[1]      Cao, J.S., Zhou X., Zhang, W.J., Liu, C.M., Liu, Z.J. Effects of mulching on soil temperature and moisture in the rain-fed farmland of summer corn in the Taihang Mountain of China [J]. Journal of Food, Agriculture & Environment, 2012, 10(1), 519-523.

[2]      Cao, J.S., Liu, C.M., Zhang, W.J. Effect of integrating straw in to agricultural soils on soil infiltration and evaporation [J]. Water Science and Technology, 2012, 65(12), 2213-2218.

[3]      Cao, J.S., Liu, C.M., Zhang, W.J., Han, S.M. Using temperature effect on seepage variations as proxy for phenological processes of basin-scale vegetation communities [J]. Hydrological Processes, 2013, 27: 360-366.

[4]      Cao, J.S., Liu, C.M., Zhang, W.J. Response of rock-fissure seepage to snowmelt in Mount Taihang slope-catchment, North China [J]. Water Science and Technology, 2013, 67(1), 124-130.

[5]      Cao, J.S., Zhang, W.J., Qi, Y.Q. An automatic slope runoff sediment and flow monitoring system [J]. Applied Engineering in Agriculture, 2014, 30(1), 5-9.

[6]      Shen, H.T., Cao, J.S.*, Zhang, W.J., Zeng, X.H., Wang, H.R. Winter Soil CO₂ Flux from Different Mid-Latitude Sites from Middle Taihang Mountain in North China [J]. PLOS ONE, 2014, 9(3), e91589.

[7]       Shen, H.T., Zhang, W.J., Cao, J.S.*, Zhang, X., Xu, Q.H., Yang, X., Xiao, D.P., Zhao, Y.X.Carbon concentrations of components of trees in 10-year-old Populus avidiana stands within the Desertification Combating Program of Northern China [J]. Frontiers of Earth Science, 2016, 10, 662-668.

[8]      Xiao, D.P.*, Cao, J.S.*, Bai, H.Z., Qi, Y.Q., Shen, Y.J. Assessing the impacts of climate variables and sowing date on spring wheat yield in the northern China [J]. International Journal of Agriculture and Biology, 2017, 19(6), 1551-1558.

[9]      Han, S.M., Yang, Y.H.*, Li, H.L., Yang, Y.M., Wang, J.S., Cao, J.S.* Determination of crop water use and coefficient in drip-irrigated cotton fields in arid regions [J]. Field Crops Research, 2019, 236, 85-95.

[10] Xiao, D.P., Zhao, Y.X., Bai, H.Z., Hu, Y.K., Cao, J.S.* Impacts of climate warming and crop management on maize phenology in northern China [J]. Journal of Arid Land, 2019, 11(6), 892-903.

[11] Yang, H., Cao, J.S.*, Hou, X.L.* Characteristics of aeolian dune, wind regime and sand transport in Hobq Desert, China [J]. Applied Science, 2019, 9(24), 5543.

[12] Wang, Z.Y., Cao, J.S.*, Zhu, C.Y.*, Yang, H. The impact of land use change on ecosystem service value in the upstream of Xiong‘an New Area [J]. Sustainability, 2020, 12(14), 5707.

[13] Zhu,W.R., Li,W.H.; Shi, P.L.*, Cao, J.S.*, Zong, N., Geng, S.B. Intensified interspecific competition for water after afforestation with Robinia pseudoacacia into a native shrubland in the Taihang Mountains, northern China [J]. Sustainability, 2021, 13, 807.

[14] Wang, Z.Y., Cao, J.S.* Assessing and predicting the impact of multi-scenario land use changes on the ecosystem service value: A Case Study in the Upstream of Xiong’an New Area, China [J]. Sustainability, 2021, 13, 704.

[15] Wang, Z.Y., Cao, J.S.*, Yang, H. Multi-time scale evaluation of forest water conservation unction in the semiarid mountains area [J]. Forests, 2021, 12, 116.

