主要论著（*为通讯作者）：

2022年:

· Wang, Y.Q.*, Zhang, P.P., Sun, H., Jia, X.X., Zhang, C.C., Liu, S.Z., Shao, M. A., 2022. Vertical patterns and controlling factors of soil nitrogen in deep profiles on the Loess Plateau of China. Catena, 215, 106318.

· Zhou, Z.X., Wang, Y.Q.*, An, Z.S., Li, R.J., Xu, Y.T., Zhang, P.P., Yang, Y.Y., Wang, T., 2022. Deep root information “hidden in the dark”: A case study on the 21-m soil profile of Robinia pseudoacacia in the critical zone of the Chinese loess Plateau. Catena, 213, 106121.

· Zhang, P.P., Wang, Y.Q.*, Xu, L., Sun, H., Li, R.J., Zhou, J.X., 2022. Factors controlling the spatial variability of soil aggregates and associated organic carbon across a semi-humid watershed. Science of the Total Environment, 809, 151155. 

· Zhao, Y.L., Wang, Y.Q.*, Zhou, J.X., Sun, H., Jin, Z., 2022. Spatiotemporal soil water storage variation comparison between newly formed and untreated gully land sites under a land restoration project and associated implications on land management. Ecological Engineering, 180, 106670. 

· Yang, Y., Dou, Y.X., Wang, B.R., Wang, Y.Q.*, Liang, C., An, S.S.*, Soromotin, A., Kuzyakov, Y., 2022. Increasing contribution of microbial residues to soil organic carbon in grassland restoration chronosequence. Soil Biology and Biochemistry, 170, 108688.

· Yang, Y., Liu, H., Yang, X., Yao, H.J., Deng, X.Q., Wang, Y.Q.*, An, S.S.*, Kuzyakov, Y., Chang, S.X., 2022. Plant and soil elemental C:N:P ratios are linked to soil microbial diversity during grassland restoration on the Loess Plateau, China. Science of The Total Environment, 806, 150557.

· Song, Y., Wang, Y.Q.*, Jin, L., Shi, W.Y., Aryal, J., Comber, A., 2022. Quantitative contribution of the Grain for Green Program to vegetation greening and its spatiotemporal variation across the Chinese Loess Plateau. Land Degradation & Development. https://doi.org/10.1002/ldr.4269

· He, M.N., Wang, Y.Q.*, Wang, L., Jia, X.X., Zhao, C.L., Zhang, P.P., 2022. Spatial–temporal dynamics and recovery mechanisms of dried soil layers under Robinia pseudoacacia forest based on in-situ field data from 2017 to 2020. Land Degradation & Development. https://doi.org/10.1002/ldr.4327

· Liu, S.Z., Wang, Y.Q.*, Zhou, Z.X., Zhang, P.P., Zhao, Y.L., Xu, L., Qi, L. J., Sun, H., Zhou, Z. X., An, Z. S., 2022. Spatial non-stationary effects of explanatory variables on soil bulk density in the critical zone of the Chinese Loess Plateau. European Journal of Soil Science, e13247. https://doi.org/10.1111/ejss.13247

2021年:

· Zhang P.P., Wang, Y.Q.*, Xu L., Li R.J., Sun H., Zhou J.X., 2021. Factors controlling spatial variation in soil aggregate stability in a semi-humid watershed. Soil & Tillage Research, 214, 105187.

· Zhang P.P., Wang, Y.Q.*, Sun H., Qi L.J., Liu H., Wang Z., 2021. Spatial variation and distribution of soil organic carbon in an urban ecosystem from high-density sampling. Catena, 204, 105364.

· Zhao Y.L., Wang, Y.Q.*, Zhang X.C.*, 2021. Spatial and temporal variation in soil bulk density and saturated hydraulic conductivity and its influencing factors along a 500 km transect. Catena, 207, 105592.

· Liu S.Z., Wang, Y.Q.*, An Z.S., Sun H., Zhang P.P., Zhao Y.L., Zhou Z.X., Xu L., Zhou J.X., Qi L.J., 2021. Watershed spatial heterogeneity of soil saturated hydraulic conductivity as affected by landscape unit in the critical zone. Catena, 203, 105322.

· Zhang, C.C., Wang, Y.Q.*, Shao, M.A., 2021. Controlling gully-and revegetation-induced dried soil layers across a slope–gully system. Science of The Total Environment, 755, 142544. 

· Zhang, C.C., Wang, Y.Q.*, Jia, X.X., Shao, M.A., 2021. Estimates and determinants of soil organic carbon and total nitrogen stocks up to 5 m depth across a long transect on the Loess Plateau of China. Journal of Soils and Sediments, 21(2):748-765.

