姓  名: 张文浩
职务/职称: 研究员、研究组组长
联系电话: (86)-010-62836697
电子邮件: whzhang@ibcas.ac.cn
个人网页: http://lvec.ibcas.ac.cn/rcdw/yjy/202002/t20200204_541657.html
课 题 组: 草地养分利用与调控研究组
张文浩,男,博士,研究员,博士生导师。

中国科学院大学岗位教授2007年度国家杰出青年基金获得者,2009中国科学院人才计划终期评估优秀者。担任植被与环境变化国家重点实室主任(2016-2023)和中国科学院内蒙古草业研究中心主任(2017-2020)。1986年毕业于内蒙古农业大学草原系,1993年毕业于澳大利亚弗林德斯大学生物系,获博士学位。1993年至2004年先后在澳大利亚纽卡斯尔大学、西澳大利亚大学、阿德莱德大学从事植物生理学研究。先后担任New Phytologist (20072011)Journal of Experimental Botany (20082015)BMC Plant Biology (20122020)Environmental and Experimental Botany20052018)、AoB Plants (20132020)Plant and Soil (2020) 等刊物的编委、副主编和Journal of Plant Ecology的共同主编(20192023)。在植物学和生态学领域的刊物New PhytologistPlant PhysiologyPlant Cell & EnvironmentGlobal Change BiologyEcologyJournal of EcologyFunctional Ecology等发表SCI论文150余篇,其中多篇论文入选ESI“高被引论文,论文被SCI期刊引用8000余次;自2014连续十年入选爱思维尔中国高被引学者。获得授权专利20余项,培育苜蓿和羊草新品种4个,参与制定草地改良、人工草地建植方面的内蒙古地方标准10项。获得中国科学院科技促进发展奖(2020) 中国科学院大学“朱李月华优秀教师”奖(2023)

主要研究方向与成果

1. 草地生态学

发现了氮富集导致的典型草原植物多样性降低的新机制,阐明典型草原植物根际过程在响应养分富集和刈割中的作用机理;建立了基于根际调控的“生物促芽、养分增效、水肥同步”的退化草地修复技术。

2. 苜蓿抗逆机制及品种选育

解析了苜蓿属植物耐土壤贫瘠、干旱和低温的生理机制;培育了3个耐低温、干旱的紫花苜蓿(中科1号、中科2号紫花苜蓿)、扁蓿豆(中科1号花苜蓿1个羊草品种(浑善达克羊草);建立了高纬度地区新型高产苜蓿及燕麦的人工草地建植模式。

3.  植物对逆境响应的生理机制

阐明了通道蛋白在植物适应铝毒和低磷胁迫中的作用;阐释了气体信号分子一氧化氮和乙烯在植物响应低温和土壤养分胁迫中的作用机制。

主持科研项目:

  1. 北方农牧交错带退化草地多维度修复与多功能提升技术研发与示范,国家重点研发计划项目(2022.9 2026.8) 
  2. 大气氮沉降对典型草原生物多样性影响的多尺度研究,国家自然科学基金重点项目(2019.1 2023.12)
  3. 中科系列黄花苜蓿、杂花苜蓿良种培育内蒙古自治区科技攻关项目(2021.1 2024.12)
  4. 内蒙古农牧交错带生态草牧业科技示范”,中国科学院科技服务网络计划项目(2019.72020.12)
  5. 东北草地植物资源专项调查”科技部科技基础性专项(2014.12018.12)

主要研究论文(注*为通讯作者,#为共同第一作者):

2024

  1. Chen MM, Zheng Y, Zhai XF, Ma FL, Chen J, Stevens C, Zhang WH, Tian QY* (2024). Metal ions steer the duality in microbial community recovery from nitrogen enrichment by shaping functional groups. Global Change Biology 30: e17475.
  2. Zhai XF, Zheng Y, Ma FL, Ren LF, Bai WM, Tian QY*, Zhang WH*. 2024. Root exudation is involved in regulation of nitrogen transformation under mowing in a temperate steppe. Soil Biology & Biochemistry, 195: 109481.
  3. Yang LY, Shi HQ, Zhang LL, Li YT, Tian QY, Yu Q, Zhang WH*. 2024. Seeds exhibit the most stable elemental composition with nitrogen addition in an Inner Mongolian grassland. Science of the Total Environment, 919: 10920.
  4. Liao Y,Wang P*, Liu LJ, Zhang WH. 2024. Publication-level analysis of Journal of Plant Ecology during 2018-2022. Journal of Plant Ecology,17: 10.1093/jpe/rtad046
  5. Nie B#, Chen XQ#, Hou ZW#, Guo MX#, Li C, Sun WK, Ji JJ, Zhang LL, Yang S, Fan PX, Zhang WH, Li H, Tan YZ, Li W, Wang L*. 2024. Haplotype-phased genome unveils the butylphthalide biosynthesis and homoploid hybrid origin of Ligusticum chuanxiong. Science Advances, 10(6): eadj6547
  6. Zheng Z*, Wang C, Wang YD, Zhang YR, Valverde-Barrantes OJ, Zhang WH, Kong DL*. 2024. Decoupling of uptake- and transport-related traits in absorptive roots across 68 herbaceous species on the Tibetan Plateau. Journal of Ecology, 112:770–783.
  7. Guo CY, Yang A*, Zhang WH. 2024. Host identity determines the bacterial and fungal community and network structures in the phyllosphere of plant species in a temperate steppe. Phytobiomes Journal, 8: 143154.