[16] Liu, X.P., Zhang, W.J., Cao, J.S., Shen, H.T., Zeng, X.H., Yu, Z.Q., Zhao, X. Carbon storages in plantation ecosystems in sand source areas of north Beijing, China [J]. Plos One, 2013, 8(12), e82208.

[17] Zeng, X.H., Zhang, W.J., Shen, H.T., Cao, J.S., Zhao, X. Soil respiration response in different vegetation types at Mount Taihang, China [J]. Catena, 2014, 116, 78-85.

[18] Zeng, X.H., Zhang, W.J., Cao, J.S., Liu, X.P., Shen, H.T., Zhao, X. Changes in soil organic carbon, nitrogen, phosphorus, and bulk density after afforestation of the “Beijing–Tianjin Sandstorm Source Control”program in China [J]. Catena, 2014, 118, 186-194.

[19] Zeng, X.H., Zhang, W.J., Liu, X.P., Cao, J.S., Shen, H.T., Zhao, X. Zhang, N.N., Bai, Y.R., Yi, M. Change of Soil Organic Carbon after Cropland Afforestation ‘Beijing-Tianjin Sandstorm Source Control’ Proram Area in China [J]. Chinese Geographical Science, 2014, 24(4), 461-470.

[20] Shen, H.T., Zhang, W.J., Yang, X., Cao, J.S., Zeng, X.H., Zhao, X., Chen, X.X., Zhang, W.X., Carbon storage capacity of different plantation types under Desertification Combating Program in Hebei Province, China [J]. Chinese Geographical Science, 2014, 24(4), 454-460.

[21] Wang, X.X., Shen, H.T., Zhang, W.J., Cao, J.S., Qi, Y.Q., Chen, G.P., Li, X.Y. Spatial and temporal characteristics of droughts in the Northeast China Transect [J]. Nature Hazards, 2015, 76, 601-614.

[22] Bohara, M., Yadav, R.K.P., Dong, W.X., Cao, J.S., Hu, C.S. Nutrient and isotopic dynamics of litter decomposition from different land uses in naturally restoring Taihang Mountain, North China [J]. Sustainability, 2019, 11, 1752.

[23] Zheng, W.B., Wang, S.Q., Sprenger, M., Liu, B.X., Cao, J.S. Response of soil water movement and groundwater recharge to extreme precipitation in a headwater catchment in the North China Plain [J]. Journal of Hydrology, 2019, 576, 466-477.

[24] 曹建生, 刘昌明, 张万军. 太行山片麻岩区坡地水文地质特性与渗流集蓄技术研究[J].水科学进展, 2005, 16(2): 216-221.

[25] 曹建生, 刘昌明, 张万军, 杨永辉. 典型小流域裂隙岩体渗流补给特性试验研究[J].水利学报, 2005, 36(11): 1335-1340.

[26] 曹建生, 张万军, 刘昌明, 杨永辉. 石子和秸秆覆盖条件下降雨水量转化特征试验研究 [J].水利学报, 2007, 38(3): 378-382.

[27] 曹建生, 张万军, 刘昌明, 韩淑敏. 太行山区坡地暂时饱和区形成机理及渗流补给特性 [J]. 农业工程学报, 2007, 23(5): 14-20.

[28] 曹建生, 张万军, 刘昌明, 杨永辉. 裂隙岩体渗流补给特性及边坡稳定对策研究 [J]. 北京林业大学学报,2007,29(4): 136-142.

[29] 曹建生, 张万军, 刘昌明, 杨永辉. 岩土二元介质坡地非饱和渗流特征试验研究[J]. 农业工程学报, 2007, 23(8): 9-15.

[30] 曹建生, 张万军, 刘昌明, 杨永辉. 岩土二元介质水分运动与转化特征试验研究.水利学报,2007,38(8): 901-906.

[31] 曹建生, 张万军. 小流域径流泥沙自动采集器的实验研究[J]. 农业工程学报, 2009, 25(1): 45-49.

