张中彬

张中彬，男，硕士生导师，入选“青年英才”。主要从事土壤结构的定量方法、演变机制与功能调控等方面的研究工作。累积发表论文80余篇，其中第一或通讯作者发表论文25篇，参与撰写专著3部，授权专利6项，获中国土壤学会科技奖一等奖1项。目前担任中国农科院耕地退化阻控与地力提升团队青年首席、Soil Till Res期刊编委、中国土壤学会土壤物理专业委员会委员。主持国家自然科学基金委青年项目、面上项目，国家重点研发计划课题、子课题和青年项目任务，中国农科院基础科学中心项目，作为骨干参与国家基金委区域发展联合基金项目、重点项目以及国际（地区）合作交流项目等。

【教育经历 】

2008/09-2013/06，中国科学院南京土壤研究所，土壤学，博士

2004/09-2008/06，海南大学，农业资源与环境，学士

【工作履历】

2024年9月至今，中国农业科学农业资源与农业区划研究所，研究员

2019年4月-2024年9月， 中国科学院南京土壤研究所，副研究员

2014年6月-2019年4月， 中国科学院南京土壤研究所，助理研究员

2013年9月-2014年4月， 美国宾夕法尼亚州立大学，水文土壤学，访问学者

【承担项目】

1.  中国农科院基础科学中心任务，生物耕作消减黑土压实板结的作用机制，2025-1至2029-12，主持。

2.  国家自然科学基金区域创新发展联合基金，退化黑土的恢复机制与关键途径：以黑龙江省为例，2024-01至2027-12，骨干。

3.  科技部国家重点研发计划课题, 白浆层障碍特征及白浆土改土增产机理研究，2022-11至2027-10，主持。

4.  国家自然科学基金重点项目，砂姜黑土结构的演变规律及其对作物根系生长的物理机制，2020-01至2024-12，骨干。

【代表论文与著作】

1.  Qian, Y., Zhang, Z.*, Jiang, F., Wang, J., Dong, F., Liu, J., Peng, X.*, 2025. Impacts of tillage treatments on soil physical properties and maize growth at two sites under different climatic conditions in black soil region of Northeast China. Soil and Tillage Research 248, 106471.

2.  Ruan, R., Zhang, Z.*, Lan, T., Wang, Y., Li, W., Chen, H., Peng, X., 2025. The role of soil pore structure on nitrate release from soil organic matter and applied fertilizer under three fertilization regimes. Soil and Tillage Research 248, 106396.

3. Wang, Y., Zhang, Z.*, Guo, Z., Zhang, Y., Zhang, P., Xiao, X., Li, F., Peng, X.*, 2024. Soil physical stresses beyond the dynamic least limiting water range determine crop yields in wheat-maize system in a Vertisol. Field Crops Research 312, 109396.

4.  Wang, Y., Zhang, Z.*, Guo, Z., Chen, Y., Yang, J., Peng, X.*, 2023. In-situ measuring and predicting dynamics of soil bulk density in a non-rigid soil as affected by tillage practices: Effects of soil subsidence and shrinkage. Soil and Tillage Research 234, 105818.

5. Xiong, P., Zhang, Z.*, Peng, X., 2022. Root and root-derived biopore interactions in soils: A review. Journal of Plant Nutrition and Soil Science 185, 643-655.

6. Zhang, Z., Yan, L., Wang, Y., Ruan, R., Xiong, P., Peng, X.*, 2022. Bio-tillage improves soil physical properties and maize growth in a compacted Vertisol by cover crops. Soil Science Society of America Journal 86, 324-337.

7. Wang, Y., Zhang, Z.*, Guo, Z., Xiong, P., Peng, X., 2022. The dynamic changes of soil air-filled porosity associated with soil shrinkage in a Vertisol. European Journal of Soil Science 73, e13313.

8. Xiong, P., Zhang, Z.*, Guo, Z., Peng, X.*, 2022. Macropores in a compacted soil impact maize growth at the seedling stage: Effects of pore diameter and density. Soil and Tillage Research 220, 105370.

