姓名:王朋
性别:男
职称:研究员/博士生导师
E - mail: wangpeng@iae.ac.cn
办公电话:024 – 83970452
办公地址:尊龙凯时人生就是搏z6com沈阳应用生态研究所2#侧楼405室
教育背景:
1993.09 - 2000.07 辽宁师范大学生物系理学学士、硕士
2005.09 - 2008.07 尊龙凯时人生就是搏z6com尊龙凯时人生就是搏z6com理学博士
工作履历:
2015.11–尊龙凯时人生就是搏z6com沈阳应用生态研究所工作,研究员
2006.11–2015.10尊龙凯时人生就是搏z6com沈阳应用生态研究所工作,副研究员
2000.07–2006.10尊龙凯时人生就是搏z6com沈阳应用生态研究所工作,研实、助研
研究领域:
1.生态系统地下生态过程:根际碳和养分矿化的激发效应、根系功能性状与地下多功能性
2.根分泌物生态学:根际沉积及其驱动的植物-微生物相互作用、根分泌物功能及植物化感作用(Allelopathy)
学术兼职
中国植物保护学会植物化感作用专业委员会委员秘书长(2017-)
中国生态学会化学生态学专业委员会(2012-)
奖励与荣誉
辽宁省自然科学二等奖(2023年)排名第二
辽宁省自然科学三等奖(2009年)排名第二
主持项目
国家基金委冻土专项课题,东北多年冻土有机碳稳定组分对模拟增温的响应, 2023-2027
中科院战略先导科技专项(A类),黑土地保护与利用科技创新工程,子课题,2021-2026
国家自然科学基金重点项目子课题,细根周转与菌根菌丝发育对地下碳分配的贡献, 2017 -2021
国家自然科学基金面上项目,杉木细根周转与根际激发对CO2浓度升高和氮沉降的响应, 2015-2018
中科院战略先导科技专项(B类)专题,根际激发效应对氮磷高效利用的影响与调控,2014-2019
国家自然科学基金面上项目,杉木细根养分捕获模式与可塑性机理, 2013-2016
国家重点基础研究发展计划(973计划)子课题,采伐更新方式对地下生态系统有机碳储量和林分蓄积量的影响, 2012 -2016
国家自然科学基金面上项目,群体感应信号分子及其拟态物质介导的化感水稻-根际细菌互作机制, 2010 -2012
学术成果
一、发表论文
Fan B, Yin L, Dijkstra FA, Lu, J, Shao S, Wang P*, Wang Q*, Cheng W. 2022. Potential gross nitrogen mineralization and its linkage with microbial respiration along a forest transect in eastern China. Applied Soil Ecology 171, 104347.
Huo C, Gu J, Yu L, Wang P*, Cheng W. 2022. Temporal dynamics of fine root production, mortality and turnover deviate across branch orders in a larch stand. Oecologia 199, 699-709.
Huo C, Liang J, Zhang W*, Wang P*, Cheng W. 2022. Priming effect and its regulating factors for fast and slow soil organic carbon pools: A meta-analysis. Pedosphere 32 (1), 140-148.
Huo C, Lu J, Yin L, Wang P*, Cheng W. 2022. Coupled of carbon and nitrogen mineralization in rhizosphere soils along a temperate forest altitudinal gradient. Plant and Soil https://doi.org/10.1007/s11104-022-05611-1.
Lu J, Dijkstra FA, Wang H, Wang P*, Cheng W. 2022. Rhizosphere priming effect of four non-woody perennials after leaf senescence and before shoot regrowth. Geoderma 426, 116091.
Lu J, Yang J, Keitel C, Yin L, Wang P* Cheng W, Dijkstra FA. 2022. Belowground Carbon Efficiency for Nitrogen and Phosphorus Acquisition Varies Between Lolium perenne and Trifolium repens and Depends on Phosphorus Fertilization. Frontiers in Plant Science 13, 927435.
Wang X, Lu J, Zhang X & Wang P*. 2021. Contrasting microbial mechanisms of soil priming effects induced by crop residues depend on nitrogen availability and temperature. Applied Soil Ecology 168, 104186.
