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城市林业学科-李品

 

通信地址:北京市海淀区清华东路35号北京林业大学林学院

邮政编码:100083

电话:15210719626

邮箱:lipin@bjfu.edu.cn

主页:https://www.researchgate.net/profile/Pin_Li

 

  • 教育背景      

2009.092014.07    北京大学   城市与环境学院   生态学博士   

2005.092009.07    中山大学   生命科学学院     生态学学士   

 

  • 工作经历

2020.09—至今       北京林业大学林学院副教授,城市林业研究中心青年研究员

2014.072020.08     中国科学院生态环境研究中心,城市与区域生态国家重点实验室,助理研究员

2015.032015.05     地中海环境研究中心,访问学者

 

  • 教学经历

高级城市生态学

中国科学院大学  资源与环境学院  助教

 

  • 研究方向

主要研究方向为环境变化的生态效应。以城乡梯度下的原位观测、模拟环境胁迫的控制实验为主要手段,研究空气污染和气候变化(地表O3、氮沉降、颗粒物、干旱、增温等)及其多因子相互作用对城市森林生态系统结构、过程与功能的影响;探讨植物(生理生态、分子生态、功能性状)、土壤(介导碳氮转化的关键微生物、土壤性状)、植物-土壤反馈,以及生态系统结构(物种组成和多样性)和功能(碳、氮和水循环)对环境变化(逆境胁迫)的响应、适应和反馈。

 

  • 研究项目

[1]   国家自然科学基金面上项目,臭氧污染下杨树人工林叶和细根凋落物分解对氮沉降的响应差异机制(31870458),2019/1-2022/1260万,主持

[2]   国家自然科学基金青年项目,典型城市绿化树种的臭氧敏感性差异及生物学机制研究(31500396),2016/1-2018/1220万,主持

[3]   国家重点研发计划,臭氧污染生态效应的监测、评估及调控技术(2017YFE0127700)课题二,2019/1-2021/1250万,主持

[4] 中央高校科技创新自由探索专项资金项目,城市森林植物功能性状网络对大气污染城乡梯度效应的响应(2021ZY07),2021/6-2022/1212万,主持

[5] 国家自然科学基金面上项目,杨树人工林水分利用效率对开放式臭氧浓度升高的多尺度响应机制(41771034),2018/1-2021/1270万元,参与

[6] 国家自然科学基金青年项目,地表臭氧和氮沉降增加对杨树林冠层/大气界面氨气交换通量的复合影响机制(41705130),2018/1-2020/1228万元,参与

[7] 国家自然科学基金青年项目,31600418,城市臭氧污染对月季花瓣花青素合成的影响机制,2017/01-2019/1220万元,在研,参与

[8] 中国科学院-意大利研究理事会院级合作项目,臭氧对中国和意大利陆地生态系统的影响,2017/1-2019/1221万元,参与

[9] 科技部重点研究计划项目,京津冀城市群生态安全保障技术研究(SQ2016YFSF030062),课题“基于防风固沙功能提升的京津冀城市群生态修复技术研发”,2016/01-2020/12125万元,参与

[10] 北京市自然科学基金面上项目,地表臭氧浓度增加对北京桃果实生长发育的影响机制研究(6162021),2016/01-2018/1218万元,参与

 

六、发表文章

第一/通讯作者论文 (*通讯作者)

[1] Li Pin, Yin Rongbin, Zhou Huimin, Xu Sheng, Feng Zhaozhong (2021) Functional traits of poplar leaves and fine roots responses to ozone pollution under soil nitrogen addition. Journal of Environmental Sciences, 113, 118-131.

[2] Li Pin, Feng Zhaozhong, Shang Bo, Uddling Johan (2021) Combining carbon and oxygen isotopic signatures to identify ozone-induced declines in tree water use efficiency. Tree Physiology, doi:10.1093/treephys/tpab041.

[3] Li Pin, Yin Rongbin, Shang Bo, Agathokleous Evgenios, Zhou Huimin, Feng Zhaozhong (2020) Interactive effects of ozone exposure and nitrogen addition on tree root traits and biomass allocation pattern: An experimental case study and a literature meta-analysis. Science of the Total Environment, 710, 136379.

[4] Li Pin, Shen Congcong, Jiang Lai, Feng Zhaozhong, Fang Jingyun (2019) Difference in soil bacterial community composition depends on forest type rather than nitrogen and phosphorus additions in tropical montane rainforests. Biology and Fertility of Soils, 55, 313-323.

[5] Li Pin, Zhou Huimin, Xu Yansen, Shang Bo, Feng Zhaozhong (2019) The effects of elevated ozone on the accumulation and allocation of poplar biomass depend strongly on water and nitrogen availability. Science of the Total Environment, 665, 929-936.

