2022
Fan B#, Liming Yin#, FA Dijkstra, J Lu, S Shao, P Wang, Q Wang, W Cheng. 2022. Potential gross nitrogen mineralization and its linkage with microbial respiration along a forest transect in eastern China. Applied Soil Ecology, 171. https://doi.org/10.1016/j.apsoil.2021.104347 (# contributed equally).
Huo CF, Lu JY, Yin LM, Wang P*, Cheng WX. Coupled of carbon and nitrogen mineralization in rhizosphere soils along a temperate forest altitudinal gradient. Plant and Soil 2022, https://doi.org/10.1007/s11104-022-05611-1 (2区Top)
Huo CF, Lu JY, Yin LM, Wang P*, Cheng WX. Rhizosphere effects along an Altitudinal Gradient of the Changbai Mountain, China. Forests 2022, 13, 1104. https:// doi.org/10.3390/f13071104 (3区)
Huo CF, Gu JC, Yu LZ, Wang P*, Cheng WX. Temporal dynamics of fine root production, mortality and turnover deviate across branch orders in a larch stand. Oecologica 2022, https://doi.org/10.1007/s00442-022-05206-8 (2区Top)
Huo CF, Liang JY, Zhang WD*, Wang P*, Cheng WX. Priming effect and its regulating factors for fast and slow soil organic carbon pools: A meta-analysis. Pedosphere 2022, 32(1): 140-148 (2区)
Yan S, Liming Yin, FA Dijkstra, P Wang, W Cheng. 2023. Priming effect on soil carbon decomposition by root exudate surrogates: A meta-analysis. Soil Biology & Biochemistry, 178 https://doi.org/10.1016/j.soilbio.2023.108955
Lu J, J Yang, C Keitel, Liming Yin, P Wang, W Cheng. 2022. Belowground Carbon Efficiency for Nitrogen and Phosphorus Acquisition Varies Between Lolium perenne and Trifolium repens and Depends on Phosphorus Fertilization. Frontiers in Plant Sciences, 13: 927435.
Huo C, J Lu, Liming Yin, P Wang, W Cheng. 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.
Jiayu Lu; Feike A. Dijkstra; He Wang; Peng Wang*; Weixin Cheng; Rhizosphere priming effect of four non-woody perennials after leaf senescence and before shoot regrowth, Geoderma, 2022, 426: 116091.
Jiayu Lu; Jinfeng Yang; Claudia Keitel; Liming Yin; Peng Wang*; Weixin Cheng; Feike A. Dijkstra; Belowground carbon efficiency for nitrogen and phosphorus acquisition varies between Lolium perenne and Trifolium repens and depends on phosphorus fertilization, Frontiers in Plant Science, 2022, 13: 927435.
Ruzhen Wang; Jiayu Lu; Yong Jiang; Feike A. Dijkstra; Carbon efficiency for nutrient acquisition (CENA) by plants: role of nutrient availability and microbial symbionts, Plant and Soil, 2022, 476: 289-300.
Changfu Huo; Jiayu Lu; Liming Yin; Peng Wang*; Weixin Cheng; Coupled of carbon and nitrogen mineralization in rhizosphere soils along a temperate forest altitudinal gradient, Plant and Soil, 2022.
12、Changfu Huo; Jiayu Lu; Liming Yin; Peng Wang*; Weixin Cheng; Rhizosphere effects along an altitudinal gradient of the Changbai Mountain, China, Forests, 2022, 13: 1104.
2021
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 LM#, Zhang TS#, Dijkstra FA, Huo CF, Wang P*, Cheng WX. Priming effect varies with root order: A case of Cunninghamia lanceolata. Soil Biology & Biochemistry 2021, 160:108354. (#共同第一作者)
Yin Liming, T Zhang, FA Dijkstra, C Huo, P Wang, W Cheng. 2021. Priming effect varies with root order: A case of Cunninghamia lanceolata. Soil Biology & Biochemistry, 160. https://doi.org/10.1016/j.soilbio.2021.108354.
Yin Liming, FA Dijkstra, RP Phillips, B Zhu, P Wang, W Cheng. 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. https://doi.org/10.1016/j.soilbio.2021.108246.
2020
Yin Liming, W Xiao, FA Dijkstra, B Zhu, P Wang, W Cheng. 2020. Linking absorptive roots and their functional traits with rhizosphere priming of tree species. Soil Biology & Biochemistry, 150 https://doi.org/10.1016/j.soilbio.2020.107997.
Wang X#, Liming Yin#, FA Dijkstra, J Lu, P Wang, W Cheng. 2020. Rhizosphere priming is tightly associated with root-driven aggregate turnover. Soil Biology & Biochemistry, 149. https://doi.org/10.1016/j.soilbio.2020.107964 (# contributed equally).
Lu J, J Yang, C Keitel, Liming Yin, P Wang, W Cheng. 2020. Rhizosphere priming effects of Lolium perenne and Trifolium repens depend on phosphorus fertilization and biological nitrogen fixation. Soil Biology & Biochemistry, 150. https://doi.org/10.1016/j.soilbio.2020.108005.
Jiayu Lu; Jinfeng Yang; Claudia Keitel; Liming Yin; Peng Wang*; Weixin Cheng; Feike A. Dijkstra; Rhizosphere priming effects of Lolium perenne and Trifolium repens depend on phosphorus fertilization and biological nitrogen fixation, Soil Biology & Biochemistry, 2020, 150: 108005.
Xiaohong Wang#; Jiayu Lu#; Xiuwei Zhang; Peng Wang*; Contrasting microbial mechanisms of soil priming effects induced by crop residues depend on nitrogen availability and temperature, Applied Soil Ecology, 2021, 168: 104186.