2023

  1. Wang TZ, Zhang WH*.2023. Priorities for the development of alfalfa pasture in northern China. Fundamental Research,3: 225228.
  2. Wang TZ, Liu M, Zhang D, Wang J, Chen L, Zhang XX, Schmidt W, Zhang WH*. 2023.Protein kinase MtCIPK12 modulates Fe reduction in Medicago truncatula by regulating riboflavin biosynthesis.Plant Cell & Environment, 46: 991–1003.
  3. Zhao MG, Tian R, Sun XH, Zhang WH*. 2023. lncRNA MtCIR2 positively regulates plant freezing tolerance by modulating CBF/DREB1 gene clusters.Plant Cell & Environment,46:24502469.
  4. Zhang LL, Bai WM, Zhang YH, Lambers H, Zhang WH*. 2023. Ecosystem stability is determined by plant defense functional traits and population stability under mowing in a steppe.Functional Ecology,37:24132424.
  5. Zhang LL, Li YT, Bai WM, Lambers H, Zhang WH*.2023. Morphological and physiological traits are involved in responses of plants to mowing in a temperate steppe.Ecological Applications,33: 2863
  6. Tian R, Sun XH, Liu CM, Chu JF, Zhao MG*, Zhang WH*. 2023. A Medicago truncatula lncRNA MtCIR1 negatively regulates response to salt stress. Planta,257: 32
  7. Zhang WH*, Li L, Dijkstra, F, Zhu B, Bai WM, Tian QY. 2023. Plant-soil interactions in grasslands on the Mongolian Plateau under global change. Plant and Soil,491: 17.
  8. WangTZ*, WangJ, Chen L, Yao JY, Yuan Z, Zhang D,Zhang WH. 2023. Reorganization of 3D chromatin architecture in Medicago truncatulaunder phosphorus deficiency. Journal ofExperimental Botany,74: 2005–2015.
  9. Bai R, Hu HW, Zhou M, Sheng J, Xiong C, Guo YM, Yuan YJ, Hou LY,Zhang WH, Bai WM*. 2023. Effects of long-term mowing on leaf- and root-associated bacterial community structures are linked to functional traits in 11 plant species from a temperate steppe. Functional Ecology, 37: 1787–1801.
  10. Zhai XF#, Lu P#, Zhang RF, Zhang WH, Chen J, Tian QY*. 2023. Mowing accelerates phosphorus cycle rather than depletes soil phosphorus pool.Ecological Applications,33:2861.
  11. Chen Z, Li HB, Zhang WH, Wang BL*. 2023. The roles of stomatal morphologies in transpirationand nutrient transportation between grasses and forbs in a temperate steppe. Annals of Botany, 132: 229239.
  12. Guo YM, Zhou M, Sheng J, Yuan YJ, Yuan GY, Zhang WH, Bai WM*. 2023. Aboveground net primary productivity was not limited by phosphorus in a temperate steppe in Inner Mongolia. Journal of Plant Ecology,16: rtac085.
  13. Li QM, Bai WM, Guo YM, Sheng J, Yuan LJ, Zhang WH, Zhou M*. 2023. The response oftwo nutrient acquisition strategies: root traits and leaf nutrient resorption and their relationships to long-term mowing in a temperate steppe.Plant and Soil,491: 191–203.
  14. Wang P, Liu LJ, Dong BC, Zhang WH, Schmid B. 2023. Bibliometric analysis of Journal of Plant Ecology during 2017-2021. Journal of Plant Ecology,15:13161323.

2022

  1. Tian QY, Lu P, Zhai XF, Nie B, Zhang RF, Zheng Y, Bai WM, Wang H, Niu SL, Shi PL, Yang YH, Li KH, Yang DL, Stevens, C*, Lambers H, Zhang WH*.2022. An integrated belowground trait-based understanding of nitrogen driven plant diversity loss. Global Change Biology, 28: 3651–3664.
  2. Nie B, Jiao BH, Ren LF, Polina D. Gudkova PD, Chen WL, Zhang WH*. 2022. Integrative taxonomy recognized a new species within Stipa grandis from Loess Plateau of China. Journal of Systematics and Evolution, 60: 901–913.
  3. Wang BL, Wei HF, Chen Z, Li YT, Zhang WH*.2022. Carbonate-induced chemical reductants are responsible for iron acquisition in wild herbaceous plants native to calcareous grasslands. Plant and Cell Physiology,63:770–784.
  4. Zhang LL, Yang LY, Zhou HR, Ren LF, Li WC, Bai WM, Zhang WH*. 2022. Carbon allocation patterns in forbs and grasses differ in responses to mowing and nitrogen fertilization in a temperate grassland. Ecological Indicators, 135: 108588
  5. Hou LY, Bai W, Zhang QQ, Liu YH, Sun HL, Luo YL, Song SH, Zhang WH*. 2022. A new model of two-sown regime for oat forage production in an alpine region of northern China. Environmental Science and Pollution Research,29: 70520–70531.
  6. Wang TZ*, Zhang D, Wang J, Chen L, Zhang WH. 2022. Genome-wide analysis of the Glutathione S-Transferase family in wild Medicago ruthenica and drought-tolerant breeding application of MruGSTU39 gene in cultivated alfalfa. Theoretical and Applied Genetics, 135:853864
  7. Zhou M, Guo YM, Sheng J, Yuan YJ, Zhang WH, Bai WM*. 2022. Using anatomical traits to understand root functions across root orders of herbaceous species in a temperate steppe.New Phytologist, 234: 422–434.
  8. Li JL, Yuan JR, Li YH, Sun HL, Ma TT, Huai JL, Yang WQ, Zhang WH, Lin RC*. 2022. The CDC48 complex mediates ubiquitin-dependent degradation of intra-chloroplast proteins in plants. Cell Reports,39:110664.
  9. Sheng J, Zhou M, Guo YM, Yuan JY, Li X, Zhang WH, Bai WM*. 2022. Aboveground productivity and community stability tend to keep stable under long-term fencing and nitrogen fertilization on restoration of degraded grassland. Ecological Indicator,140: 108971.
  10. Bai R, Hou LY, Zhang WH, Ge AH, Luo YL, Bai WM*. 2022. The prokaryotic and fungal communities of oat rhizosphere responded contrastingly to different irrigation regimes at pre- and post-anthesis stages. Applied Soil Ecology, 176: 104490.
  11. Yang A*, Han WH, Li YT, Zhang XQ, Zhang LL, Zhou M., Ren LF, Tian QY, Zhang WH. 2022. Linkage of vegetation and abiotic attributes to grazing effects on biogeographical patterns of arbuscular mycorrhizal fungal communities in temperate grasslands. Plant and Soil,478: 479–490.