9. Ruan, R., Zhang, Z.*, Wang, Y., Guo, Z., Zhou, H., Tu, R., Hua, K., Wang, D., Peng, X., 2022. Long-term straw rather than manure additions improved least limiting water range in a Vertisol. Agricultural Water Management 261, 107356.

10. Xiong, P., Zhang, Z.*, Wang, Y., Peng, X., 2022. Variable responses of maize roots at the seedling stage to artificial biopores in noncompacted and compacted soil. Journal of Soils and Sediments 22, 1155-1164.

11. Zhang, Z., Peng, X.*, 2021. Bio-tillage: A new perspective for sustainable agriculture. Soil and Tillage Research 206, 104844.

12. Ruan, R., Zhang, Z.*, Tu, R., Wang, Y., Xiong, P., Li, W., Chen, H., 2021. Variable responses of soil pore structure to organic and inorganic fertilization in a Vertisol. International Agrophysics 35, 221-225.

13. Xiong, P., Zhang, Z.*, Hallett, P.D., Peng, X., 2020. Variable responses of maize root architecture in elite cultivars due to soil compaction and moisture. Plant and Soil 455, 79-91.

14. Zhang, Z., Liu, K., Zhou, H., Lin, H., Li, D., Peng, X.*, 2019. Linking saturated hydraulic conductivity and air permeability to the characteristics of biopores derived from X-ray computed tomography. Journal of Hydrology 571, 1-10.

15. Zhang, Z., Liu, K., Zhou, H., Lin, H., Li, D., Peng, X.*, 2018. Three dimensional characteristics of biopores and non-biopores in the subsoil respond differently to land use and fertilization. Plant and Soil 428, 453-467.

16. Zhang, Z., Lin, L., Wang, Y., Peng, X.*, 2016. Temporal change in soil macropores measured using tension infiltrometer under different land uses and slope positions in subtropical China. Journal of Soils and Sediments 16, 854-863.

17. Zhang, Z., Zhou, H., Lin, H., Peng, X.*, 2016. Puddling intensity, sesquioxides, and soil organic carbon impacts on crack patterns of two paddy soils. Geoderma 262, 155-164.

18. Zhang, Z., Peng, X.*, Zhou, H., Lin, H., Sun, H., 2015. Characterizing preferential flow in cracked paddy soils using computed tomography and breakthrough curve. Soil and Tillage Research 146, 53-65.

19. Zhang, Z.., Zhou, H., Zhao, Q.G., Lin, H., Peng, X.*, 2014. Characteristics of cracks in two paddy soils and their impacts on preferential flow. Geoderma 228–229, 114-121.

20. Zhang, Z., Peng, X.*, Wang, L., Zhao, Q., Lin, H., 2013. Temporal changes in shrinkage behavior of two paddy soils under alternative flooding and drying cycles and its consequence on percolation. Geoderma 192, 12-20.

【专利和标准】

1. 丁天宇、郭自春、彭新华、钱泳其、张中彬、刘帅，2024，一种CT技术结合机器学习原位定量土壤颗粒有机质的方法，ZL 2023 1 1203105.2

2. 刘帅、彭新华、高磊、张中彬、郭自春，2023，一种干湿交替作用下土壤呼吸气体采集装置，ZL 2022 2 22445995.0

3. 徐静怡、张中彬、孙海军，2022，一种便于收集植物根系分泌物的提取装置，ZL 2022 2 140733. 4

4. 蒋发辉、彭新华、张中彬、李留年、程爱国、李留明、胡爱敏、刘彩霞，2021，上旋下松定位施肥整地机具，ZL 2021 2 0107073.6

5. 蒋发辉、彭新华、张中彬，2020，一种旋松一体耕作机具，ZL 2020 2 2774092.2

6. 张中彬、周虎、彭新华、王凤军，2018，一种有机肥深施机具，ZL 2018 2 2039884.8

【联系方式】

（1）研究方向：

土壤结构演变规律及其与水气传输和作物根系生长的关系，覆盖作物生物耕作的原理与技术

（2）邮箱：zhangzhonbin@caas.cn

（3）通讯地址：北京市海淀区中关村南大街12号 农科院资划所