Yin L, Dijkstra FA, Phillips RP, Zhu B, Wang P* & Cheng W. 2021. Arbuscular mycorrhizal trees cause a higher carbon to nitrogen ratio of soil organic matter decomposition via rhizosphere priming than ectomycorrhizal trees. Soil Biology & Biochemistry 157, 108246.
Yin L, Zhang T, Dijkstra FA, Huo C, Wang P* & Cheng W. 2021. Priming effect varies with root order: A case of Cunninghamia lanceolata. Soil Biology & Biochemistry 160, 108354.
Lu J, Yang J, Keitel C, Yin L, Wang P*, Cheng W. et al. 2020. Rhizosphere priming effects of Lolium perenne and Trifolium repens depend on phosphorus fertilization and biological nitrogen fixation. Soil Biology & Biochemistry 150, 108005.
Wang X, Yin L, Dijkstra FA, Lu J, Wang P* & Cheng W. 2020. Rhizosphere priming is tightly associated with root-driven aggregate turnover. Soil Biology & Biochemistry 149, 107964.
Yin L, Xiao W, Dijkstra FA, Zhu B*, Wang P* & Cheng W. 2020. Linking absorptive roots and their functional traits with rhizosphere priming of tree species. Soil Biology & Biochemistry 150, 107997.
Yin LM, Corneo PE, Richter A, Wang P*, Cheng WX & Dijkstra FA. 2019. Variation in rhizosphere priming and microbial growth and carbon use efficiency caused by wheat genotypes and temperatures. Soil Biology & Biochemistry 134, 54-61.
Lu JY, Dijkstra FA, Wang P*. & Cheng WX. 2019. Roots of non-woody perennials accelerated long-term soil organic matter decomposition through biological and physical mechanisms. Soil Biology & Biochemistry 134, 42-53.
Li RS, Zheng WH, Yang QP, Zhang WD, Chi YG, Wang P. et al. 2019. The response of soil respiration to thinning was not affected by understory removal in a Chinese fir (Cunninghamia lanceolata) plantation. Geoderma 353, 47-54.
Hou JF, Dijkstra FA, Zhang XW, Wang C, Lu XT, Wang P. et al. 2019. Aridity thresholds of soil microbial metabolic indices along a 3,200 km transect across arid and semi-arid regions in Northern China. PeerJ 7, e6712. doi: 10.7717/peerj.6712.
Yin L, Dijkstra FA, Wang P*, Zhu B, Cheng WX. 2018. Rhizosphere priming effects on soil carbon and nitrogen dynamics along tree species with and without intraspecific competition. New Phytologist 218, 1036-1048.
Zhang TX, Fan B, Wang P*. 2018. Barnyardgrass root recognition behaviour for rice allelopathy. Agronomy 8(4), 39, doi:10.3390/agronomy8040039.
Kou XC, Su TQ, Ma NN, Li Q*, Wang P*, Wu ZF, Liang WJ, Cheng WX. 2018. Soil micro-food web interactions and rhizosphere priming effect. Plant and Soil 432, 129-142.
Lu JY, Dijkstra FA, Wang P, Cheng WX*. 2018. Rhizosphere priming of grassland species under different water and nitrogen conditions: a mechanistic hypothesis of C-N interactions. Plant and Soil 429: 303-319.
Kong CH*, Zhang SZ, Li YH, Xia ZC, Yang XF, Meiners SJ. Wang P. 2018. Plant neighbor detection and allelochemical response are driven by root-secreted signaling chemicals. Nature Communications 9(1), 3867.
Wang P*, Diao FW, Yin LM, Huo CF. 2016. Absorptive roots trait plasticity explains the variation of root foraging strategies in Cunninghamia lanceolate. Environmental and Experimental Botany 129, 127-135.
Xia ZC, Kong CH, Chen LC, Wang P, Wang SL. A broadleaf species enhances an autotoxic conifers growth through belowground chemical interactions. Ecology 2016, 97, 2283-2292.
Dong HY, Kong CH, Wang P, Huang QL. 2014. Temporal variation of soil friedelin and microbial community under different land uses in a long-term agroecosystem. Soil Biology & Biochemistry 69, 275-281.