2021

  1. Tian QY#, Lu P#, Ma PF, Zhou HR, Zhai XF, Chen MM, Wang H, Li WC, Bai WM, Lambers H, Zhang WH*.2021. Processes at the soil-root interface determine the different responses of nutrient limitation and metal toxicity in forbs and grasses to nitrogen enrichment.Journal of Ecology, 109: 927–938.
  2. Lu P#, Hao TX#, Li X, Wang H, Zhai XF, Tian QY*, Bai WM, Stevens C,Zhang WH*. 2021. Low-level nitrogen deposition leads to nitrogen accumulation and plant-diversity decline in a relatively closed grassland ecosystem. Journal of Applied Ecology, 58: 1888–1898.
  3. Wang TZ, Ren LF, Li CH, Zhang D, Zhang XX, Zhou G, Gao D, Chen RJ, Chen YH, Chen YH, Wang ZL, Shi FL, Farmer AD, Li YS, Zhou MY*, Young ND, Zhang WH*.2021. The genome of a wild Medicago species provides insights into the tolerant mechanisms of legume forage to environmental stress. BMC Biology, 19: 96.
  4. Zhou M, Bai WM*, Li QM, Guo YM,Zhang WH*.2021. Root anatomical traits determined leaf-level physiology and responses to precipitation change of herbaceous species in a temperate steppe.New Phytologist, 229: 1481–1491.
  5. Zhang WH*, Zhang YH, Han XG. 2021. Major advances in plant ecology research in China (2020).Journal of Plant Ecology,14: 995–1001.
  6. Hou LY, Bai WM*, Zhang QQ, Luo YL, Yan WB, Tang GB, Zhang JM, Song SH, Zhang WH*. 2021. Agronomic and economical characterizations of a two-harvest regime for oat forage in cold regions of Northern China.Environmental Science and Pollution Research,28: 68804–68816.
  7. Xu SJ, Dong Q, Deng M, Lin DXXiao J, Cheng PL, Xing LJ, Niu YD, Gao CX, Zhang WH, Xu YY, Chong K*. 2021. A vernalization-induced long non-coding RNA VAS together with transcription factor TaRF2b activates TaVRN1 for flowering in hexaploid wheat. Molecular Plant,14: 1525–1538.

2020

  1. Wang BL, Wei HF, Zhang H,Zhang WH*. 2020. Enhanced accumulation of gibberellins rendered rice seedlings sensitive to ammonium toxicity. Journal of Experimental Botany, 71: 1514–1526.
  2. Liu WX, T R, Peng ZY, Yang S, Liu XL, Yang YS, Zhang WH, Liu LL*. 2020. Nonlinear responses of the Vmax and Km of hydrolytic and polyphenol oxidative enzymes to nitrogen enrichment.Soil Biology and Biochemistry, 141:107656.
  3. Zhao MG, Wang TZ, Sun TY, Yu XX, Tian R, Zhang WH*.2020. Identification of tissue-specific and cold-responsive lncRNAs in Medicago truncatula by high-throughput RNA sequencing. BMC Plant Biology, 22: 99.
  4. Zhang WH*, Schmid B, Liu LJ, Wang P. 2020. New development phase of JPE. Journal of Plant Ecology,13: 1–2.
  5. Tian QY, Yang LY, Ma PF, Liu NN, Bai WM, Wang H, Ren LF, Lu P, Han WH, Schultz PA, Bever JD, Zhang FS, Lambers H, Zhang WH*. 2020. Belowground-mediated and phase-dependent processes drive nitrogen-evoked community dynamic changes in grasslands.Journal of Ecology,108: 1874–1887.
  6. Yang A, Li Q, Chen L, Zhang WH*. 2020. A rice small GTPase, OsRab6a, is involved in the regulation of grain yield and iron nutrition in response to CO2 enrichment. Journal of Experimental Botany,71: 5680–5688. 

2019

  1. Zhang XX, Wang TZ, Liu M, Sun W, Zhang WH*. 2019. Calmodulin-like gene MtCML40 is involved in salt tolerance by regulating MtHKTs transporters in Medicago truncatula. Environmental and Experimental Botany,157: 79–90.
  2. Zheng Z, Bai WM, Zhang WH*. 2019. Clonality-dependent dynamic change of plant community in temperate grasslands under nitrogen enrichment. Oecologia,189: 255–266.
  3. Cui N, Lu H, Wang TZ, Zhang WH, Kang L, Cui F*. 2019. Armet, an aphid effector protein, induces pathogen resistance in plants by promoting the accumulation of salicylic acid. Philosophical Transactions of the Royal Society B-Biological Sciences,374:20180314.
  4. Hou LY, Wang MY, Wang H, Zhang WH, Mao PS*. 2019. Physiological and proteomic analyses for seed dormancy and release in the perennial grass of Leymus chinensis. Environmental and Experimental Botany, 162: 95–102.
  5. Zheng Z, Bai WM, Zhang WH*.2019. Root trait-mediated belowground competition and community composition of temperate grasslands under nitrogen enrichment. Plant and Soil,437: 341–354.
  6. Li Q, Yang A*,Zhang WH*.2019. Higher endogenous bioactive gibberellins and α-amylase activity confer greater tolerance of rice seed germination to saline-alkaline stress. Environmental and Experimental Botany,16: 357–363.
  7. Zhou M, Wang J, Bai WM*, Zhang YS, Zhang WH*. 2019. The response of root traits to precipitation change of herbaceous species in temperate steppes. Functional Ecology, 33: 2030–2041.
  8. Yang J, Hou LY, Bai WM*, Yan JY, Hao JX, Tao J, Luo YL, Zhang JM, Zhang WH. 2019. A dual-purpose model for spring-sown oats in cold regions of northern China.Agronomy,9:721.

