职称:副教授
邮箱:liangang1985@hotmail.com
研究领域与招生类别
研究领域:全球变化,碳循环与碳中和,土壤侵蚀,生态可持续发展
招生专业:地理学
招生类型:学术学位硕士
教育背景
2011/05–2016/07,University of Basel(瑞士),地理学,博士
2008/09–2010/12,兰州大学,地球系统科学,硕士
2004/09–2008/06,临沂大学,地理科学,学士
工作经历
2017年至今,华北水利水电大学 测绘与地理信息学院
开设课程
自然地理学,城市地理学,专业英语
代表性科研项目
(1)国家自然科学基金面上项目,42277325,耕作模式-土壤侵蚀叠加作用下黄土高原旱作坡地固碳效应与机制,2023年1月-2026年12月,53万元,在研,主持
(2)河南省高等学校重点科研项目,21A210026,保护性农业措施下坡耕地固碳效应研究,2021年1月—2022年12月,3万元,在研,主持
(3)河南省自然科学基金青年项目,212300410199,保护性耕作对泥沙沉降特点及有机碳迁移转化的影响,2021年1月—2022年12月,5万元,在研,主持
(4)河南省自然科学基金面上项目,182300410103,河南省县域农业水土资源开发的碳排放效应研究,2018/01-2019/12,10万元,在研,参与
(5)河南省高等学校青年骨干教师培养计划项目,2017GGJS078,河南省农作物虚拟水和隐含碳的匹配关系研究,2018/01-2020/12,3万元,在研,参与
(6)国家自然科学基金面上项目,41971241,农业水土资源耦合开发的碳排放效应及调控研究——基于“水—土—能—碳”关联的视角,2020-01至2023-12,57万元,在研,参与
奖励与荣誉
代表性学术成果:
(1)Liangang Xiao,Rongqin Zhao*,China’s new era of ecological civilization, Science, 2017, 358 (6366), 1008-1009 (Letter).
(2)Liangang Xiao#*, Nikolaus J. Kuhn#, Rongqin Zhao, Lianhai Cao. Net effects of conservation agriculture principles on sustainable land use: A synthesis, Global Change Biology, 2021, 27, 6321–6330.
(3)Xiao, Liangang, et al. "Effects of conservation agriculture on carbon dynamics across eroded slopes: A global synthesis." Agriculture, Ecosystems & Environment 389 (2025): 109696.
(4)Xiao, Liangang, et al. Temporal and vertical dynamics of carbon accumulation potential under grazing-excluded grasslands in China: The role of soil bulk density. Journal of Environmental Management 351 (2024): 119696.
(5)Xiao, Liangang, et al. "Maximizing crop yield and water productivity through biochar application: A global synthesis of field experiments." Agricultural Water Management 305 (2024): 109134.
(6)Xiao, Liangang, et al. The net and combined effects of minimum tillage and straw mulching on carbon accumulation in global croplands. European Journal of Agronomy 143 (2023): 126719.
(7)Xiao, Liangang, et al. Plastic film mulching significantly boosts crop production and water use efficiency but not evapotranspiration in China. Agricultural Water Management 275 (2023): 108023.
(8)Xiao, Liangang, et al. "Effects of conservation practices on global wind erosion control: Evidence from experimental data." Land Degradation & Development 34.14 (2023): 4386-4398.
(9)Liangang Xiao*, Guoqing Li, Rongqin Zhao, Lu Zhang, Effects of soil conservation measures on wind erosion control in China: a synthesis, Science of the Total Environment, 2021, 778, 146308.
(10)Liangang Xiao*, Rongqin Zhao*, and Nikolaus J. Kuhn. No tillage is not an ideal management for water erosion control in China. Science of The Total Environment, 2020, 736, 139478.
(11)Liangang Xiao*, Rongqin Zhao*, and Xiaorong Zhang. Crop cleaner production improvement potential under conservation agriculture in China: A meta-analysis. Journal of Cleaner Production, 2020, 269, 122262.
(12)Liangang Xiao*, Senqiu Zhou, Rongqin Zhao*, Philip Greenwood, Nikolaus J.Kuhn. Evaluating soil organic carbon stock changes induced by no-tillage based on fixed depth and equivalent soil mass approaches. Agriculture, Ecosystems & Environment, 2020, 300, 106982.
(13)Liangang Xiao*,Rongqin Zhao,Nikolaus J. Kuhn, Straw mulching is more important than no tillage in yield improvement on the Chinese Loess Plateau, Soil & Tillage Research, 2019, 194, 104314.
(14)Liangang Xiao, Minglei Ding, Chong Wei, Ruiming Zhu, Rongqin Zhao. The impacts of conservation agriculture on water use and crop production on the Loess Plateau: from know-what to know-why. Sustainability, 2020, 12(18),7449.
(15)Xiao, Liangang, et al. "Research Trends and Areas of Focus on Wind Erosion: A Bibliometric Analysis during 1941-2022." Polish Journal of Environmental Studies 33.3 (2024).
(16)Liangang Xiao*, Yaxian Hu, Phil Greenwood, Nikolaus Kuhn. The use of a raindrop aggregate destruction device to evaluate sediment and soil organic carbon transport, Geographica Helvetica, 2015, 70, 167-174.
(17)Liangang Xiao*, Yaxian Hu, Phil Greenwood, Nikolaus Kuhn. A combined raindrop aggregate destruction test-settling tube (RADT-ST) approach to identify the settling velocity of sediment, Hydrology, 2015, 2(4), 176-192.