Xiaohong Wang; Liming Yin; Feike A. Dijkstra; Jiayu Lu; Peng Wang*; Weixin Cheng; Rhizosphere priming is tightly associated with root-driven aggregate turnover, Soil Biology & Biochemistry, 2020, 149: 107964.
Xiaoguang Wang; Xiaotao Lv*; Haiyang Zhang; Feike A. Dijkstra; Yangao Jiang; Xiaobo Wang; Jiayu Lu; Wuyunna; Zhengwen Wang; Xingguo Han; Changes in soil C:N:P stoichiometry along an aridity gradient in drylands of northern China, Geoderma, 2020, 361: 114087
2019以前
Yin Liming, PE Corneo, A Richter, P Wang, W Cheng, FA Dijkstra. 2019. Variation in rhizosphere priming and microbial growth and carbon use efficiency caused by wheat genotypes and temperatures. Soil Biology & Biochemistry, 134: 54-61.
Bakhsandeh S, PE Corneo, Liming Yin, FA Dijkstra. 2019. Drought and heat stress reduce yield and alter rhizodeposition of different wheat genotypes. Journal of Agronomy and Crop Science, 205:157-167.
Ding Z, M Tang, X Chen, Liming Yin, H Gui, B Zhu. 2019. Measuring rhizosphere effects of two tree species in a temperate forest: A comprehensive method comparison. Rhizosphere, 10, 100153.
Yin Liming, FA Dijkstra, P Wang, B Zhu, W Cheng. 2018. Rhizosphere priming effects on soil carbon and nitrogen dynamics among tree species with and without intraspecific competition. New Phytologist, 218: 1036-1048.
Huo CF*, Cheng WX. Improved root turnover assessment using field scanning rhizotrons with branch order analysis. Ecosphere 2019, 10(8): e02793. (2区)
Jiayu Lu; Feike A. Dijkstra; Peng Wang; Weixin Cheng*; Roots of non-woody perennials accelerated long-term soil organic matter decomposition through biological and physical mechanisms, Soil Biology & Biochemistry, 2019, 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.
黄双双, 霍常富*, 谢宏图, 王朋, 程维信. 表层和下层免耕黑土有机碳矿化速率及激发效应. 应用生态学报 2019, 30(6): 1877-1884
Liang JY*, Zhou ZH, Huo CF, Shi Z, Cole JR, Konstantinidis KT, Luo ZK, Penton CR, Schuur E, Tiedje JM, Wang YP, Wu LY, Zhou JZ, Luo YQ*. More replenishment than priming loss of soil organic carbon with additional carbon input. Nature Communications 2018, 9: 3175
霍常富, 王朋, 陈龙池, 汪思龙*. 杉木人工林蓄积量和生态系统碳数量成熟龄的关系. 中南林业科技大学学报 2018, 38(9): 94-99
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.
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.
Jiayu Lu; Feike A. Dijkstra; Peng Wang; Weixin Cheng*; Rhizosphere priming of grassland species under different water and nitrogen conditions: a mechanistic hypothesis of C-N interactions, Plant and Soil, 2018, 429: 303-319.
Huo CF, Luo YQ, Cheng WX*. Rhizosphere priming effect meta-analysis. Soil Biology & Biochemistry 2017, 111:78-84. (1区Top)
Wang P*, Diao FW, Yin LM, Huo CF. Absorptive roots trait plasticity explains the variation of root foraging strategies in Cunninghamia lanceolata. Environmental and Experimental Botany 2016,129: 127-135
Wang P, F Diao, Liming Yin, C Huo. 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.
倪薇,霍常富,王朋*. 落叶松细根形态特征沿维度梯度的可塑性. 生态学杂志,2014,33(9):2322-2329
霍常富,程根伟*,鲁旭阳.中国西南山地森林演替模型的参数估计与模拟检验.东北林业大学学报,2012,40(10):78-83
霍常富,尤文忠*,张慧东,颜廷武,魏文俊,赵刚,郭锦山,邢兆凯.辽宁冰砬山不同林龄蒙古栎次生林生物量和生产力初探.辽宁林业科技,2011,(4):3-6
Huo CF, Cheng GW*, Lu XY, Fan JH. Simulating the effects of climate change on forest dynamics in Gongga Mountain, Southwest China. Journal of Forest research 2010,15(3):176-185 (4区)
霍常富,程根伟*,鲁旭阳,范继辉,肖飞鹏.气候变化对贡嘎山森林原生演替影响的模拟研究.北京林业大学学报,2010,32(1):1-6
霍常富,鲁旭阳,范继辉,程根伟*.林窗模型研究进展. 世界林业研究,2009,22(6):43-48
霍常富,孙海龙,王政权*,范志强,赵晓敏.光照和氮营养对水曲柳苗木生长及碳-氮代谢的影响.林业科学,2009,45(7):38-44
Lu XY, Cheng GW*, Xiao FP, Huo CF. Simulating Carbon Sequestration and GHGs Emissions in Abies fabric Forest on the Gongga Mountains Using a Biogeochemical Process Model Forest-DNDC. Journal of Mountain Science 2008, 5(3): 249-256
霍常富,王政权*,孙海龙,范志强,赵晓敏.光照和氮交互作用对水曲柳幼苗生长、生物量和氮分配的影响.应用生态学报,2008,19(8):1658-1664
霍常富,孙海龙,范志强,王政权*.根系氮吸收过程及其主要调节因子.应用生态学报,2007,18(6):1356-1364
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.
科研成果