[32] 曹建生, 董文旭, 李晓欣, 陈素英, 胡春胜. 肯尼亚雨水集流利用现状及思考. 中国生态农业学报, 2016, 24(7): 987-994

[33] 曹建生, 张万军, 阳 辉, 郝小华, 刘秀萍, 王贺辉. 北方土石山区生态修复与水源涵养研究进展与展望[J]. 中国生态农业学报, 2018, 26(10):1091-1099.

[34] 司梦可,曹建生^*,阳辉.微地形变化对地表水文过程影响的研究进展[J]. 中国生态农业学报, 2019, 27(10): 1587-1595.

[35] 王志印,曹建生^*.中国北方土石山区植被恢复及其生态效应研究进展[J]. 中国生态农业学报, 2019, 27(9): 1319-1331.

[36] 阳辉,曹建生^*,张万军.山地生态水文过程与降水资源调控研究进展[J].生态科学, 2019,38(6):173-177.

[37] 司梦可, 曹建生^*, 阳辉, 朱春雨. 太行山区不同植被条件下土壤水分动态变化特征研究[J]. 中国生态农业学报(中英文),2020, 28(11): 1766-1777.

发明专利：

[1]      曹建生，胡春胜，郝小华，刘秀萍，王贺辉. ZL201610840747.7，一种宽行距分根交替灌溉自动控制方法，发明，2020.

[2]      曹建生，郝小华，王贺辉，刘秀萍. ZL201711405813.9，一种生态化现场循环种养体系的构建方法，发明，2020.

[3]      肖登攀，曹建生，王贺辉，ZL201711404610.8，在石材匮乏的风化石质坡地构建生态环保台阶的方法，发明，2020.

[4]      曹建生，齐永青，沈会涛，刘毅. ZL201610867472.6，一种消除降雨影响的水面蒸发自动测定装置，发明，2019.

[5]      曹建生，沈彦俊，齐永青，王贺辉. ZL201610442103.2，一种温室大棚集雨节灌自动控制系统及方法，发明，2019.

[6]      曹建生，刘小京，孙宏勇，巨兆强，刘毅. ZL201610867030.1，一种潜水蒸发自动测定系统及方法，发明， 2019.

[7]      曹建生，刘小京，孙宏勇，巨兆强，邵立威. ZL201610443908.9，一种亏缺灌溉自动控制系统及方法，发明，2019.

[8]      曹建生，沈会涛，胡春胜，陈素英，李晓欣，董文旭. ZL201610840846.5，一种农田雨水集蓄、排水及节灌系统，发明， 2019.

[9]      曹建生，沈会涛，齐永青，郝小华，刘秀萍，王贺辉. ZL2016 10442605.5，一种石质山地客土扩蓄造林方法，发明，2018.

[10] 曹建生，张万军. ZL200810055031.1，一种土壤生物扩蓄增容剂及制备方法，发明，2011.

[11] 曹建生，张万军. ZL200910075767.x，一种水位升/降单项运动的自动测定方法及装置，发明，2011.

[12] 曹建生，张万军. ZL200810055033.0，一种土壤有机团粒扩蓄增容剂及制备方法，发明，2009.

[13] 曹建生，张万军. ZL200510048167.6， 一种坡面径流采集方法，发明，2009.

[14] 曹建生，张万军. ZL200510048184.X，小流域暴雨径流自动采集系统，发明， 2009.

[15] 曹建生，张万军. ZL200410012474.4，岩土饱和入渗自动测定系统，发明，2006.

[16] 冯雪赞，张万军，曹建生. ZL200810055030.7，一种促进沙地植物种子发芽的方法，发明，2010.

[17] 冯学赞，张万军，曹建生. ZL03143265.4，地衣快速人工繁殖方法，发明，2005.

[18] 冯学赞，张万军，安淑萍，曹建生. ZL03143266.2，地衣人工繁殖生长调理剂，发明，2005.