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博士�����,
Email:jiangp@iae.ac.cn
教育背景:
2005-2008, 中國科學(xué)院生態(tài)環(huán)境研究中心 生態(tài)學(xué)博士����;
2001-2004����, 北京林業(yè)大學(xué)資環(huán)學(xué)院 生態(tài)學(xué)碩士��;
1990-1995����, 沈陽藥科大學(xué) 藥理學(xué)學(xué)士;
工作經(jīng)歷:2010年- 至今 中國科學(xué)院沈陽應(yīng)用生態(tài)研究所 副研究員
主要研究方向:生物地球化學(xué)
在研項目:
1����、中國科學(xué)院戰(zhàn)略性先導(dǎo)科技專項子課題:遼西半干旱農(nóng)業(yè)示范區(qū)模式應(yīng)用評價(XDA28090402;2021-2026)
2�����、國家重點(diǎn)研發(fā)項目子課題:東北天然次生林生態(tài)產(chǎn)品形成和維持的凋落物-土壤微生物作用機(jī)制(2021-2026)
發(fā)表文章:
[1] Chang.Q, Xu WH, Peng.B, Jiang P, Li SL, Wang C, Bai E*, 2022. Dynamic and allocation of recently assimilated carbon in Korean pine (Pinus koraiensis) and birch (Betula platyphylla) in a temperate forest. Biogeochemistry, 160: 395-407.
[2] Li J, Sang CP, Yang JY, Qu LR, Xia ZW, Sun H, Jiang P, Wang XG, He HB, Wang C*. 2021 Stoichiometric imbalance and microbial community regulate microbial elements use efficiencies under nitrogen addition. Soil Biology and Biochemistry, 156:108207.
[3] Sang CP, Xia ZW*, Sun LF, Sun H, Jiang P, Wang C*, Bai E, 2021. Responses of soil microbial communities to freeze–thaw cycles in a Chinese temperate forest. Ecological Processes, 10: 66.
[4] Dai WW, Peng B, Liu J, Wang C, Wang X, Jiang P, Bai E*, 2021. Four years of litter input manipulation changes soil microbial characteristics in a temperate mixed forest. Biogeochemistry, 154:371–383.
[5] Wang X, Wang C*, Cotrufo MF M, Sun LF, Jiang P, Liu ZP, Bai E*,2020. Elevated temperature increases the accumulation of microbial necromass nitrogen in soil via increasing microbial turnover. Global Change Biology, 26: 5277-5289.
[6] Wang C, Wang X, Pei GT, Xia ZW, Peng B, Sun LF, Wang J, Gao DC, Chen SD, Liu DW, Dai WW, Jiang P, Fang YT, Liang C, Wu NP, Bai E*, 2020. Stabilization of microbial residues in soil organic matter after two years of decomposition, Soil Biology and Biochemistry, 141:107687.
[7] Xia ZW, Yang JY, Sang CP, Wang X, Sun LF, Jiang P, Wang C*, Bai E, 2020. Phosphorus reduces negative effects of nitrogen addition on soil microbial communities and functions. Microorganisms, 8:1828.
[8] Pei GT, Liu J, Peng B, Wang C, Jiang P, Bai E*, 2020. Nonlinear Coupling of Carbon and Nitrogen Release During Litter Decomposition and its Responses to Nitrogen Addition, Journal of Geophysical Research. Biogeosciences, 125, e2019JG005462.
[9] Sun LF, Sang CP, Wang C, Fan ZZ, Peng B, Jiang P, Xia ZW*, 2019. N2O production in the organic and mineral horizons of soil had different responses to increasing temperature. Journal of Soils and Sediments, 19:3499-3511.
[10] Pei GT, Liu J, Peng B, Gao DC, Wang C, Dai WW, Jiang P, Bai E*, 2019. Nitrogen, lignin C/N as important regulators of gross nitrogen release and immobilization during litter decomposition in a temperate forest ecosystem. Forest Ecology and Management, 440:61-69.
[11] Peng B, Sun JF, Liu J, Dai WW, Sun LF, Pei GT, Gao DC, Wang C, Jiang P, Bai E*, 2019. N2O emission from a temperate forest soil during the freeze-thaw period: A mesocosm study. Science of The Total Environment, 648:350-357.
[12] Sun JF, Dai WW, Peng B, Liu J, He TX, Jiang P, Han SJ, Bai E*, 2018. Does the accelerated soil N cycling sustain N demand of Quercus mongolica after decade-long elevated CO2 treatment?. Biogeochemistry, 139:197-213.
