateau Based on LiDAR. Journal of Yangtze River Scientific Research Institute, 2019, 36(9): 155–160.
(23)Zhao Yuan, Li Xiaopeng, Ji Jingchun, Zou Xiaojuan, Xuan Kefan, Wang Weipeng, Liu Jianli. Advances in Soil Moisture Monitoring Using Cosmic Ray Neutron Probe Method. Journal of Ecology and Rural Environment, 2019, 35(5): 545–553.
(24)Zhao Yongchao, Li Xiaopeng, Yan Yifan, Wang Yiming, Liu Jianli. Effects of Straw Returning via Application of Organic Fertilizer as Primer on Fluvo-aquic Soil Enzyme Activities in Soil Aggregates. Soils, 2018, 50(3): 498–507.
(25)Huang Ping, Zhang Jiabao, Zhu Anning, Li Xiaopeng, Ma Donghao, Xin Xiuli, Zhang Congzhi, Wu Shengjun, Garland Gina, Pereira Engil Isadora Pujol. Nitrate accumulation and leaching potential reduced by coupled water and nitrogen management in the Huang-Huai-Hai Plain. Science of the Total Environment, 2018, 610: 1020–1028.
(26)Yan Yifan, Li Xiaopeng, Zhang Jiabao, Liu Jianli. Parameter Estimation and Uncertainty Evaluation of a Soil Solute Transport Model Using GLUE. ACTA PEDOLOGICA SINICA, 2018, 55(5): 1108–1119.
(27)Yan Yifan, Liu Jianli, Zhang Jiabao, Li Xiaopeng, Zhao Yongchao. Quantifying soil hydraulic properties and their uncertainties by modified GLUE method. International Agrophysics. 2018, 31(3): 433-445.
(28)Han Xiaole, Liu Jintao, Mitr Subhasis, Li Xiaopeng, Srivastava Puneet, Guzman Sandra M, Chen Xi. Selection of optimal scales for soil depth prediction on headwater hillslopes: A modeling approach. CATENA, 2018, 163: 257–275.
(29)Zhang Yingdi, Zhang Jiabao, Li Xiaopeng. Inversion of Soil Moisture of Shajiang Black Soil by Hyper-spectra. Soils, 2017, 49(3): 630–634.
(30)Ma Bin, Li Xiaopeng, Chang Scott X. Capping material type affects rhizosphere bacteria community structure in the cover soil in oil sands reclamation. Journal of Soils and Sediments, 2017, 17(10): 2516–2523.
(31)Liu Suqian, Xu Shaohui, Li Xiaopeng, Yan Yifan, Zhao Yongchao, Liu Jianli. Effects of Soil Profile Configuration on Soil Water and Nitrogen Storage and Transportation: A Review. Soils, 2016, 48(2): 219–224.
(32)Wang Weipeng, Liu Jianli, Zhao Bingzi, Zhang Jiabao, Li Xiaopeng, Yan Yifan. Critical Evaluation of Particle Size Distribution Models Using Soil Data Obtained with a Laser Diffraction Method. PLoS ONE[J]. 2015, 10(4), 0125048.
(33)Wang Weipeng, Liu Jianli, Li Xiaopeng. Transition Probability Based 3D Stochastic Simulation and Uncertainty Assessment of Soil Texture at Field Scale. Soils, 2014, 46(6): 1121–1128.
(34)Yan Yifan, Liu Jianli, Li Xiaopeng, Zhang Jiabao, Zhao Bingzi. Assessment of Farmland Productivity with Cluster Analysis and Classification and Regression Tree (CART). Soils, 2014, 46(4): 656–661.
(35)Wang Weipeng, Liu Jianli, Zhang Jiabao, Li Xiaopeng. Evaluation and correction of measurement using diffraction method for soil particle size distribution. Transactions of the Chinese Society of Agricultural Engineering, 2014, 30(22): 163–169.
(36)Wang Weipeng, Li Xiaopeng, Liu Jianli. Markov-chain-based Geostatistics Simulation for Regional Soil Hydraulic Properties Estimation: A Review. Soils, 2012, 44 (1): 10–16.
(37)Ji Liqing, Zhu Anning, Zhang Jiabao, Xin Xiuli, Li Xiaopeng. Determining Soil Water Content by Using Low-frequency Ground-penetrating Radar Ground Wave Techniques. Soils, 2011, 43 (1): 123–129.
(38)Zhang Congzhi, Zhang Jiabao, Zhao Bingzi, Zhu Anning, Zhang Hui, Huang Ping, Li Xiaopeng. Coupling a two-tip linear mixing model with a delta D-delta O-18 plot to determine water sources consumed by maize during different growth stages. FIELD CROPS RESEARCH, 2011, 123(3): 196–205.
(39)Liu Jintao, Zhang Jiabao, Liu Jianli, Li Xiaopeng. Deriving Drainage Networks and Watershed Area: A Methodology Coupling Digital Elevation Model and Multiple Information. Geography and Geo-Information Science, 2010, 26(2): 27–30.
(40)Liu Jintao, Li Xiaopeng, Chen Xi, Ma Can. Distribution Characteristics of Initial Soil Water Content in Profile During Hiatus Rainfal-l infiltration Events and Its Effects on Infiltration. Journal of Soil and Water Conservation, 2009, 23(5): 96–100.
(41)Zhang Congzhi, Zhang Jiabao, Zhao Bingzi, Zhang Hui, Hhuang Ping, Li Xiaopeng, Zhu Qianggen. Relationships among Water Use Efficiency, Carbon Isotope Discrimination, and Specific Leaf Area in Maize. ACTA AGRONOMICA SINICA, 2009, 35(6): 1115–1121.