宋彬:博士,副教授,硕士生导师
沈阳农业大学生物科学技术学院
地址:沈阳市沈河区东陵路120号,110866
E-mail:bsong@syau.edu.cn
主要研究方向为土壤碳循环与土壤微生物,在Soil Biology and Biochemistry、Geoderma、Journal of Hazardous Materials等国内外学术期刊参与发表论文30余篇。
研究方向聚焦环境胁迫下的作物-土壤-微生物互作机制,特别关注土壤微生物功能的调控与环境适应性。在近5年内,在Soil Biology and Biochemistry、Geoderma、Journal of Hazardous Materials等国内外学术期刊参与发表论文30余篇,其中第一作者或通讯作者SCI论文12篇,总影响因子达76.2,包括热点文章1篇和高被引文章3篇。主持国家重点研发计划子课题、江苏省“双创博士”项目等多项科研项目。担任Frontiers in Plant Science客座编辑,并长期为Soil Biology and Biochemistry、Agriculture, Ecosystems and Environment等国际期刊审稿。
学习和工作经历
2025.01-,沈阳农业大学,副教授
2023.01-2024.12年,赫尔辛基大学,博士后
2020.09-2024.12年,南京大学,博士后
2017.06-2018.02,德国亥姆霍兹慕尼黑中心,科研助理
2015.10-2020.07,德国哥廷根大学,生物学博士
2011.09-2015.06,西北农林科技大学,生态学硕士
2007.09-2011.06,山西农业大学林学,林学
主持或参加的科研项目/课题
(1)江苏省农业科学院,委托研究, 020915100009,农田微生物多样性监测评价与干预调控研究, 2022-04至2024-06, 40万元,主持
(2)江苏省人力资源和社会保障厅,江苏省博士后日常资助, 2021Z016,不同年代品种水稻根际真菌群落对不同施肥模式的响应研究, 2021-10至2022-10, 16万元,主持
(3)国家自然科学基金,面上项目, 3227150061,节节麦-小麦导入系本底遗传和根系微生物群落协同抗旱机理研究, 2024-01至2027-12, 50万元,骨干
(4)科技部,国家重点研发计划,国土空间多要素综合观测与感知关键技术, 2022YFC3800802, 2022-11至2025-10, 45万元,骨干
(5)欧盟自然科学项目,欧盟联合项目, Priority Program 1685 project, 2011-01至现在, 120万欧元,参加
(6) German Science Foundation(德国科学基金会),重大, PE 2256/1-1, DFG生物多样性探索项目, 2017-03至2019-03, 150万元,参加
(7)国家自然科学基金委员会,面上项目, 31070570,秦岭山地生态修复及功能调控, 2010-01至2015-12, 60万元,结题,参加
(8)林业公益性行业科研专项, 201104045,干旱区城市森林质量评估及空间配置技术研究, 2009-01至2016-12, 120万元,结题,参加
科研成果
1)Liu, Z., Kuzyakov, Y., Fang, J., He, Y.,Song, B*., Razavi, B.S., Adams, J.M., 2025. Hotspots of enzyme activities reflect micro-scale heterogeneity in nutrient mobilization in paddy soils. Plant and Soil.
2)Yang, R.,Song, B*., Xu, L., 2025. Soil core taxa and their regulatory microbial competition determine wheat health under warming fluctuations. Plant and Soil.
3)Guo, Y., Kuzyakov, Y., Li, N.,Song, B., Liu, Z., Adams, J.M., Yang, L., 2025. Rice rhizosphere microbiome is more diverse but less variable along environmental gradients compared to bulk soil. Plant and Soil 506, 767-785.
4)Fang, J., Liu, Z., Deng, Y.,Song, B*., Adams, J.M., 2024. Key microbial taxa play essential roles in maintaining soil muti-nutrient cycling following an extreme drought event in ecological buffer zones along the Yangtze River. Frontiers in Plant Science 15.
5)Fang, J., Liu, Z., Deng, Y.,Song, B*., Li, X., Adams, J.M., 2024. Threshold effects of soil pH regulate the biogeography of bacterial communities in inland wetlands across eastern China. Soil Ecology Letters 7, 240274.
6)Song, B., Fang, J., Yu, Z., Liu, Z., Li, N., Pena, R., Hu, Z., Xu, Z., Adams, J.M., Razavi, B.S., 2024. The development of biological soil crust along the time series is mediated by archaeal communities. Geoderma 449, 117022.
7)Song, B., Li, Y., Yu, Z., Jin, J., Liu, Z., Yang, R., Adams, J.M., Razavi, B.S., 2024. Changes in enzyme activity, structure and growth strategies of the rhizosphere microbiome influenced by elevated temperature and CO2. Science of the Total Environment 954, 176522.
8)Song, B., Xue, Y., Yu, Z., He, Y., Liu, Z., Fang, J., Wang, Y., Adams, J.M., Hu, Y., Razavi, B.S., 2024. Toxic metal contamination effects mediated by hotspot intensity of soil enzymes and microbial community structure. Journal of Hazardous Materials 466, 133556.
9)Liu, Z., Fang, J., He, Y., Bending, G.D.,Song, B*., Guo, Y., Wang, X., Fang, Z., Adams, J.M., 2024. Distinct biogeographic patterns in Glomeromycotinian and Mucoromycotinian arbuscular mycorrhizal fungi across China: A meta-analysis. Science of the Total Environment 912, 168907.