· Guo, X.Y., Wang, Y.Q.*, Wang, L., Sun, H., Du, H.B., Wu, Z.F., He, H.S., Zhou, W.J., 2021. Spatiotemporal Characteristics of Interday Temperature Fluctuations across the Loess Plateau of China. International Journal of Climatology, 43(3):1821-1838. 

· Yang, Y., Li, T., Wang, Y.Q.*, Cheng, H., Chang, S.X., Liang, C., An, S.S.*, 2021. Negative effects of multiple global change factors on soil microbial diversity. Soil Biology and Biochemistry, 156, 108229.

· Yang, Y., Li, T., Wang, Y.Q.*, Dou, Y.X., Cheng, H., Liu, L.X., An, S.S., 2021. Linkage between soil ectoenzyme stoichiometry ratios and microbial diversity following the conversion of cropland into grassland. Agriculture, Ecosystems & Environment, 314, 107418.

· 徐澜, 王云强*, 孙慧, 贺美娜, 童永平, 张萍萍, 2021. 黄土高原水蚀风蚀交错带小流域土壤水分季节变化特征与主控因素[J]. 水土保持学报, 35(05):122-129.

2020年:

· Wang, Y.Q.*, Shao, M.A., Sun, H., Fu, Z.H., Fan, J., Hu, W., Fang, L.C., 2020. Response of deep soil drought to precipitation, land use and topography across a semiarid watershed. Agricultural and Forest Meteorology, 282-283, 107866. 

· Zhao, Y.L., Wang, Y.Q.*, Zhang, X.C., Wang, L., Hu, W., Wang, T., 2020. Specific-scale correlations between soil water content and relevant climate forcing factors across two climate zones. Journal of Hydrology, 585, 124800. 

· Zhang, C.C., Wang, Y.Q.*, Jia, X.X., Shao, M.A., An, Z.S., 2020. Variations in capacity and storage of plant-available water in deep profiles along a revegetation and precipitation gradient. Journal of Hydrology, 581, 124401.

· Sun, H., Wang, Y.Q.*, Zhao, Y.L., Zhang, P.P., Song, Y., He, M.N., Zhang, C.C., Tong, Y.P., Zhou, J.X., Qi, L.J., Xu, L., 2020. Assessing the value of electrical resistivity derived soil water content: Insights from a case study in the Critical Zone of the Chinese Loess Plateau. Journal of Hydrology, 589, 125132. 

· Zhao, Y.L., Wang, Y.Q.*, He, M.N., Tong, Y.P., Zhou, J.X., Guo, X.Y., Liu, J.Z., Zhang, X.C., 2020. Transference of Robinia pseudoacacia water-use patterns from deep to shallow soil layers during the transition period between the dry and rainy seasons in a water-limited region. Forest Ecology and Management, 457, 117727. 

· Tong, Y.P., Wang, Y.Q.*, Song, Y., Sun, H., Xu, Y.T., 2020. Spatiotemporal variations in deep soil moisture and its response to land-use shifts in the Wind–Water Erosion Crisscross Region in the Critical Zone of the Loess Plateau (2011–2015), China. Catena, 193, 104643. 

· He, M.N., Wang, Y.Q.*, Wang L.*, Li R.J., 2020. Spatio- temporal variability of multi-layer soil water at a hillslope scale in the critical zone of the Chinese Loess Plateau. Hydrological Processes, 34(23), 4473-4486.

· Zhang, C.C., Wang, Y.Q.*, Jia, X.X., Shao, M.A., An, Z.S., 2020. Impacts of shrub introduction on soil properties and implications for dryland revegetation. Science of The Total Environment, 742, 140498. 

· He, M.N., Wang, Y.Q.*, Tong, Y.P., Zhao, Y.L., Qiang, X.K., Song, Y.G., Wang, L., Song, Y., Wang, G.D., He, C.X., 2020. Evaluation of the environmental effects of intensive land consolidation: A field-based case study of the Chinese Loess Plateau. Land Use Policy, 94, 104523. 

· Zhang, P.P., Zhang, Y.L., Jia, J.C., Cui, Y.X., Wang, X., Zhang, X.C., Wang, Y.Q.*, 2020. Revegetation pattern affecting accumulation of organic carbon and total nitrogen in reclaimed mine soils. PeerJ, 8, e8563.

· Zhang, P.P., Wang, Y.Q.*, Zhang, X.C., 2020. Effects of the sampling spacing on the spatial variability in soil organic carbon, total nitrogen, and total phosphorus across a semiarid watershed. Archives of Agronomy and Soil Science, 67(10), 1359-1374.