[13] Gao DC, Hagedorn F, zhang L, Liu J, Qu GF, Sun JF, Peng B, Fan ZZ, Zheng JQ, Jiang P, Bai E*, 2018. Small and transient response of winter soil respiration and microbial communities to altered snow depth in a mid-temperate forest. Applied Soil Ecology, 130:40-49.
[14] Gao DC, zhang L, Liu J, Peng .B, Fan ZZ, Dai WW,Jiang P, Bai E*, 2017.Responses of terrestrial nitrogen pools and dynamics to different patterns of freeze-thaw cycle: A meta-analysis. Global Change Biology, 24:2377–2389.
[15] Liu J, Peng B, Xia ZW, Sun JF, Gao DC, Dai WW, Jiang P, Bai E*, 2017. Different fates of deposited NH4+ and NO3- in a temperate forest in northeast China: a 15N tracer study. Global Change Biology, 23:2441–2449,
[16] Liu J, Wang C, Peng B, Xia ZW, Jiang P, Bai E*, 2017. Effect of nitrogen addition on the variations in the natural abundance of nitrogen isotopes of plant and soil components. Plant and Soil, 412:453-464.
[17] Liu J, Wu NN, Wang H, Sun JF, Peng B, Jiang P, Bai E*, 2016. Nitrogen addition affects chemical compositions of plant tissues, litter and soil organic matter. Ecology, 1796–1806.
[18] Wu NN, Timothy R Filley, Bai E*, Han SJ, Jiang P, 2015. Incipient changes of lignin and substituted fatty acids under N addition in a Chinese forest soil, Association of Geochemistry and Cosmochemistry, 79:14-20..
[19] Wang H, Xu WH, Hu GQ, Dai WW, Jiang P, Bai E*, 2015. The priming effect of soluble carbon inputs in organic and mineral soils from a temperate forest. Oecologia, 178:1239-1250.
[20] Wang H, Thomas W. Boutton, Xu WH, Hu GQ, Jiang P, Bai E*; 2015. Quality of fresh organic matter affects priming of soil organic matter and substrate utilization patterns of microbes. Scientific Reports, 5:10102.
[21] Wang C*, Wang XB*, Liu D, Wu HH, L XT, Fang YT, Cheng WX, Luo WT, Jiang P, Shi J, Yin H, Zhou JZ, Han XG*, Bai E*, 2014. Aridity threshold in controlling ecosystem nitrogen cycling in arid and semi-arid grasslands. Nature Communications, 5:4799.
[22] Xu WH, Li W, Jiang P, Wang H, Bai E*, 2014. Distinct temperature sensitivity of soil carbon decomposition in forest organic layer and mineral. Soil Scientific Reports, 4:6512.
[23] Bai E*, Li SL*, Xu WH, Li W, Dai WW, Jiang P, 2013. A meta-analysis of experimental warming effects on terrestrial nitrogen pools and dynamics.New Phytologist, 199:441-451.
[24] Bai E*, Li W, Li SL, Sun JF, Peng Bo, Dai WW, Jiang P, Han SJ, 2014. Pulse Increase of Soil N2O Emission in Response to N Addition in a Temperate Forest on Mt Changbai, Northeast China. PLoS ONE, 97e102765.
[25] Wang M*, Shi S, Lin F, Jiang p, 2014 Response of the soil fungal community to multi-factor environmental changes in a temperate forest. Applied Soil Ecology, 45-56.
[26] Wang M*, Shi S, Lin F, Jiang p, Dai GH, 2012. Effects of Soil Water and Nitrogen on Growth and Photosynthetic Response of Manchurian Ash (Fraxinus mandshurica) Seedlings in Northeastern China. PLoS ONE, 72e30754.
[27] 曲桂芳,徐文華,王會,彭勃,高德才,孫建飛,鄭俊強(qiáng),姜萍,白娥.五角槭根系的負(fù)激發(fā)效應(yīng)降低了異養(yǎng)呼吸及其溫度敏感性.生態(tài)學(xué)雜志, 2016,35(10):2692-2698.
[28] 孫建飛,白娥,戴崴巍,彭勃,曲桂芳,姜萍.15N標(biāo)記土壤連續(xù)培養(yǎng)過程中擴(kuò)散法測定無機(jī)氮同位素方法改進(jìn).生態(tài)學(xué)雜志,2014,33(9):2574-2580.
[29] 李偉,白娥,李善龍,孫建飛,彭勃,姜萍.施氮和降水格局改變對土壤CH4和CO2通量的影響.生態(tài)學(xué)雜志,2013,32(8):1947-1958.
