王汝振,1988年生,山东聊城人。河北大学教授,国家优秀青年科学基金获得者(2022年)、河北省燕赵青年科学家、河北省拔尖人才(专技)、中国科学院青促会会员、中国科学院院长优秀奖获得者。近年来,主要从事生态学教学与科研工作,聚焦草地生态系统的元素循环与生物地球化学循环机制研究。主持和参加各类项目10余项,以第一或通讯作者在Trends in Plant Science、Global Change Biology、New Phytologist、Ecology、Journal of Ecology、Soil Biology & Biochemistry等国际权威期刊发表SCI论文41篇,合作发表SCI论文40余篇,总引用超过3000次,H因子为32。2024、2025年入选全球前2%顶尖科学家榜单,2025年获斯普林格-自然出版社编委贡献奖。现任《Plant and Soil》副主编,中国植物营养与肥料学会理事、中国土壤学会会员,兼任民盟中央青年工作委员会委员。
教育经历:
2006–2010: 曲阜师范大学 生物学学士
2010–2015: 中科院沈阳应用生态所 生态学博士
2012–2013: 美国普渡大学 联合培养
工作经历:
2015–2017: 中科院沈阳应用生态所 助理研究员
2017–2021: 中科院沈阳应用生态所 副研究员
2019–2020: 澳大利亚 悉尼大学 访问学者
2021–2022: 中科院沈阳应用生态所 研究员
2022–至今: 河北大学 生命科学学院 教授
承担科研项目:
1. 国家自然科学基金面上项目:草甸草原植物功能群去除影响根氮再分配的水-碳-氮耦合机制(32571816,2026-2029,50万元),主持
2. 国家重点研发计划项目“京津冀核心生态功能区重大外来入侵物种的全链条防控模式研究”(2025YFC2609102,2025.09-2028.08,40万元),子课题任务
2. 燕赵青年科学家项目:植物光合碳分配与根氮再分配的生态学耦联机制(C2024201044,2024-2028,100万元),主持
3. 国家自然科学基金优青项目:草地元素循环过程与调控(32071563,2023-2025,200万元),主持
4. 国家自然科学基金面上项目:草甸草原土壤酸化对植物根系氮素再循环的影响(32071563,2021-2024,58万元),主持
5. 国家自然科学基金面上项目:大气沉降氮在典型草甸草原生态系统的分配及存留机制(31770525,2018-2021,55万元),主持
6. 国家重点研发计划子课题:人工牧草和饲用作物高效种植技术研发与示范(2016YFC0500707,2016-2021,40万元),子课题主持
7. 中科院战略性先导专项专题:莫尔道嘎森林保护区关键树种及林下植被多样性保护技术示范(XDA23080401,2019-2023,50万元),专题主持
8. 中国科学院青年创新促进会人才培养项目(2019-2022,80万元),主持
第一及通讯作者论文(含共同,*代表通讯作者,#代表共同第一作者):
1. Gu BT, Wang RZ*, Wang SD, Zhang Y, Han XG, Zhu B, Dijkstra FA, Jiang Y. 2025. Microbial Immobilization Shapes the Non-Linear Response of Allochthonous Nitrogen Retention to Grassland Acidification Within Soil Aggregates. Global Change Biology 31: e70229.
2. Zhang Y, Wang RZ*, Xue KL, Dijkstra FA, Sardans J, Liu HY, Rillig MC, Peñuelas J, Han XG, Jiang Y. 2025.Expanding the root economics space with root nitrogen reallocation. Plant, Cell & Environment 48: 7505-7516
3. Zhang Y, Wang RZ*, Gu BT, Liu HY, Dijkstra FA, Han XG, Jiang Y. 2025. Plant growth strategies and microbial contributions to ecosystem nitrogen retention along a soil acidification gradient. Ecology 106: e4515.
4. Gu BT, Wang RZ*, Sardans J, Peñuelas J, Han XG, Jiang Y. 2025. Altered soil nitrogen retention by grassland acidification from near-neutral to acidic conditions: A plant-soil-microbe perspective. Fundamental Research https://doi.org/10.1016/j.fmre.2023.10.025
5. Wang RZ, Dijkstra FA, Han XG, Jiang Y*. 2024. Root nitrogen reallocation: what makes it matter? Trends in Plant Science 29: 1077-1088.
6. Han JX, Wang RZ*, Sardans J, Liu HY, He P, Deng HH, Ma WY, Peñuelas J, Han XG, Jiang Y. 2024. Gradient variations in rhizospheric soil exchangeable cations across a forest-steppe transect. Catena 245: 108330.
7. Li YY, Wang RZ*, Zhang Y, Gu BT, Liu HY, Yang LJ, Jiang Y. 2023. Plant molybdenum uptake as mediated by synergism with phosphorus but antagonism with sulfur in a nitrogen fertilized and mown meadow. Journal of Soil Science and Plant Nutrition 23:5438-5453.
8. Wang RZ*, Gu B. 2023. A conceptual framework on the fate of rhizodeposits in forming mineral-associated organic matter or encapsulating into microaggregates. Air, Soil and Water Research 16: 1-4.