2018

  1. Mao XT, Li QF, Ren LF, Bai WM,Zhang WH*. 2018. Application of molybdenum fertilizer enhanced quality and production of alfalfa in northern China under non-irrigated conditions.Journal of Plant Nutrition,41: 1009–1019.
  2. Cheng Y, Zhang XX, Sun TY, Tian QY*, Zhang WH*.2018. Glutamate receptor homolog3.4 is involved in regulation of seed germination under salt stress in Arabidopsis. Plant and Cell Physiology,59: 978–988.
  3. Zheng Z, Li J, Ma PF, Ren LF, Bai WM, Tian QY, Zhang WH*. 2018. Arbuscular mycorrhizal fungal communities associated with two dominant species differed in their responses to long-term nitrogen addition in temperate grasslands.Functional Ecology,32: 1575–1688.
  4. Zhou M, Bai WM*, Zhang YS, Zhang WH*. 2018. A Multi-dimensional variation pattern of root traits among coexisting herbaceous species in temperate steppes. Journal of Ecology, 106: 2320–2331.

2017

  1. Wang TZ, Zhao MG, Zhang XX, Liu M, Yang C, Chen, RJ, Wen JQ, Mysore KS, Zhang WH*.2017. Novel phosphate deficiency-responsive long non-coding RNAs in a legume model plant Medicago truncatula. Journal of Experimental Botany, 68: 5937–5948.
  2. Li Q, Yang A, Zhang WH*. 2017. Comparative studies on tolerance of rice genotypes differing in their tolerance to moderate salt stress. BMC Plant Biology, 17: 141.
  3. Wang BL, Wei HF, Xue Z, Zhang WH*. 2017. Gibberellins regulate iron deficiency- response by influencing iron transport and translocation in rice seedlings (Oryza sativa). Annals of Botany, 119: 945–956.
  4. Bai WM, Zhou M, Fang Y, Zhang WH*.2017. Differences in spatial and temporal root lifespan of three Stipa grasslands in northern China. Biogeochemistry, 132:293–306.

2016

  1. Tian QY, Liu NN, Bai WM, Li LH, Chen JQ, Reich PB, Yu Q, Guo DL, Smith MD, Knapp AK, Cheng WX, Lu P, Gao Y, Yang A, Wang TZ, Li X, Wang ZW, Ma YB, Han XG, Zhang WH*. 2016. A novel soil manganese mechanism drives plant species loss with increased nitrogen deposition in a temperate steppe. Ecology,97: 65–74.
  2. Dai XY, Wang YY, Zhang WH*. 2016. OsWRKY74, a WRKY transcription factor modulates tolerance to phosphate-starvation in rice. Journal of Experimental Botany, 67: 947–960.
  3. Li Q, Yang A, Zhang WH*.2016. Efficient acquisition of iron underlies greater tolerance to saline-alkaline stress in rice (Oryza sativa).Journal of Experimental Botany, 67: 6431–6444.
  4. Yang A, Zhang WH*.2016. A Small GTPase, OsRab6a, is involved in the regulation of iron homeostasis in rice. Plant and Cell Physiology, 57: 1271–1280.
  5. Tian QY, Zhang XX, Yang A, Wang TZ, Zhang WH*. 2016. CIPK23 is involved in iron acquisition of Arabidopsis by affecting ferric chelate reductase activity. Plant Science,246: 70–79.
  6. Cheng Y, Tian QY,Zhang WH*.2016. Glutamate receptors are involved in mitigating effects of amino acids on seed germination of Arabidopsis thaliana under salt stress. Environmental and Experimental Botany,130: 68–78.
  7. Liu NN, Tian QY, Zhang WH*.2016. Artemisia frigida and Stipa krylovii, two dominant species in an Inner Mongolia steppe, differed in their responses to elevated atmospheric CO2 concentration. Plant and Soil,409:117–129.
  8. Zhang WH*, Luo ZB, Fan LM, Qu LJ. 2016. A glimpse of environmental plant science in China. Environmental and Experimental Botany, 129:1–3.
  9. Gao Y, Li X, Tian QY, Wang BL, Zhang WH*.2016. Sulfur deficiency had different effects on Medicago truncatula ecotypes A17 and R108 in terms of growth, root morphology and nutrient contents. Journal of Plant Nutrition, 39: 301–314.
  10. Qi SL, Lin QF, Zhu HS, Gao FH, Zhang WH, Hua XJ*. 2016. The RING Finger E3 ligase SpRing is a positive regulator of salt stress signaling in salt-tolerant wild tomato species.Plant and Cell Physiology, 57: 528–539.