· 赵亚丽，王云强*，张兴昌, 2020. 黄土高原生态工程区土壤容重及饱和导水率的分布特征. 农业工程学报，36(10), 83-89.

2019年:

· Wang, Y.Q.*, Sun, H., Zhao, Y.L., 2019. Characterizing spatial-temporal patterns and abrupt changes in deep soil moisture across an intensively managed watershed. Geoderma, 341, 181-194.

· Zhao, Y. L., Wang, Y.Q.*, Sun, H., Lin, H., Jin, Z., He, M.N., Yu, Y. L., Zhou, W. J., and An, Z. S., 2019, Intensive land restoration profoundly alters the spatial and seasonal patterns of deep soil water storage at watershed scales. Agriculture, Ecosystems & Environment, 280, 129-141. 

· Zhao, Y.L., Wang, Y.Q.*, Wang, L., Zhang, X.Y., Yu, Y.L., Jin, Z., Lin, H., Chen, Y.P., Zhou, W.J., An, Z.S., 2019. Exploring the role of land restoration in the spatial patterns of deep soil water at watershed scales. Catena, 172, 387–396. 

· Wang, B.W., Wang, Y.Q.*, 2019. Relationships between the characteristics of soil and understory in a Pinus massoniana forest in southern China. Catena, 176, 352-361. 

2018年:

· Wang, Y.Q.*, Shao, M.A., Zhu, Y.J., Sun, H., Fang, L.C., 2018. A new index to quantify dried soil layers in water-limited ecosystems: A case study on the Chinese Loess Plateau. Geoderma 322, 1-11. 

· Zhao, Y.L., Wang, Y.Q.*, Zhang, X.C., Wang, L., 2018. Exploring scale-specific controls on soil water content across a 500-km transect using multivariate empirical mode decomposition. Vadose Zone Journal, 17, 180097.

· Fu, Z.H., Wang, Y.Q.*, An, Z.S., Hu, W., Mostofa, K., Li, X.Z., Liu, B.X., 2018. Spatial and temporal variability of 0- to 5-m soil-water storage at the watershed scale. Hydrological Processes, 32(16), 2557-2569.

2017年之前:

· Zhao, Y.L., Wang, Y.Q.*, Wang, L.*, Fu, Z.H., Zhang, X.Y., Cui, B.L., 2017. Soil-water storage to a depth of 5m along a 500-km transect on the Chinese Loess Plateau. Catena, 150, 71-78. 

· Wang, Y.Q. *, Han, X.W., Jin, Z., Zhang, C.C., Fang, L.C., 2016. Soil organic carbon stocks in deep soils at a watershed scale on the Chinese Loess Plateau. Soil Science Society of America Journal, 80, 157-167.

· Wang, Y.Q., Hu W., Zhu Y.J., Shao, M.A.*, Xiao, S., Zhang, C.C., 2015. Vertical distribution and temporal stability of soil water in 21-m profiles under different land uses on the Loess Plateau in China. Journal of Hydrology, 527, 543-554.

· Wang, Y.Q., Shao, M.A.*, Zhang, C.C., Han, X.W., Mao, T.X., Jia, X.X., 2015. Choosing an optimal land-use pattern for restoring eco-environments in a semiarid region of the Chinese Loess Plateau. Ecological Engineering, 74, 213-222.

· Wang, Y.Q., Shao, M.A.*, Liu, Z.P., Zhang, C.C., 2015. Characteristics of dried soil layers under different ages of apple trees and its applications in deep soil water managements on the Loess Tableland of China. Pedosphere, 25(4), 546-554.

· Wang, Y.Q., Shao, M.A.*, Zhang, C.C., Liu, Z.P., Zou, J.L., Xiao, J., 2015. Soil organic carbon in deep profiles under Chinese continental monsoon climate and its relations with land uses. Ecological Engineering, 82, 361-367.

· Wang, Y.Q., Shao, M.A.*, Han, X.W., Liu, Z.P., 2015. Spatial variability of soil parameters of the van Genuchten model at a regional scale. Clean-Soil Air Water, 43(2), 271-278.

· Wang, Y.Q., Shao, M.A.*, Liu, Z.P., Zhang, C.C., 2014. Prediction of Bulk Density of Soils in the Loess Plateau Region of China. Surveys in Geophysics, 35(2), 395-413.

· Wang, Y.Q., Shao, M.A.*, Liu, Z.P., Horton, R., 2013. Regional-scale variation and distribution patterns of soil saturated hydraulic conductivities in surface and subsurface layers in the loessial soils of China. Journal of Hydrology, 487, 13-23.

