王可纯

　　 　　

基本信息：

王可纯，女，博士，讲师。

教育经历：

2020.09-2024.12，河海大学，农业水土工程，工学博士

2023.01-2024.01，根特大学，土壤肥力与养分管理，联合培养博士

2017.09-2020.06，河海大学，农业水土工程，工学硕士

2013.09-2017.06，河海大学，农田水利，工学学士

工作经历：

2024.12-至今：西北农林科技大学，水利与建筑工程学院，讲师

研究方向：

[1] 农业水资源管理与农田固碳减排

[2] 农田温室气体排放及碳氮足迹分析

讲授课程：

本科生：测量学

科研项目：

1)榆林市2025年科技计划项目，秸秆水热碳化资源化利用与盐渍土碳汇提升关键技术研究，主持；

2)西北农林科技大学博士科研启动基金项目，微咸水滴灌与铁改性水热炭耦合下微生物碳泵介导的盐渍土碳固存机制研究，主持；

3)国家重点研发计划子课题，基于田间地下水位调控的水稻节水灌溉技术研究，参与。

4)国家自然科学基金面上项目，土壤积盐与脱盐过程中N2O排放及其对水盐动态的响应机制，参与。

5)国家自然科学基金青年项目，微润灌溉水肥管理对土壤N2O排放的影响，参与。

学术成果：

在《Agricultural Water Management》、《Biosystems Engineering》等期刊发表论文27篇；申请国家发明专利9项，其中授权6项（本人第一发明人2项），授权实用新型专利2项。

1.期刊论文

1)Wang, K.C., Xu, J.Z., Chen, P., Fan. J.L., Li, C., Sleute, S., Hydrochar amendment under controlled irrigation promotes microbial growth–oriented carbon allocation in paddy soils. Plant and Soil(2026)

2)Wang, K., Xu, J., Zhu, L., Qian, Y., Zhang, J., Chen, P., Liao, L. and Fan, J. Recycling Agricultural Residues as Straw and Hydrochar for Improved Soil Carbon Management Under Contrasting Irrigation Conditions. Agronomy. 2025, 15 (12), 2686. (SCI, Q2, IF 3.4).

3)Wang, K.C., Xu, J.Z*., Chen, P., Liao, L.X., Fan, J.L., Wang, H., Sleutel, S., Balancing energy inputs and carbon outcomes in hydrochar applications: Temperature-Dependent effects on soil carbon sequestration. Biomass and Bioenergy. 2026, 204, 108382. (SCI, Q2, IF 5.8).

4)Wang, K.C., Chen, P., Min, Z.H., Chen, S.H., Zhou, Z.Q., Toward climate-smart irrigation: evaluating the sustainability of negative pressure systems through carbon-nitrogen footprint and cost-benefit analysis. Carbon Footprints. 2025,4, 22.

5)Wang, K.C., Xu, J.Z*., Guo, H., Min, Z.H., Wei, Q., Chen, P., Sleutel, S.,. Reuse of straw in the form of hydrochar: Balancing the carbon budget and rice production under different irrigation management. Waste Management. 2024, 189, 77-87. (SCI, Q2 Top, IF 7.1).

6)Wang, K.C., Xu, J.Z., Wei, Q*., Chen, P., Min, Z.H., Wang, H.Y., The potential for mitigating greenhouse gas emissions and minimizing yield losses using the negative pressure irrigation system. Scientia Horticulturae. 2023, 324, 112621. (SCI, Q2 Top, IF 3.9).

7)Wang, K.C., Wei, Q., Xu, J.Z*., Cheng, H., Chen, P., Guo, H., Liao, L.X., Zhao, X.M., Min, Z.H., 2022. Matching water requirements of Chinese chives planted at different distances apart from the line emitter under negative pressure irrigation subsurface system. Agricultural Water Management. 274(1), 107928. (SCI, Q1 Top, IF 5.9).

8)Wang, K.C., Wang, H.Y., Xu, J.Z*., Wei, Q., Gu, Z., Chen, P., Luan, Y.J., Lv, Y.P., 2021. An automatic control device for negative pressure irrigation for continuous low-rate water supply at constant soil wetting. Biosystems Engineering. 213, 175-181. (SCI, Q1 Top, IF 4.4).

9)Wang, K.C., Xu, J.Z*., Li, Y.W., Wang, H.Y., Wei, Q., Liao, L.X., Liu, X.Y., 2020. Response of Soil Respiration and Microbial Biomass to Soil Salinity under Different Water Content in the Coastal Areas of Eastern China. Eurasian Soil Science. 53 (1), 82-89. (SCI, Q4, IF 1.4).

10)Lai, Z.L., Liao, Z.Q., Kou, H.T., Liu, Y.Y., Li, Z.j., Wang, K. C, Araus, J. L, Zhang, F.C, Fan, J. L. Water-nitrogen interactions modulate photosynthetic capacity and grain yield in maize through hydraulic conductance and anatomical traits. Field Crops Research. 2026. 343, 110514.

11)Zhenlin Lai, Zhenqi Liao, Hongtai Kou, Yiyao Liu, Qingqing Sui, José Luis Araus, Zhijun Li, Kechun Wang, Junliang Fan. From acquisition to conservation: Whole-plant trait coordination under water-nitrogen interactions determines maize yield and water productivity. European Journal of Agronomy. 2026.127,128114.