2015及以前

  1. Wang BL, Li G, Zhang WH*.2015. Brassinosteroids are involved in Fe homeostasis in rice. Journal of Experimental Botany, 66: 2449–2461.
  2. Bai WM*, Guo DL, Tian QY, Liu NN, Cheng WX, Li LH, Zhang WH*.2015. Differential responses of grasses and forbs led to marked reduction in belowground productivity in temperate steppe following chronic N deposition. Journal of Ecology,103: 1570–1579.
  3. Bai WM, Fang Y, Zhou M, Xie T, Li LH, Zhang WH*. 2015. Heavily intensified grazing reduces root production in Inner Mongolia temperate steppe. Agriculture, Ecosystems and Environment, 200: 143–150.
  4. Wang TZ, Zhao MG, Chen RJ, Zhang WH*. 2015. Identification and characterization of long non-coding RNAs involved in osmotic and salt stress in Medicago truncatula using genome-wide high-throughput sequencing. BMC Plant Biology, 15:131.
  5. Tian QY, Liu NN, Bai WM, Li LH, Zhang WH*.2015. Disruption of metal ion homeostasis in soils is associated with nitrogen deposition-induced species loss in an Inner Mongolia steppe. Biogeosciences, 12:3499–3512.
  6. Liu M, Wang TZ, Zhang WH*.2015. Sodium extrusion associated with enhanced expression of SOS1 underlies different salt tolerance between Medicago falcata and Medicago truncatula seedlings. Environmental and Experimental Botany,110: 46–55.
  7. Sun YC, Guo HJ, Yuan L, Wei JN, Zhang WH, Ge F*. 2015. Plant stomatal closure improves aphid feeding under elevated CO2. Global Change Biology, 21: 2739–2748.
  8. Tian QY, Zhang XX, Ramesh S, Gilliham M, Tyerman SD, Zhang WH*. 2014. Ethylene negatively regulated aluminum-induced malate efflux from wheat roots and tobacco cells transformed with TaALMT1. Journal of Experimental Botany, 65: 2415–2426
  9. Wang TZ, Tian QY, Wang BL, Zhao MG,Zhang WH*. 2014. Genome variations account for different response to three mineral elements between Medicago truncatula ecotypes Jemalong A17 and R108. BMC Plant Biology, 14:122.
  10. Zhao MG, Liu WJ, Xia XZ, Wang TZ, Zhang WH*. 2014. Cold acclimation- induced freezing tolerance of Medicago truncatula seedlings is negatively regulated by ethylene.Physiologia Plantarum,152: 115–129.
  11. Gao Y, Tian QY*, Zhang WH*.2014. Systemic regulation of sulfur homeostasis in Medicago truncatula. Planta, 239:79–96.
  12. Li G., Wang BL, Tian QY, Wang TZ, Zhang WH*. 2014. Medicago truncatula ecotypes A17 and R108 differed in their response to iron deficiency.Journal of Plant Physiology,171: 639–647.
  13. Guo HJ, Sun YC*, Li YF, Liu XH, Zhang WH, Ge F. 2014. Elevated CO2 decreases the response of the ethylene signaling pathway in Medicago truncatula and increases the abundance of the pea aphid. New Phytologist,201: 279–291.
  14. Yang A, Li YS, Xu YY, Zhang WH*. 2013. A receptor-like protein OsRMC is involved in regulation of iron acquisition in rice. Journal of Experimental Botany,64:5009–5200.
  15. Wang TZ, Xia XZ, Zhao MG, Tian QY, Zhang WH*.2013. Expression of a Medicago falcata small GTPase gene, MfARL1 enhanced tolerance to salt stress in Arabidopsis thaliana. Plant Physiology and Biochemistry, 63:277–285.
  16. Wang TZ, Zhang JL, Tian QY, Zhao MG, Zhang WH*. 2013. A Medicago truncatula EF-hand family gene, MtCaMP1, is involved in drought and salt stress tolerance. PLoS ONE, 8: e58952.
  17. Tian QY, Zhang XX, Gao Y, Bai WM, Ge F, Ma YB, Zhang WH*. 2013. Wheat genotypes differing in aluminum tolerance differ in their growth response to CO2 enrichment in acid soils. Ecology & Evolution, 3: 1440–1448.
  18. Ren HY, Xu ZW, Zhang WH, Jiang L, Huang JH*, Chen SP, Wang LX, Han XG. 2013. Linking ethylene to nitrogen-dependent leaf longevity of grass species in a temperate steppe. Annals of Botany,112: 1879–1885.
  19. Lu P, Wang L, Niu Z, Li LH, Zhang WH. 2013. Prediction of soil properties using laboratory VIS–NIR spectroscopy and Hyperion imagery. Journal of Geochemical Exploration,132:26–33.
  20. Dai XY, Wang YY, Yang A,Zhang WH*. 2012. OsMYB2P-1, a R2R3 MYB transcription factor, regulates phosphate-starvation responses and root architecture in rice. Plant Physiology,159: 169–183.
  21. Yang A, Dai XY, Zhang WH*. 2012. A R2R3-type MYB gene, OsMYB2, is involved in salt, cold and dehydration tolerance in rice.Journal of Experimental Botany, 63: 2541–2556.
  22. Song SY, Dai XY, Zhang WH*.2012. The involvement of F-box gene, OsFXB352, in glucose-dependent seed germination in rice. Journal of Experimental Botany,63: 5559–5568.
  23. Chen L, Wang TZ, Zhao MG, Tian QY, Zhang WH*. 2012. Identification of aluminum-responsive microRNAs in Medicago truncatula by genome-wide high-throughput sequencing. Planta, 235: 375–386.
  24. Wang BL, Li YS, Zhang WH*. 2012. Brassinosteroids are involved in the regulation of ferric reductase and Fe uptake in cucumber (Cucumis sativus).Annals of Botany,110:681–688.
  25. Song SY#, Chen Y#, Zhao MG, Zhang WH*. 2012. A novel Medicago truncatula HD-Zip gene, MtHB2, is involved in abiotic stress responses. Environmental and Experimental Botany, 80:1–9.
  26. Chen L, Wang TZ, Zhao MG*, Zhang WH.2012. Ethylene-responsive miRNAs in roots of Medicago truncatula identified by high-throughput sequencing at whole genome level. Plant Science,184: 14–19.
  27. Bai WM, Xia JY, Wan SQ, Zhang WH, Li LH*. 2012. Day and night warming have different effect on root lifespan.Biogeosciences,9: 375–384.