9. Lü J, Wang RZ*, Sardans J, Peñuelas J, Jiang Y, Han XG. 2023. An integrative review of drivers and responses of grassland phenology under global change. Critical Reviews in Plant Sciences 42: 124-137.
10. Zhang Y, Wang RZ*, Sardans J, Wang B, Gu BT, Li YY, Liu HY, Peñuelas J, Jiang Y. 2023. Resprouting ability differs among plant functional groups along a soil acidification gradient in a meadow: A rhizosphere perspective. Journal of Ecology 111: 631-644.
11. Feng X#, Wang RZ#, Li TP, Cai JP, Liu HY, Wang B, Lü XT, Jiang Y*. 2023. Nutrient resorption and coupling relationships in two plant species with sulfur addition: A two-year study in a meadow. Plant and Soil 491: 45-56.
12. Wang RZ, Bicharanloo B, Hou EQ*, Jiang Y*, Dijkstra FA. 2022. Phosphorus supply increases nitrogen transformation rates and retention in soil: a global meta-analysis. Earth's Future 10: e2021EF002479.
13. Wang RZ, Lu JY, Jiang Y*, Dijkstra. 2022. Carbon efficiency for nutrient acquisition (CENA) by plants: role of nutrient availability and microbial symbionts. Plant and Soil 476: 289-300.
14. Li YY, Wang RZ*, Liu HY, Feng X, Wang B, Wang ZR, Li H, Yang LJ*, Jiang Y. 2022. Synergistic interactions between zinc and nitrogen addition in promoting plant Zn uptake as counteracted by mowing management in a meadow grassland. Plant and Soil 473: 305-318
15. Wang RZ#, Yang JJ#, Liu HY#, Sardans J, Zhang YH, Wang XB, Wei CZ, Lü XT, Dijkstra F, Jiang Y, Han XG*, Peñuelas J. 2022. Nitrogen enrichment buffers phosphorus limitation by mobilizing mineral-bound soil phosphorus in grasslands. Ecology 103: e3616.
16. Wang RZ, Bicharanloo B, Shirvan MB, Cavagnaro TR, Jiang Y*, Keitel C, Dijkstra FA. 2021. A novel 13C pulse-labelling method to quantify the contribution of rhizodeposits to soil respiration in a grassland exposed to drought and nitrogen addition. New Phytologist 230: 857-866.
17. Wang RZ, Peñuelas J, Li TP, Liu HY, Wu H, Zhang YG, Sardans J, Jiang Y*. 2021. Natural abundance of 13C and 15N provides evidence for plant-soil carbon and nitrogen dynamics in a N-fertilized meadow. Ecology 102: e03348.
18. Wang RZ, Cavagnaro TR, Jiang Y*, Keitel C, Dijkstra FA. 2021. Carbon allocation to the rhizosphere is affected by drought and nitrogen addition. Journal of Ecology 109: 3699-3709.
19. Wang RZ, Cresswell T, Johansen MP, Harroson JJ, Jiang Y*, Keitel C, Cavagnaro TR, Dijkstra FA. 2021. Reallocation of nitrogen and phosphorus from roots drives regrowth of grasses and sedges after defoliation under deficit irrigation and nitrogen enrichment. Journal of Ecology 109:4071-4080.
20. Wang RZ#, Lü LY#, Cao YZ, Sardans J, Liu HY, Li B, Zhang YG, Peñuelas J, Dijkstra FA, Jiang Y*. 2021. Stability of elemental content correlates with plant resistance to soil impoverishment. Plant and Soil 467: 213–226.
21. Wang RZ#,*, Liu HY#, Sardans J, Feng X, Xu ZW, Peñuelas J. 2021. Interacting effects of urea and water addition on soil mineral-bound phosphorus dynamics in semi-arid grasslands with different land use history. European Journal of Soil Science 72: 946-962.
22. Liu HY, Wang RZ*, Lü XT, Cai JP, Feng X, Yang GJ, Li H, Zhang YG, Han XG, Jiang Y. 2021. Effects of nitrogen addition on plant-soil micronutrients vary with nitrogen form and mowing management in a meadow steppe. Environmental Pollution 289: 117969.
23. Wang RZ#, Wu H#, Sardans J, Li TP, Liu HY, Peñuelas J, Dijkstra FA, Jiang Y*.2020. Carbon storage and plant-soil linkages among soil aggregates as affected by nitrogen enrichment and mowing management in a meadow grassland. Plant and Soil 457: 407-420.
24. Wang RZ#,*, Cao YZ#, Wang HY,Dijkstra FA, Jiang JL, Zhao RN, Ma W, Li TP, Dorodnikov M, Wang ZW, Sardans J, Peñuelas J. 2019. Exogenous P compounds differentially interacted with N availability to regulate enzymatic activities in a meadow steppe. European Journal of Soil Science 71: 667-680.
25. Wang RZ, Dijkstra FA, Liu HY, Yin JF, Wang X, Feng X, Xu ZW, Jiang Y*. 2019. Response of soil carbon to nitrogen and water addition differs between labile and recalcitrant fractions: evidence from multi–year data and different soil depths in a semi-arid steppe. Catena 172: 857-865.