12)Zhenlin Lai; Hongtai Kou; Zhenqi Liao; Lei Wen; Yiyao Liu; José Luis Araus; Muhammad Farooq; Kechun Wang; Fucang Zhang; Fan Junliang. Water–nitrogen synergy shapes maize yield through leaf antioxidant defense, grain carbon–nitrogen metabolism, and hormonal regulation. Plant Physiology. 2026.

13)Zhentao Bai, Bingxue Dong, Xinwei Deng, Zhijun Li, Kechun Wang, Shawn Carlisle Kefauver, José Luis Araus, Muhammad Farooq, Junliang Fan, Feihu Yin. 2026. Responses of soil moisture, leaf physiological characteristics, and canopy radiation interception to irrigation amount during the drought-rewatering process of drip-irrigated cotton under film mulch.Field Crops Research. 339: 110363. (SCI, Q1 Top, IF 6.4).

14)Zhenlin Lai; Zhenqi Liao; Hao Kong; Yiyao Liu; Hongtai Kou; Kechun Wang; Zhijun Li; Junliang Fan. 2026. Optimized planting density and nitrogen improve grain yield and water productivity in drip-fertigated maize through improved canopy function and source–sink balance. Frontiers in plantScience.17: 40500. (SCI, Q2, IF 4.8).

15)Tangzhe Nie, Haijun Liu, Peng Chen, Lili Jiang, Tianyi Wang, Tiecheng Li, Kechun Wang, Zhongxue Zhang. 2025. Straw return combined with water-saving irrigation improves soil quality and rice yield by regulating microbial community structure in paddy fields.Applied Soil Ecology. 214: 106402.(SCI, Q2 Top, IF 4.8).

16)Chen, P., Xu, J.Z*., Wang, K.C., Zhang, Z. X., Zhou, Z. Q., Li, Y. W., Li, T.C., Nie, T. Z., Wei, Q., Liao, L.X., 2025. Straw return combined with water-saving irrigation increases microbial necromass accumulation by accelerating microbial growth-turnover in Mollisols of paddy fields. Geoderma. 454: 117211. (SCI, Q1 Top, IF 5.6).

17)Chen, P., Xu, J.Z*., Wang, K.C., Zhang, Z.X., Wei, Q., Nie, T.Z., Zhou, Z.Q., Meng, Q., Lei, C., 2024. Biochar- or straw-mediated alteration in rice paddy microbial community structure and its urea-C utilization are depended on irrigation regimes. Applied Soil Ecology. 23, 105608(SCI, Q2 Top, IF 4.8).

18)Chen, P., Li, Y.W., Lv, Y.P., Xu, J.Z., Zhang, Z.X., Liu, X.Y*., Luan, Y.J., Wei, Q., Zheng, E.N., Wang, K.C., 2024. Water Management-Mediated Changes in the Rhizosphere and Bulk Soil Microbial Communities Alter Their Utilization of Urea-Derived Carbon. Microorganisms. 12 (9), 1829. (SCI, Q2, IF 4.1).

19)Chen, P., Xu, J.Z., Zhang, Z.X., Wang, K.C., Li, T.C., Wei, Q., Li, Y.W., 2022. Carbon pathways in aggregates and density fractions in Mollisols under water and straw management: Evidence from 13C natural abundance. Soil Biology and Biochemistry. 169, 108684. (SCI, Q1 Top, IF 9.8).

20)Chen, P., Xu, J.Z., Zhang, Z.X., Nie, T.Z., Wang, K.C., Guo, H., 2022. Where the straw-derived nitrogen gone in paddy field subjected to different irrigation regimes and straw placement depths? Evidence from 15N labeling. Agricultural Water Management. 273, 107921. (SCI, Q1 Top, IF 5.9).

2. 专利

1)一种水力自驱动的水肥一体化灌溉施肥装置[授权]. 2021. CN111083981B

2)一种负压灌溉系统及其灌溉方法[授权]. 2021. ZL201811530066.6

3)一种明渠均匀流发生装置[授权]. 2019. ZL201821528509.3

4)一种在线测定局部灌溉土壤温室气体的系统[授权]. 2021. ZL201910079985.4

5)一种基于气压传感器的液位测量装置及其液位测量方法[授权]. 2022. ZL201910174363.X

6)一种田间尺度下水盐运移驱动碳酸盐迁移时间关系的监测与调控方法[受理]. 2026. 202610206371.8.

7)一种适用于盐碱地改良的种植装置及其种植方法[授权]. 2020. 202010724210.0

8)一种太阳能自动淤泥处理装置及方法[授权]. 2026. CN202310196847.0.一种利用太阳能的低温水热炭生产系统及生产方法[公开实审].2022. CN202210363571.6

9)一种利用水葫芦与秸秆制备改性水热炭的系统和方法[受理].202511417225.1.

10)一种基于连栋温室集雨槽的雨水收集灌溉系统[授权]. 2024. 202420255585.0

联系方式：

通讯地址：陕西杨凌示范区西农路22号西北农林科技大学北校区水建学院

邮编：712100

邮箱：kechun.wang@nwafu.edu.cn