个人简介

王汝振，男，1988年7月生，山东聊城人，博士，教授/研究员，博士研究生导师，国家优秀青年基金获得者。兼任中国植物营养与肥料学会理事，中国土壤学会会员，Plant and Soil副主编，民盟中央青年工作委员会。

主要从事生态学与土壤学方面的教学和科研工作。主持和参加各类项目10余项。在国内外学术刊物上发表论文73篇，其中在New Phytologist、Ecological Monograph、Ecology、Journal of Ecology、Soil Biology & Biochemistry等SCI杂志发表学术论文70余篇，第一或通讯作者SCI论文36篇，被SCI引用1300余次，H因子22

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 研究员

承担科研项目

1. 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

2. 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

3. 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

4. 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

5. 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

6. 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）：

1. Gu BT,Wang RZ*, Sardans J, Peñuelas J, Han XG, Jiang Y, 2023. Altered soil nitrogen retention by grassland acidification from near-neutral to acidic conditions: A plant-soil-microbe perspective.Fundamental Research(Accepted)

2. 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 Nutrition23:5438-5453.

3.Wang RZ*, Gu B. 2023. A conceptual framework on the fate of rhizodeposits in forming mineral-associated organic matter or encapsulating into microaggreagtes.Air, Soil and Water Research16: 1-4.

4. 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 Sciences42: 124-137.

5. 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 Ecology111: 631-644.

6. 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 Soilhttps://doi.org/10.1007/s11104-022-05408-2

7.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 Future10: e2021EF002479.

8.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 Soil476: 289-300.

9. 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 Soil473: 305-318

10.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.Ecology103: e3616.

11.Wang RZ, Bicharanloo B, Shirvan MB, Cavagnaro TR, Jiang Y*, Keitel C, Dijkstra FA. 2021. A novel¹³C pulse-labelling method to quantify the contribution of rhizodeposits to soil respiration in a grassland exposed to drought and nitrogen addition.New Phytologist230: 857-866.

12.Wang RZ, Peñuelas J, Li TP, Liu HY, Wu H, Zhang YG, Sardans J, Jiang Y*. 2021. Natural abundance of¹³C and¹⁵N provides evidence for plant-soil carbon and nitrogen dynamics in a N-fertilized meadow.Ecology102: e03348.

13.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 Ecology109: 3699-3709.

14.Wang RZ, Cresswell T, Johansen MP, Harroson JJ, Jiang Y*, Keitel C, Cavagnaro TR, Dijkstra FA. 2021. Re-allocation of nitrogen and phosphorus from roots drives regrowth of grasses and sedges after defoliation under deficit irrigation and nitrogen enrichment.Journal of Ecology109:4071-4080.

15.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 Soil467: 213–226.

16.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 Science72: 946-962.

17. 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 Pollution289: 117969.

18.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 Soil457: 407-420.

19.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 Science71: 667-680.

20.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.Catena172: 857-865.

21. 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 Soil443:337-351.

22. 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.Biogeosciences16: 4293-4306.

23. 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.Biogeosciences16: 2891-2904.

24.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 Management224: 77-86.

25.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.Biogeosciences15: 1763-1774.

26.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 Soils53: 129-140.

27.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 Environment575:564-572.

28.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.Biogeosciences14: 2155-2166.

29.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.Geoderma293: 10-18.

30.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.Geoderma289:161-168.

31.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 Indicators61: 806-814.

32. 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 Earth7: 1565-1575.

33. 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 Earth7: 549-556.

34.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 Journal79: 527-535.

35.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 & Biochemistry81: 159-167.

36.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 Soil381: 323-336.