姜楠

地址:辽宁省沈阳市沈河区文化路72号永利娱高ylg060net.

  邮编:110016电话:024-83970357

  E-mail: jiangnan@iae.ac.cn

  简介:

  姜楠,女,1982年6月生,九三学社沈阳应用生态研究所支社委员。理学博士,现就职于永利娱高ylg060net, 土壤生态与农业生态工程研究中心, 研究员,辽宁沈阳农田生态系统国家野外科学观测研究站副站长,硕士研究生导师。

  教育背景:

  (1) 2004.9–2009.12,南开大学,微生物学,理学博士

  (2) 2000.9–2004.7,南开大学,生物技术,理学学士

  工作经历:

  2022.11-至今,永利娱高ylg060net,应用土壤生物化学组, 研究员

  2013.11-2022.11,永利娱高ylg060net,应用土壤生物化学组, 副研究员

  2013.4-2013.10,永利娱高ylg060net,应用土壤生物化学组,助理研究员

  2009.5-2013.3,中国科学院天津工业生物技术研究所,基因组分析,助理研究员

  研究课题:

  1.     中国科学院先导专项A类,XDA28090308,绿色种植技术体系集成示范, 2021/09-2026/08 423.59万元,在研,主持

  2.     国家自然科学基金面上基金项目,41877108,有机物料添加对长期单施化肥土壤磷酸单酯酶基因及其转录群落的修复机制,2019/01-2022/1273万元,在研,主持

  3.     国家自然科学基金面上基金项目,41471217,土壤磷酸单酯酶基因群落组成特征与磷转化关系研究,2015/01-2018/1289万元,已  结题,主持

  4.     横向课题,良渚古城遗址土壤性质和植被的调查研究,2020/01-2020/128万元,主持

  5.     国家973计划专题,2011CB100506,黑土养分和微生物转化与调控, 2013/01-2015/0860万元,已结题,参与

  6.     国家自然科学基金青年基金项目,31100061,漆酶在新型隐球酵母中调控相关蛋白的研究,2012/01-2014/1223万元,已结题,主  

  7.     国家863项目子课题,2012AA022101,工业微生物基因组及分子  改造,2012/11-2015/121223万元,已结题,骨干

  8.     天津市科技支撑重大项目,Y0M2171011,工业酶关键技术研究, 2010/10-2013/09500万元,已结题,参与

  9.     天津市科技支撑计划项目,10ZCKFSY05500,嗜热微生物的产酶筛选和全基因组测序,2010/01-2012/1280万元,已结题,骨干

  10.            中国科学院百人计划项目,KSCX2-YW-BR-3,新一代测序技术应用于工业生物技术发展,2010/01-2012/12200万元,已结题,骨干

  论文发表*为通讯作者,#为共同第一作者):

  1.              黄文晶,姜楠*,陈晓冬,孙楠,徐明岗,陈振华,张玉兰,陈利军. 长期施用化肥对土壤磷形态、磷酸酶活性及phoD基因丰度和多样性的影响。生态学杂志,2023

  2.              Jiang D, Jiang N, Jiang H, Chen LJ. Urease inhibitors increased soil ureC gene abundance and intracellular urease activity when extracellular urease activity was inhibited. Geoderma, 2023, 430.

  3.              Chen X, Li H, Leo Condron, Kari Dunfield, Steven Wakelin, Eduardo Mitter, Jiang N*. Long-term afforestation enhances stochastic processes of bacterial community assembly in a temperate grassland. Geoderma, 2023, 116317.

  4.              Liu X, Jiang N, Jing G, Wang S, Chen Z, Yulan Zhang YL. Amending biochar affected enzyme activities and nitrogen turnover in Phaeozem and Luvisol. GCB-Bioenergy. 2023.

  5.              Wang Y, Huang WJ, Han YQ, Huang XD, Wang C, Ma K, Kong MY, Jiang N*, Pan J*. Microbial diversity of archaeological ruins of Liangzhu City and its correlation with environmental factors. International Biodeterioration & Biodegradation, 2022, 175: 105501.

  6.              Jiahui Pu JH, Jiang N*, Zhang YL, Guo LL, Huang WJ, Chen LJ. Effects of various straw incorporation strategies on soil phosphorus fractions and transformations. GCB-Bioenergy. 2022. 15: 88-89.

  7.              Jiang N, Wei K, Zhang YL, Xie HT, Bao HX*, Chen LJ*. 2022. Effects of the reduction in chemical fertilizers on soil phosphatases encoding genes (phoD and phoX) under crop residue mulching. Applied Soil Ecology 175: 104428.