· Wang, Y.Q., Shao, M.A.*, Liu, Z.P., 2013. Vertical distribution and influencing factors of soil water content within 21-m profile on the Chinese Loess Plateau. Geoderma, 193-194, 300-310.

· Wang, Y.Q.,Shao, M.A.*, Liu, Z.P., Warrington, D.N., 2012. Investigation of factors controlling the regional scale distribution of dried soil layers under forestland on the Loess Plateau, China. Surveys in Geophysics, 33, 311-330.

· Wang, Y.Q., Shao, M.A.*, Liu, Z.P., Warrington, D.N., 2012. Regional spatial pattern of deep soil water content and its influencing factors. Hydrological Science Journal, 57, 265-281.

· Wang, Y.Q., Shao, M.A.*, Liu, Z.P., 2012. Pedotransfer functions for predicting soil hydraulic properties of the Chinese Loess Plateau. Soil Science, 177(7), 424-432.

· Wang, Y.Q., Shao, M.A.*, Zhu, Y.J., Liu, Z.P, 2011. Impacts of land use and plant characteristics on dried soil layers in different climatic regions on the Loess Plateau of China, Agricultural and Forest Meteorology, 151(4), 437-448.

· Wang, Y.Q., Shao, M.A.*, Liu, Z.P., 2010. Large scale spatial variability of dried soil layers and related factors across the entire Loess Plateau of China. Geoderma, 159(1-2), 99-108.

· Wang, Y.Q., Shao, M.A.*, Shao, H.B., 2010. Apreliminary investigation of the dynamic characteristics of dried soil layers on the Loess Plateau of China. Journal of Hydrology, 381(1-2), 9-17.

· Wang, Y.Q., Shao, M.A.*, 2009. Infiltration characteristics of non-aqueous phase liquids in undisturbed loessal soil cores. Journal of Environmental Sciences, 21(10), 1424-1431. 

· Wang, Y.Q., Zhang, X.C.*, Zhang, J.L., Li, S. J., 2009. Spatial variability of soil organic carbon in a watershed on the Loess Plateau. Pedosphere, 19(4), 486-495.

· Wang, Y.Q.*, Zhang, X.C.*, Huang, C.Q., 2009. Spatial variability of soil total nitrogen and soil total phosphorus under different land uses in a small watershed on the Loess Plateau, China. Geoderma, 150(1-2), 141-149. 

· 贺美娜, 童永平, 王云强*, 卢玉东, 赵亚丽, 2017. 黄土区坡面尺度微地形和次降雨对5 m土壤水分影响的典型个例分析[J]. 地球环境学报, 8(4), 357-366.

· 童永平, 贺美娜, 孙慧, 赵亚丽, 宋怡, 苏李君, 单于洋, 卢玉东, 王云强*, 2017. 黄土关键带深层土壤水分动态模拟与主控因素. 第四纪研究, 37(6), 1182-1192.

· 王云强*，邵明安，胡伟，Henry Lin，黄辉, 2016. 黄土高原关键带土壤水分空间分异特征. 地球与环境 , 44(4), 391-397.

· 傅子洹，王云强*，安芷生. 2015. 黄土区小流域土壤容重和饱和导水率的时空动态特征.农业工程学报，31(13), 128-134.

· 傅子洹，王云强*，安芷生. 2015.黄土高原水蚀风蚀交错带不同植被类型下土壤水分动态特征. 地球环境学报，6(3), 188-194.

· 王云强，邵明安*，刘志鹏, 2012. 黄土高原区域尺度土壤水分空间变异性. 水科学进展，23(3), 310-316. 

· 王云强，张兴昌*，朱元骏，曾辰, 2011. 次降雨后不同时段坡地表层土壤水分和容重的空间变异特征. 水土保持学报，25(5), 242-246.

· 王云强, 张兴昌*, 韩凤朋, 2008. 黄土高原淤地坝土壤性质剖面变化规律及其功能探讨. 环境科学, 29(4), 1020-102.

· 王云强, 张兴昌*, 2008. 黄土区小尺度坡面土壤含水率时空变异性研究. 水土保持学报，22(2), 32-37.

· 王云强, 张兴昌*, 李顺姬, 张景利, 2007. 小流域土壤矿质氮与地形因子的关系及其空间变异性研究. 环境科学，28(7), 1567-1572.

· 王云强, 张兴昌*, 从伟, 魏清才, 2006. 黄土区不同土地利用方式坡面土壤含水率的空间变异性研究. 农业工程学报，22(12), 65- 71.