10)Wang, X., Fang, J., Li, L., Li, X., Liu, P.,Song, B., Adams, J., Xiao, Y., Fang, Z., 2024.Gongronella sp. w5 hydrolyzes plant sucrose and releases fructose to recruit phosphate-solubilizing bacteria to provide plants with phosphorus. Applied and Environmental Microbiology 90, e00534-00524.
11)Zhang, L.-X., Zhou, B.,Song, B., Zhao, C., Adams, J.M., Xu, Z., 2024. Significant carbon isotopic fractionation during early formation of biological soil crusts with indications for dryland carbon cycling. iScience 27.
12)Song, B., Shang, S., Cai, F.M., Liu, Z., Fang, J., li, N., Adams, J.M., Razavi, B.S., 2023. Microbial resistance in rhizosphere hotspots under biodegradable and conventional microplastic amendment: Community and functional sensitivity. Soil Biology and Biochemistry 180, 108989.
13)Liu, Z., Fang, J.,Song, B., Yang, Y., Yu, Z., Hu, J., Dong, K., Takahashi, K., Adams, J.M., 2023. Stochastic processes dominate soil arbuscular mycorrhizal fungal community assembly along an elevation gradient in central Japan. Science of the Total Environment 855, 158941.
14)Liu, Z., Yu, Z.,Song, B., Li, Y., Fang, J., Guo, Y., Jin, J., Adams, J.M., 2023. Elevated CO2and temperature increase arbuscular mycorrhizal fungal diversity, but decrease root colonization, in maize and wheat. Science of the Total Environment 873, 162321.
15)Pang, G., Li, X., Ding, M., Jiang, S., Chen, P., Zhao, Z., Gao, R.,Song, B., Xu, X., Shen, Q., Cai, F.M., Druzhinina, I.S., 2023. The distinct plastisphere microbiome in the terrestrial-marine ecotone is a reservoir for putative degraders of petroleum-based polymers. Journal of Hazardous Materials 453, 131399.
16)Wang, Y., Dong, L., Zhang, M., Cui, Y., Bai, X.,Song, B., Zhang, J., Yu, X., 2023. Dynamic microbial community composition, co-occurrence pattern and assembly in rhizosphere and bulk soils along a coniferous plantation chronosequence. Catena 223, 106914.
17)Yang, Y., Liu, W., Adams, J.M.,Song, B., 2023. Snow-cover loss attenuates the effects of N addition on desert nutrient cycling and microbial community. Frontiers in Plant Science 14.
18)Song, B., Razavi, B.S., Pena, R., 2022. Contrasting distribution of enzyme activities in the rhizosphere of European beech and Norway spruce. Frontiers in Plant Science 13.
19)Zhou, J., Gube, M., Holz, M.,Song, B., Shan, I., Shi, L., Kuzyakov, Y., Dippold, M.A., Pausch, J., 2022. Ectomycorrhizal and non-mycorrhizal rhizosphere fungi increase root-derived C input to soil and modify enzyme activities: A 14C pulse labelling of Picea abies seedlings. Plant, Cell & Environment 45, 3122-3133.
20)Guo, Y.,Song, B., Li, A., Wu, Q., Huang, H., Li, N., Yang, Y., Adams, J.M., Yang, L., 2022. Higher pH is associated with enhanced co-occurrence network complexity, stability and nutrient cycling functions in the rice rhizosphere microbiome. Environmental Microbiology 24, 6200-6219.
21)Clausing, S., Pena, R.,Song, B., Müller, K., Mayer-Gruner, P., Marhan, S., Grafe, M., Schulz, S., Krüger, J., Lang, F., Schloter, M., Kandeler, E., Polle, A., 2021. Carbohydrate depletion in roots impedes phosphorus nutrition in young forest trees. New Phytologist 229, 2611-2624.
22)Nguyen, D.Q., Schneider, D., Brinkmann, N.,Song, B., Janz, D., Schöning, I., Daniel, R., Pena, R., Polle, A., 2020. Soil and root nutrient chemistry structure root-associated fungal assemblages in temperate forests. Environmental Microbiology 22, 3081-3095.
23)Hu, Y., Wang, D., Wei, L.,Song, B., 2014a. Heavy metal contamination of urban topsoils in a typical region of Loess Plateau, China. Journal of Soils and Sediments 14, 928-935.
24)Hu, Y., Wang, D., Wei, L., Zhang, X.,Song, B., 2014b. Bioaccumulation of heavy metals in plant leaves from Yan׳an city of the Loess Plateau, China. Ecotoxicology and Environmental Safety 110, 82-88.
25)Song, B., Clausing, S., Pritsch, K., Pena, R., 2019. Effect of carbon limitation on ectomycorrhizal fungal enzyme activities under different phosphorus availability, p. 16785.
26)宋彬,王得祥,张义,刘红茹. (2015). 13种园林树种叶片解剖结构与其二氧化硫吸收能力的关系.西北植物学报(6), 1206-1214.
27)宋彬,张义,王得祥,刘红茹,徐勇. (2015).西宁市22种城市森林植物叶片解剖结构的抗旱性分析.西北林学院学报(5), 68-74.
28)宋彬,王得祥,张义,胡有宁. (2014).延安15种园林树种叶片硫含量特征分析.西北农林科技大学学报(自然科学版)(5), 91-96.