(18)Zhu, R., Zhao, R.*, Sun, J., Xiao, L., Jiao, S., Chuai, X., ... & Yang, Q. Temporospatial pattern of carbon emission efficiency of China's energy-intensive industries and its policy implications. Journal of Cleaner Production, 2020,125507.
(19)Rongqin Zhao*, Ying Liu, Mengmeng Tian, Minglei Ding, Lianhai Cao, Zhanping Zhang, Xiaowei Chuai*, Liangang Xiao, Lunguang Yao, Impacts of water and land resources exploitation on agricultural carbon emissions: The water-land-energy- carbon nexus, Land Use Policy, 2018,72, 480-492.
(20)Wenjuan Yang, Rongqin Zhao, Xiaowei Chuai, Liangang Xiao, Lianhai Cao, Zhanping Zhang, Qinglin Yang & Lunguang Yao. China’s pathway to a low carbon economy. Carbon Balance and Management, 2019, 14(1), 14.
(21)Feng, M., Zhao, R., Huang, H., Xiao, L., Xie, Z., Zhang, L., ... & Chuai, X. (2022). Water–energy–carbon nexus of different land use types: The case of Zhengzhou, China. Ecological Indicators, 141, 109073.
(22)Li, R., Zhao, R., Xie, Z., Xiao, L., Chuai, X., Feng, M., ... & Luo, H. (2022). Water–energy–carbon nexus at campus scale: Case of North China University of Water Resources and Electric Power. Energy Policy, 166, 113001.
(23)Wei, C., Zhang, Z., Wang, Z., Cao, L., Wei, Y., Zhang, X., ...Xiao L., & Wu, Q. (2022). Response of Variation of Water and Sediment to Landscape Pattern in the Dapoling Watershed. Sustainability, 14(2), 678.
(24)Chong Wei, Lianhai Cao, Zhiquan Huang*, Zhihong Yao, Zhiqi Wang, Lu Zhang, Liangang Xiao, Lunguang Yao. Analyses of DEM resolution on SWAT-simulated stream flow in Qihe watershed. Desalination and Water Treatment, 2018, 125, 242-249.
(25)肖连刚*,张建明, 基于GIS宁夏引黄灌区农地土壤综合养分状况评价, 水土保持研究,2010,17(5):273~276
(26)肖连刚*,刘前进,人工降水条件下鲁中南丘陵地区产流过程研究,人民黄河,2010,32(10):111~114
(27)肖连刚,刘前进*,平邑县山区金银花地产流研究,节水灌溉,2009,165(5) :9~13
(28)魏玺,邵亚,蔡湘文,林珍铭,肖连刚,刘泽昊.漓江流域陆地生态系统碳储量时空特征与预测[J/OL].环境工程技术学报:1-13.
(29)丁明磊,杨晓娜,赵荣钦,张战平,肖连刚,谢志祥.碳中和目标下的国土空间格局优化:理论框架与实践策略[J].自然资源学报,2022,37(05):1137-1147.
(30)赵荣钦,余娇,肖连刚,孙锦,罗慧丽,杨文娟,揣小伟,焦士兴.基于“水—能—碳”关联的城市水系统碳排放研究[J].地理学报,2021,76(12):3119-3134.
(31)张慧芳,赵荣钦,肖连刚,魏义长,朱瑞明,冯梦雨,罗慧丽,李汭诗.不同灌溉模式下农业水能消耗及碳排放研究[J].灌溉排水学报,2021,40(12):119-126.
(32)杜景新,赵荣钦,肖连刚,杨青林,王帅,杨文娟,张慧芳,王天俣,李永涛,冯浩.基于“水-能”关联的河南省农业灌溉过程的碳排放研究[J].灌溉排水学报,2020,39(10):82-90.
(33)王帅,赵荣钦,杨青林,肖连刚,杨文娟,余娇,朱瑞明,揣小伟,焦士兴.碳排放约束下的农业生产效率及其空间格局——基于河南省65个村庄的调查[J].自然资源学报,2020,35(09):2092-2104.
(34)余娇,赵荣钦,肖连刚,张林静,王帅,揣小伟,韩雨承,焦士兴.基于“水—能—碳”关联的城市污水处理系统碳排放研究[J].资源科学,2020,42(06):1052-1062.
(35)樊雷,余娇,芦艳艳,王帅,赵荣钦,肖连刚,魏冲,张林静.淅川县生态系统服务对土地利用变化的敏感性分析[J].环境科学与技术,2019,42(S2):302-308.
(36)朱瑞明,赵荣钦,贾品荣,焦士兴,张战平,肖连刚,杨青林,杨文娟,满洲.基于消费主导的京津冀地区高能耗产业产能过剩分析[J].资源开发与市场,2019,35(08):1073-1079.
(37)王帅,赵荣钦,苏辉,冯德显,肖连刚,杨青林,熊涛,杨文娟.河南省典型区农业水土资源开发的碳排放效应研究[J].华北水利水电大学学报(自然科学版),2019,40(01):71-78.
(38)杨文娟,赵荣钦,张战平,肖连刚,曹连海,王帅,杨青林.河南省不同产业碳水足迹效率研究[J].自然资源学报,2019,34(01):92-103.
(39)赵荣钦,刘英,张战平,黄晶,曹连海,魏冲,肖连刚.加拿大英属哥伦比亚大学(UBC)教学模式对我国高校教学改革的启示[J].高等理科教育,2018(06):87-93.
学术兼职
《华北水利水电大学学报(自然科学版)》青年编委,Nature Sustainability等期刊审稿专家。