  8.              Wu G, Chen Z, Jiang D, Jiang N*, Jiang H, Chen LJ*. 2021. Oxidases and hydrolases mediate soil organic matter accumulation in chernozem of northeastern China. Geoderma 403: 115206.

  9.              Wu G, Chen Z, Jiang D, Jiang N*, Jiang H, Chen LJ*. 2021. Effects of long-term no-tillage with different residue application rates on soil nitrogen cycling. Soil & Tillage Research 212: 105044.

  10.      Wu G, Wei K, Chen Z, Jiang D, Xie H, Jiang N*, Chen L*. 2021. Crop residue application at low rates could improve soil phosphorus cycling under long-term no-tillage management. Biology and Fertility of Soils.57:499–511.

  11.      Jiang N, Wei K, Pu JH, Huang WJ, Bao HX, Chen LJ. 2021. A balanced reduction in mineral fertilizers benefits P reserve and inorganic P-solubilizing bacterial communities under residue input. Applied Soil Ecology, 159:103833.

  12.      Jihui Tian, Kai Wei, Tao Sun, Nan Jiang*, Zhenhua Chen, Jiao Feng, Kunzheng Cai, Lijun Chen*. Different forms of nitrogen deposition show variable effects on soil organic nitrogen turnover in a temperate forest. Applied Soil Ecology 169: 104212

  13.      Wei K, Chen Z, Jiang N, Zhang Y, Feng J, Tian J, Chen X, Lou C, Chen L. 2020. Effects of mineral phosphorus fertilizer reduction and maize straw incorporation on soil phosphorus availability, acid phosphatase activity, and maize grain yield in northeast China, Archives of Agronomy and Soil Science, 2020.1714031.

  14.      蒲家慧,姜楠*隽英华,陈利军。2020. 冻融对温带土壤可溶性氮库、氮转化过程及细菌群落多样性的影响,应用生态学报319):2893-2902.

  15.      Jiang N, Juan Y, Tian L, Chen XD, Sun WT, Chen, LJ. 2020. Soil Water Contents Control the Responses of Dissolved Nitrogen Pools and Bacterial Communities to Freeze-Thaw in Temperate Soils. Biomed Research International, 6867081.

  16.      Sun ML, Zhang FY, Huang XD, Han YQ, Jiang N, Cui, Guo QL, Kong MY, Song L and Pan J. Analysis of Microbial Community in the Archaeological Ruins of Liangzhu City and Study on Protective Materials. Frontiers in Microbiology, 11: 684.

  17.      Chen XD, Jiang N, Condron LM, Dunfield KE, Chen ZH, Wang JK, Chen LJ. 2019 Soil alkaline phosphatase activity and bacterial phoD gene abundance and diversity under long-term nitrogen and manure inputs. Geoderma, 349: 36-44.

  18.      Chen XD, Jiang N, Condron LM, Dunfield KE, Chen ZH, Wang JK, Chen LJ. 2019 Impact of long-term phosphorus fertilizer inputs on bacterial phoD community in a maize field, Northeast China. Science of   the Total Environment, 669: 1011-1018.

  19.      Jiang N, Juan YH, Tian L, Chen XD, Sun WT, Chen LJ. 2018 Modification of the composition of dissolved nitrogen forms, nitrogen transformation processes, and diversity of bacterial communities by freeze–thaw events in temperate soils. Pedobiologia, 71: 41-49.

  20.      Juan Y#, Jiang N#, Tian L, Chen XD, Sun WT, Chen LJ. 2018 Effect of freeze-thaw on a midtemperate soil bacterial community and the correlation network of its members. BioMed Research International, 8412429.

  21.      Zhou JY, Yao Y, Jiao K, Zhang J, Zheng X, Wu F, Hu X, Li J, Yu Z, Zhang G, Jiang N* and Li ZQ*. 2017. Relationship between Gingival Crevicular Fluid Microbiota and Cytokine Profile in Periodontal Host Homeostasis. Frontiers in Microbiology, 8: 2144.

  22.      Li Y, Ren Y, Jiang N*. 2017 Analysis of Draft Genome Sequence of Pseudomonas sp. QTF5 Reveals Its Benzoic Acid Degradation Ability and Heavy Metal Tolerance. BioMed Research International, 4565960.

  23.      Chen XD#, Jiang N#, Chen ZH, Tian JH, Sun N, Xu MG, Chen LJ. 2017 Response of soil phoD phosphatase gene to long-term combined applications of chemical fertilizers and organic materials. Applied Soil Ecology, 119 :197-204

  24.      Zhou JY#, Jiang N#, Wang ZZ, Li LQ, Zhang JM, Ma R, Nie HB, Li ZQ. 2017 Influences of pH and iron on the salivary microbiome in individuals with and without caries. Applied and Environmental Microbiology, 02412-16.