  28. Yang XJ, Baskin C, Baskin J, Zhang WH, Huang ZY*. 2012. Degradation of seed mucilage by soil microflora promotes early seedling growth of a desert sand dune plant. Plant Cell and Environment, 35:872–883.
  29. Fang Y, Xun F, Bai WM*, Zhang WH, Li LH. 2012. Long-term nitrogen addition leads to loss of species richness due to litter accumulation and soil acidification in a temperate steppe. PLoS ONE,7: e4736.
  30. Song SY#, Chen Y#, Chen J, Dai XY, Zhang WH*.2011. Physiological mechanisms underlying OsNAC5-dependent tolerance of rice plants to abiotic stress. Planta,234: 331–345.
  31. Zhang LL, Zhao MG, Tian QY, Zhang WH*. 2011. Comparative studies on tolerance of Medicago truncatula and Medicago falcata to freezing. Planta,234: 445–457.
  32. Wang TZ, Chen L, Zhao MG, Tian QY,Zhang WH*. 2011. Identification of drought-responsive microRNAs and their targets in Medicago truncatula by genome-wide high-throughput sequencing. BMC Genomics, 12:367.
  33. Li YS, Gao Y, Tian QY, Shi FL*, Li LH, Zhang WH*.2011. Stimulation of root acid phosphatase by phosphorus deficiency is regulated by ethylene in Medicago falcata.Environmental and Experimental Botany,71: 114–120.
  34. Wang BL. Zhang JL, Xia XZ, Zhang WH*. 2011. Ameliorative effect of brassinosteroid and ethylene on germination of cucumber seeds in the presence of sodium chloride.Plant Growth Regulation,65: 407–413.
  35. Ryan PR*, Tyerman SD, Sasaki T, Yamamoto Y, Zhang WH, Delhaize E. 2011. Aluminum resistance in plants: Opinions and perspectives on recent developments. Journal of Experimental Botany,62:920.
  36. Yang XJ, Zhang WH, Dong M, Huang ZY*, Boubriak I. 2011. The achene mucilage hydrated in desert dew assists seed cells in maintaining DNA integrity: Adaptive strategy of desert plants Artemisia sphaerocephala. PLoS ONE, 6: e24346.
  37. Li Y, Yang HJ, Xia JY, Zhang WH, Li LH, Wan SQ. 2011. Effects of increased nitrogen deposition and precipitation on seeds and seedlings of Potentilla tanacetifolia in a temperate steppe ecosystem. PLoS ONE, 6: e28601.
  38. Sun P#, Tian QY#, Chen J, Zhang WH*.2010. Aluminum-induced inhibition of root elongation in Arabidopsis is mediated by ethylene and auxin. Journal of Experimental Botany, 61: 347356.
  39. Bai WM, Wan SQ, Niu SL, Liu WX, Chen QS, Wang QB, Zhang WH, Han XG, Li LH*. 2010. Increased temperature and precipitation interact to affect root production, mortality, and turnover in a temperate steppe: Implications for ecosystem C cycling.Global Change Biology,16:13061316.
  40. Wang BL, Shi L, Li YX, Zhang WH*.2011. Boron toxicity is alleviated by hydrogen sulfide in cucumber (Cucumis sativus) seedlings. Planta,231: 13011309.
  41. Miao BH, Han XG,Zhang WH*.2010. Ameliorative effect of silicon on soybean seedlings grown in potassium deficient medium.Annals of Botany,105:967973.
  42. Chang CS, Wang BL, Shi L, Li YX, Duo LA*,Zhang WH*. 2010. Alleviation of salt stress-induced inhibition of seed germination in cucumber (Cucumis sativus) by ethylene and glutamate. Journal of Plant Physiology,167: 11521156.
  43. Wang BL, Tang XY, Cheng LY, Zhang AZ, Zhang WH, Zhang FS, Liu JQ, Cao Y, Allan DL, Vance CP, Shen JB*. 2010. Nitric oxide is involved in phosphorus deficiency-induced cluster root development and citrate exudation in white lupin. New Phytologist,187: 11121123.
  44. Bai WM Li Y, Zhang WH, Li LH*. 2010. Rhizome severing increases root lifespan of Leymus chinensis in a typical steppe of Inner Mongolia.PLoS ONE, 5: e12125.
  45. Zhao MG, Chen L, Zhang LL, Zhang WH*. 2009. Nitric oxide synthase–dependent nitric oxide production is associated with salt tolerance in Arabidopsis. Plant Physiology, 151: 755767.
  46. Tian QY, Sun P, Zhang WH*.2009. Ethylene is involved in mediating nitrate-dependent root branching in Arabidopsis. New Phytologist,184:918931.
  47. Li YS, Mao XT, Tian QY, Li LH,Zhang WH*.2009. Phosphorus deficiency-induced reduction in root hydraulic conductivity is mediated by ethylene in Medicago falcata.Environmental and Experimental Botany, 67: 172177.
  48. Zhao MG, Liu RJ, Chen L, Tian QY,Zhang WH*. 2009. Glucose-induced inhibition of seed germination in Lotus japonicus is alleviated by nitric oxide and spermine.Journal of Plant Physiology,166: 213218.
  49. Mao SY, Jiang CD*, Zhang WH, Shi L*, Zhang JZ, Chow WS, Yang JC. 2009. Water translocation between ramets of strawberry during soil drying and its effects on photosynthetic performance. Physiologia Plantarum,137:225–234.
  50. Zhang WH, Ryan PR, Sasaki T, Yamamoto Y, Sullivan W, Tyerman SD*. 2008. Ccharacterization of the TaALMT1 protein as an Al3+-activated anion channel in transformed tobacco (Nicotiana tabacum) cells. Plant and Cell Physiology,49: 13161330.
  51. Bai WM, Wang ZW, Chen QS, Zhang WH, Li LH*. 2008. Spatial and temporal effects of nitrogen addition on root lifespan of Leymus chinensis in a typical Inner Mongolia. Functional Ecology,22: 583591.
  52. Tian QY, Sun DH, Zhao MG, Zhang WH*.2007. Inhibition of nitric oxide synthase (NOS) underlies aluminum-induced inhibition of root elongation in Hibiscus moscheutos.New Phytologist,174: 322331.
  53. Zhao MG, Tian QY, Zhang WH*.2007. Ethylene activates a plasma membrane Ca2+-permeable channel in tobacco cells. New Phytologist,174:507515.