Sun B, Wang P, Kong CH. 2014. Plant-soil feedback in the interference of allelopathic rice with barnyardgrass. Plant and Soil 77, 309-321.
Chen LC, Wang SL, Wang P, Kong CH. 2014. Autoinhibition and soil allelochemical (cyclic dipeptide) levels in replanted Chinese fir (Cunninghamia lanceolata) plantations. Plant and Soil 374, 793-801.
Zhou B, Kong CH, Li YH, Wang P, and Xu XH. 2013. Crabgrass (Digitaria sanguinalis) allelochemicals that interfere with crop growth and the soil microbial community. Journal of Agricultural and Food Chemistry 61, 5310-5317.
Wang P*, Zhang XY, Kong CH. 2013. The response of allelopathic rice growth and microbial feedback to barnyardgrass infestation in a paddy field experiment. European Journal of Soil Biology 56, 26-32.
Wang P, Kong CH, Sun B, Xu XH. 2012. Distribution and function of allantoin (5-Ureidohydantoin) in rice grains. Journal of Agricultural and Food Chemistry 60, 2793-2798.
You LX, Wang P, Kong CH. 2011. The levels of jasmonic acid and salicylic acid in a rice-barnyardgrass coexistence system and their relation to rice allelochemicals. Biochemical Systematics and Ecology 39. 491-497.
Wang P, Kong CH, Sun B, Xu XH. 2010. Allantoin-induced changes of microbial diversity and community in rice soil. Plant and Soil, 332: 357-368.
Yang LX, Wang P, Kong CH. 2010. Effect of larch (Larix gmelini Rupr.) root exudates on Manchurian walnut (Juglans mandshurica Maxim.) growth and soil juglone in a mixed-species plantation. Plant and Soil 329, 249-258.
Kong CH, Chen LC, Xu XH, Wang P, Wang SL. 2008. Allelochemicals and activities in a replanted Chinese fir (Cunninghamia lanceolata (Lamb.) Hook) tree ecosystem. Journal of Agricultural and Food Chemistry 56, 11734-11739.
Kong CH, Wang P, Gu Y, Xu XH, Wang ML. 2008.The fate and impact on microorganism of rice allelochemical in paddy soil. Journal of Agricultural and Food Chemistry 56, 5043-5049.
Kong CH, Wang P, Zhao H, Xu XH. Zhu YD. 2008. Impact of allelochemical exuded from allelopathic rice on soil microbial community. Soil Biology & Biochemistry 40, 1862-1869.
Wang P, Kong CH, Hu F, Xu XH. 2007. Allantoin involved in species interactions with rice and other organisms in paddy soil. Plant and Soil 296, 43-51.
Kong CH, Wang P, Xu XH. 2007. Allelopathic interference of Ambrosia trifida with wheat (Triticumaestivum). Agriculture, Ecosystems and Environment 119(3-4), 416-420.
Wang P, Kong CH, Zhang CX. 2006. Chemical composition and antimicrobial activity of the essential oil from Ambrosia trifida L. Molecules 11 (7), 549-555.
Wang P, Liang WJ, Kong CH, Jing Y. 2005. Allelopathic potential of volatile allelochemicals of Ambrosia trifida L. on other plants. Allelopathy Journal 15 (1), 131-136.
Kong CH, Liang WJ, Xu XH, Hu F, Wang P, Jiang Y. 2004. Release and activity of allelochemicals from allelopathic rice seedlings. Journal of Agricultural and Food Chemistry 52, 2861-2865.
王朋, 梁文举, 孔垂华,姜勇, 张茂新, 张朝贤. 2004. 外来杂草入侵的化学机制. 应用生态学报, 15(4): 707-711.
二、出版著作
王朋.保护性耕作对玉米根系属性和土壤物理属性的影响.(解宏图主编.《东北地区保护性耕作技术研究》).北京:中国农业出版社.2023.
孔垂华,胡飞,王朋.植物化感(相生相克)作用.北京:高等教育出版社.2016.
王朋,孔垂华.微生物群体感应信号物质及其在植物-微生物相互关系中的作用.(孔垂华,娄永根主编.《化学生态学前沿》).北京:高等教育出版社.2010.