26. Feng X, Wang RZ*, Yu Q, Cao YZ, Zhang YG, Yang LJ*, Dijkstra FA, Jiang Y. 2019. Decoupling of plant and soil metal nutrients as affected by nitrogen addition in a meadow steppe. Plant and Soil 443:337-351.
27. Liu HY, Wang RZ*, Wang HY, Cao YZ, Dijkstra FA, Shi Z, Cai JP, Wang ZW, Zou HT*, Jiang Y. 2019. Exogenous phosphorus compounds interact with nitrogen availability to regulate dynamics of soil inorganic phosphorus fractions in a meadow steppe. Biogeosciences 16: 4293-4306.
28. Li TP#, Liu HY#, Wang RZ*, Lü XT, Yang JJ, Zhang YH, He P, Wang ZR, Han XG, Jiang Y*. 2019. Frequency and intensity of nitrogen addition alter soil inorganic sulfur fractions but the effects vary with mowing management in a temperate steppe. Biogeosciences 16: 2891-2904.
29. Wang RZ, Zhang YH, He P, Yin JF, Yang JJ, Liu HY, Cai JP, Shi Z, Feng X, Dijkstra FA, Han XG, Jiang Y*. 2018. Intensity and frequency of nitrogen addition alter soil chemical properties depending on mowing management in a temperate steppe. Journal of Environmental Management 224: 77-86.
30. Wang RZ#, Wang X#, Jiang Y*, Cerdà A, Yin J, Liu HY, Feng X, Shi Z, Dijkstra FA, Li MH. 2018. Soil properties determine the elevational patterns of base cations and micronutrients in plant-soil system up to the upper limits of trees and shrubs. Biogeosciences 15: 1763-1774.
31. Wang RZ, Dorodnikov M, Dijkstra F, Yang S, Xu ZW, Li H, Jiang Y*. 2017. Sensitivities to nitrogen and water addition vary among microbial groups within soil aggregates in a semi-arid grassland. Biology and Fertility of Soils 53: 129-140.
32. Wang RZ, Dungait JAJ, Buss HL, Yang S, Zhang YG, Xu ZW, Jiang Y*. 2017. Base cations and micronutrients in soil aggregates as affected by enhanced nitrogen and water inputs in a semi-arid steppe grassland. Science of the Total Environment 575:564-572.
33. Wang RZ, Lü LY, Creamer CA, Liu HY, Feng X, Yu GQ, Han XG, Jiang Y*. 2017. Alteration of soil carbon and nitrogen pools and enzyme activities as affected by increased soil coarseness. Biogeosciences 14: 2155-2166.
34. Wang RZ, Gibson SD, Berry TD, Jiang Y, Bird JA, Filley TR*. 2017. Photooxidation of pyrogenic organic matter reduces the reactive, labile C pool and the apparent soil oxidative microbial oxidative enzyme response. Geoderma 293: 10-18.
35. Wang RZ, Zhang YL*, CerdàA, Cao MM, Zhang YY, Yin JF, Jiang Y, Chen LJ. 2017. Changes in soil chemical properties as affected by pyrogenic organic matter amendment with different intensity and frequency. Geoderma 289:161-168.
36. Wang RZ, Creamer CA, Wang X, He P. Xu ZW, Jiang Y*. 2016. The effects of a 9-year nitrogen and water addition on soil aggregate phosphorus and sulfur availability in a semi-arid grassland. Ecological Indicators 61: 806-814.
37. Yin JF, Wang RZ*, Liu HY, Feng X, Xu ZW, Jiang Y. 2016. Nitrogen addition alters elemental stoichiometry within soil aggregates in a temperate steppe. Solid Earth 7: 1565-1575.
38. Lü LY, Wang RZ*, Liu HY, Yin JF, Wang ZW, Zhao Y, Yu GQ, Han XG, Jiang Y. 2016. Effect of soil coarseness on soil base cations and available micronutrients in a semi-arid sandy grassland. Solid Earth 7: 549-556.
39. Wang RZ, Dungait JAJ, Creamer CA, Cai JP, Li B, Xu ZW, Zhang YG, Ma YN, Jiang Y*. 2015. Carbon and nitrogen dynamics in soil aggregates under long-term N and water addition in a temperate steppe. Soil Science Society of America Journal 79: 527-535.
40. Wang RZ, Dorodnikov M, Yang S, Zhang YY, Filley TR, Turco RF, Zhang YG, Xu ZW, Li H, Jiang Y*. 2015. Responses of enzymatic activities within soil aggregates to 9-year nitrogen and water addition in a semi-arid grassland. Soil Biology & Biochemistry 81: 159-167.
41. Wang RZ, Filley TR, Xu ZW, Wang X, Li MH, Zhang YG, Luo WT, Jiang Y*. 2014. Coupled response of soil carbon and nitrogen pools and enzyme activities to nitrogen and water addition in a semiarid grassland of Inner Mongolia. Plant and Soil 381: 323-336.