  54. Zhao MG#, Tian QY#,Zhang WH*. 2007. Nitric oxide synthase–dependent nitric oxide production is associated with salt tolerance in Arabidopsis.Plant Physiology, 144:206217.
  55. Zhao DY, Tian QY, Li LH, Zhang WH*.2007. Nitric oxide is involved in nitrate-induced inhibition of root elongation in Zea mays L.Annals of Botany,100:497503.
  56. Sun P, Tian QY, Zhao MG, Dai XY, Li LH, Huang JH, Zhang WH*.2007. Aluminum-induced ethylene production is associated with inhibition of root elongation in Lotus japonicus L.Plant and Cell Physiology,48:12291235.
  57. Zhang WH,Zhou Y, Dibley KE, Tyerman SD, Furbank RT, Patrick JW*. 2007. Nutrient loading of developing seeds.Functional Plant Biology, 34:314331.
  58. Zhang WH*, Patrick JW, Tyerman SD. 2007. Actin filaments modulate hypoosmotic- responsive K+ efflux channels in specialized cells of developing bean seed coats.Functional Plant Biology,34: 874884.
  59. Wang BL, Shen JB*,Zhang WH, Zhang FS,Neumann G.2007. Citrate exudation from white lupin induced by phosphorus deficiency differs from that induced by aluminum.New Phytologist,176: 581589.
  60. Yuan ZY, Li LH*, Han XG, Wan SQ, Zhang WH.2005. Variation in nitrogen economy of two Stipa species in the semiarid region of northern China.Journal of Arid Environment,61:1325.
  61. Yuan ZY, Li LH*, Han XG, Huang JH, Jiang GM, Wan SQ, Zhang WH, Chen QS. 2005. Nitrogen resportion from senescing leaves in 28 plant species in a semi-arid region of northern China. Journal of Arid Environment,63:191–202.
  62. Zhang WH*, Walker NA, Tyerman SD, Patrick JW. 2004. Pulsing Cl- currents in seed coat cells of developing bean seeds linked to hyperosmotic turgor regulation. Journal of Experimental Botany,55: 993100.
  63. Zhang WH*,Walker NA, Patrick JW, Tyerman SD. 2004. Calcium-dependent K+ current in plasma membrane of dermal cells of developing bean cotyledons. Plant Cell and Environment,27: 251262.
  64. Zhang WH,Ryan PR, Tyerman SD*. 2004. Citrate-permeable anion channels in the plasma membranes of cluster roots from white lupin. Plant Physiology,136: 37713783.
  65. Rengel Z*, Zhang WH. 2003. Tansley Review: Role of dynamics of intracellular calcium in aluminium toxicity syndrome. New Phytologist, 159: 295–314.
  66. Zhang WH*, Skerrett M, Walker NA, Patrick JW, Tyerman SD. 2002. Non-selective currents and channels in plasma membrane of coat cells in developing Phaseolus vulgaris L. seeds. Plant Physiology, 128: 388–399.
  67. Zhang WH*, Ryan PR, Tyerman SD. 2001. Malate-permeable channels and cation channels activated by aluminium in the apical cells of wheat root roots. Plant Physiology, 125: 1459–1472.
  68. Patrick JW*, Zhang WH, Tyerman SD, Offler CE, Walker NA. 2001. Role of membrane transport in phloem translocation of assimilates and water. Australian Journal of Plant Physiology, 28: 695–707.
  69. Walker NA*, Zhang WH, Holdways N, Harrigton G, Patrick, JW. 2000. Effluxes of solutes from developing seed coats of Phaseolus vulgaris L. and Vicia faba L.: locating the effects of turgor in a coupled chemisosmotic system. Journal of Experimental Botany, 52: 1037–1045.
  70. Zhang WH*, Walker NA, Tyerman SD, Patrick JW. 2000. Fast-activation of time-dependent outward current in plasma membrane of ground parenchyma protoplasts derived from coats of developing Phaseolus vulgaris seeds. Planta, 211: 894–898.
  71. Zhang WH, Rengel Z*. 1999. Aluminium induces an increase in cytoplasmic Ca2+ in intact wheat roots. Australian Journal of Plant Physiology, 26: 401-409.
  72. Zhang WH*, Tyerman SD. 1999. Inhibition of water channels by Hg in intact wheat root cells. Plant Physiology, 120: 849–858.
  73. Zhang WH, Rengel Z*, Kuo J, Yang G. 1999. Effects of aluminium on pollen germination and pollen tube growth of Chamelaucium uncinatum: Comparison with other Ca2+ channel antagonists. Annals of Botany, 84: 559–564.
  74. Zhang WH, Rengel Z*, Kuo J. 1998. Determination of intracellular Ca2+ in cells of intact wheat roots: loading of acetoxymethy ester of Fluo-3 under low temperature. Plant Journal,15: 147–151.
  75. Zhang WH*, Tyerman SD. 1997. Effect of low O2 concentration on electrical properties of cortical cells of wheat roots. Journal of Plant Physiology,150: 567–572.
  76. Zhang WH*, Walker NA, Patrick JW, Tyerman SD.1997. Mechanisms of solute efflux from seed coats: Whole-cell K+ current in transfer cell protoplasts derived from seed coats of developing Vicia seeds. Journal of Experimental Botany,48: 1565–1572.
  77. Zhang WH, Atwell JB, Patrick JW, Walker NA. 1996. Turgor-dependent assimilates efflux from coats of developing Phaseolus vulgaris L. seeds: Water relations of the cells involved in efflux. Planta,119:25–33.
  78. Zhang WH*, Jones GP. 1996. Water permeability in wheat root protoplasts determinedfrom nuclear magnetic resonance relaxation times. Plant Science, 118: 97–106.
  79. Walker NA, Patrick JW, Zhang WH, Fieuw S. 1995. Efflux of photosynthate and acid from developing seed coats of Phaseolus vulgaris L.: A chemiosmotic analysis of pump-driven efflux. Journal of Experimental Botany, 46: 539–549.
  80. Zhang WH*, Tyerman SD. 1991. Effect of low O2 concentration and azide on hydraulic conductivity and osmotic volume of the cortical cells of wheat roots. Australian Journal of Plant Physiology,18: 603–613.