  25.      Jiang N, Wei K, Chen LJ. 2016 Long-term chronological shifts in bacterial communities and hydrolytic extracellular enzyme activities in the forty years following a land-use change from upland fields to paddy fields. Pedobiologia, 59: 17-26.

  26.      Jiang N, Wei K, Chen LJ, Chen R. 2016 Duration-related variations in archaeal communities after a change from upland fields to paddy fields. Journal of Microbiology and Biotechnology, 26(5): 867-875.

  27.      Zhou JY#, Jiang N#, Wang SG, Hu XP, Jiao KL, He XY, Li ZQ, Wang JZ. 2016 Exploration of human salivary microbiomes—insights into the novel characteristics of microbial community structure in caries and caries-free subjects. PLoS ONE, 11(1): e0147039.

  28.      Jiang N*, Li Y, Zheng CG, Chen LJ, Wei K, Feng J, Tian JH. 2015 Characteristic microbial communities in the continuous permafrost beside the bitumen in Qinghai-Tibetan Plateau. Environmental Earth Sciences, 74: 1343-1352.

  29.      Chen R#, Jiang N#, Jiang QY, Sun XJ, Wang Y, Zhang H, Hu Z. 2014 Exploring microRNA-like small RNAs in the filamentous fungus Fusarium oxysporum. PLoS ONE, 9(8): e104956.

  30.      Jiang N, Yang YP, Janbon G, Pan J, Zhu X. 2012. Identification and functional demonstration of miRNAs in the fungus Cryptococcus Neoformans.PLoS ONE, 7(12): e52734.

  31.      Wang P, Li L, Chen XY, Jiang N, Liu GY, Chen L, Xu JY, Song H, Chen Z, and Ma Y. 2012. Draft genome of Alicyclobacillus hesperidum strain URH17-3-68. Journal of Bacteriology, 194(22): 6348.

  32.      Liu G, Zhang R, Wang P, Jiang N, Chen XY, Song H, Chen Z. 2012. Cell adhesion molecules contribute to Alzheimer's disease: multiple pathway analyses of two genome-wide association studies. Journal of Neurochemistry, 120(1):190-198.

  33.      Jiang N, Liu XG, Yang J, Li ZM, Pan J, Zhu X. 2011. Regulation of copper homeostasis by Cuf1 associates with its subcellular localization in the pathogenic yeast Cryptococcus neoformans H99. FEMS Yeast Research,11(5):440–448.

  34.      姜楠, 王萍, 宋诙. 2011. 普鲁兰酶及其分泌相关蛋白的研究进展. 微生物学报,51(4): 15-21.

  35.      Wang P, Hu L, Liu G, Jiang N, Chen XY, Xu JY, Zheng W, Li L, Tan M, Chen Z, Song H, Cai YD, Chou KC. 2011. Prediction of antimicrobial peptides based on sequence alignment and feature selection methods. PLoS ONE, 6(4): e18476.

  36.      孙劭靖, 路福平, 姜楠, 李丽, 徐建勇, 曹慕琛, 宋诙. 2011. 一株产耐热普鲁兰酶菌株Anoxybacillus sp. LM14-2 分离鉴定及其产酶性质的初步研究. 生物技术通报, 6: 136-141.

  37.      Zhu C, Jiang N, Xiao D, Pan J, Zhu X. 2010. Chloride channel-dependent copper acquisition of laccase in the basidiomycetous fungus Cryptococcus neoformans. Science China- Life Sciences, 53(1): 125-30.

  38.      Jiang N, Xiao DG, Zhang DF, Sun NY, Yan B and Zhu X. 2009. Negative roles of a novel NMR gene TAR1 in laccase production and nitrate utilization in the basidiomyceteCryptococcus neoformans. Appliedand Environmental Microbiology, 75(21): 6777-6782.

  39.      Jiang N, Sun N, Xiao DG, Pan J, Wang Y, Zhu X. 2009. A copper-responsive factor gene CUF1 is required for copper induction of laccase in Cryptococcus neoformans. FEMS Microbiology Letters, 296(1):84-90.

  40.      Jiang N, Liu XG, Pan J, Wang YJ, Zhu X. 2009. Effect of the copper-responsive factor Cuf1 on the capsule biosynthesis in Cryptococcus neoformans. Acta Microbiologica Sinica, 49(11): 1459-1464.

  41.      姜楠, 张德法, 严冰, 潘皎, 朱旭东. 2009. 条件致病真菌新型隐球酵母(Cryptococcus neoformans)致病性研究进展. 微生物学报, 49(4):423-428.