牧草品种

  1. 中科1号紫花苜蓿(蒙审-018-2020张文浩、王天佐、白文明、任立飞、侯龙鱼
  2. 中科2号紫花苜蓿(蒙审-019-2020张文浩、王天佐、白文明、任丽昀、任立飞
  3. 中科1号花苜蓿(蒙审-017-2020王天佐、张文浩、任立飞、白文明、杨安
  4. 浑善达克羊草(蒙认-006-2024)张文浩、白文明、侯龙鱼、任立飞、李国才、刘芳、林国辉、李鑫、任丽昀、顾雪莹

授权专利

  1. 张文浩、赵敏桂、任立飞、田睿、孙晓涵:一种调控植物可溶性糖含量的lncRNA及其应用。中国,授权公告日:20231205日;专利号:ZL 2021 1 1440649.1
  2. 张文浩、侯龙鱼、白文明、潘庆民、宋世环、张强强、任立飞、陶金;利用牛尿制作的冰肥及其制备方法和改良草地的方法。中国,授权公告日:20211217日;专利号:ZL 2019 1 0636727.1
  3. 张文浩、侯龙鱼、白文明、潘庆民、宋世环、张强强、任立飞、陶金;肥料促进剂、肥料组合物和燕麦施肥方法。中国,中国,授权公告日:20210824日;专利号:ZL 2019 1 0636050.1
  4. 张文浩、侯龙鱼、白文明、潘庆民、宋世环; 一种高纬度寒区燕麦草的种植方法。中国,授权公告日:20210202日;专利号:ZL 2018 1 0140693.2
  5. 张文浩、侯龙鱼、白文明、潘庆民、宋世环;一种高纬度寒区苜蓿高产光调控种植方法。中国,授权公告日:20201110 日;专利号:ZL 2018 1 0140692.8
  6. 张文浩、侯龙鱼、白文明、潘庆民、宋世环、张强强、任立飞;干牛粪腐熟诱导剂及改良草地的方法。中国,中国,授权公告日:20201027日;专利号:ZL 2019 1 0636035.7
  7. 张文浩、侯龙鱼、白文明、潘庆民、宋世环;一种高纬度寒区苜蓿草光肥调控种植方法。中国,授权公告日:20200202日;专利号:ZL 2018 1 0140526.8
  8. 张文浩、田秋英、张欣欣;AtCIPK23 基因在提高植物耐低铁能力中的应用。中国,授权公告日:20190518日;专利号:ZL 2015 1  0246131.2
  9. 张文浩、白文明、毛小涛、王天佐、任立飞、杨安、田秋英、王宝兰、李文超、李陵浩;一种增加苜蓿产量和提高苜蓿品质的方法。中国,授权公告日:20181018日;专利号:ZL 2015 1 0741935.X
  10. 张文浩、王天佐:一种植物生长调节剂及其应用。中国,授权公告日;20180413日专利号:ZL 2015 1 0416926.3
  11. 张文浩、赵敏桂、刘文景;MtSKL1 蛋白及其编码基因在控制植物性状中的应用。中国,授权公告日:20140319日;专利号:ZL 2012 1   0457468.4
  12. 张文浩、杨安;应用OsRMC蛋白培育铁吸收能力增加的转基因植物的方法。中国,授权公告日:20140312日;专利号:ZL 2013 1 0002480.11
  13. 张文浩、王宝兰、李银心;促进低磷胁迫条件下黄瓜生长的方法及专用植物生长调节剂组合物。中国,授权公告日:20131009日专利号:  ZL 2010 1 0289297.X
  14. 张文浩、王宝兰、李银心;植物生长调节剂组合物及其应用。中国,授权公告日:20130626日专利号:ZL 2010 1 0289289.5
  15. 张文浩、李银心、王宝兰; 一种促进黄瓜生长的方法及其专用培养基。中国,授权公告日:20111019; 专利号:ZL 2009 1 0076246.6