[6] Li Pin, De Marco Alessandra, Feng Zhaozhong, Anav Alessandro; Zhou Daojing, Paoletti Elena (2018) Nationwide ground-level ozone measurements in China suggest serious risks to forests. Environmental Pollution, 237, 803-813.

[7] Li Pin, Feng Zhaozhong, Calatayud Vicent, Yuan Xiangyang, Xu Yansen, Paoletti Elena (2017) A meta-analysis on growth, physiological, and biochemical responses of woody species to ground-level ozone highlights the role of plant functional types. Plant Cell and Environment, 40, 2369-2380.

[8] Li Pin, Calatayud Vicent, Gao Feng, Uddling Johan, Feng Zhaozhong (2016) Differences in ozone sensitivity among woody species are related to leaf morphology and antioxidant levels. Tree Physiology, 36, 1105-1116.

[9] Li Pin, Yang Yuanhe, Han, Wenxuan, Fang Jingyun (2014) Global patterns of soil microbial nitrogen and phosphorus stoichiometry in forest ecosystems. Global Ecology and Biogeography, 23, 979-987.

[10]  Li Pin; Yang Yuanhe; Fang Jingyun (2013) Variations of root and heterotrophic respiration along environmental gradients in China’s forests. Journal of Plant Ecology, 6, 358-367.

[11]  Chen Leiyi#, Li Pin#, Yang Yuanhe (2016) Dynamic patterns of nitrogen: phosphorus ratios in forest soils of China under changing environment. Journal of Geophysical Research: Biogeosciences, 121, 2410-2421. (#共同一作)

[12] 李品*, 袁相洋, 代碌碌, 冯兆忠 (2021) 地表臭氧污染与其他环境因子复合胁迫对中国城市森林的影响研究进展. 环境科学, 42(11), 18-28.

[13] 李品*, 周慧敏, 冯兆忠 (2021) 臭氧污染、氮沉降和干旱胁迫交互作用对杨树叶和细根非结构性碳水化合物的影响. 环境科学, 42(2), 1004-1012.

[14] 李品*, 卫妍妍, 冯兆忠 (2020) 抗大气复合污染的城市森林植物初步筛选. 环境科学, 41(10), 4495-4503.

[15] 李品, 木勒德尔?吐尔汗拜, 田地, 冯兆忠 (2019) 全球森林土壤微生物生物量碳氮磷化学计量的季节动态. 植物生态学报, 43(6), 532-542.

[16] 李品, 冯兆忠, 尚博, 袁相洋, 代碌碌, 徐彦森 (2018) 6种绿化树种的气孔特性与臭氧剂量的响应关系. 生态学报, 38(8), 2710-2721.

[17] 周慧敏, 李品*, 高峰, 冯兆忠, 张殷波 (2018) 臭氧和干旱交互作用对杨树叶片抗氧化酶活性的影响. 环境科学, 39(9), 4359-4365.

 

合作论文

[18] Dai LuLu, Li Pin, Shang Bo, Liu Shuo, Yang Aizhen, Wang Younian, Feng Zhaozhong (2017) Differential responses of peach (Prunus persica) seedlings to elevated ozone are related with leaf mass per area, antioxidant enzymes activity rather than stomatal conductance. Environmental Pollution, 227, 380-388.

[19] Yang Yuanhe, Li Pin, He Honglin, Zhao Xia, Datta Arindam, Ma Wenhong, Zhang Ying, Liu Xuejun, Han Wenxuan, Wilson Maxwell C, Fang Jingyun (2015) Long-term changes in soil pH across major forest ecosystems in China. Geophysical Research Letters, 42, 933-940.

[20] Yang Yuanhe, Li Pin, Ding Jinzhi, Zhao Xia, Ma Wenghong, Ji Chengjun, Fang Jingyun (2014) Increased topsoil carbon stock across China's forests. Global Change Biology, 20, 2687-2696.

[21] Feng Zhaozhong, Kobayashi Kazuhiko, Li Pin, Xu Yansen, Tang Haoye, Guo Anhong, Paoletti Elena, Calatayud Vicent (2019) Impacts of current ozone pollution on wheat yield in China as estimated with observed ozone, meteorology and day of flowering. Atmospheric Environment, 217, 116945.

[22] Xu Sheng, Li Bo, Li Pin, He Xingyuan, Chen Wei, Yan Kun, Li Yan, Wang Yijing (2019) Soil high Cd exacerbates the adverse impact of elevated O3 on Populus alba 'Berolinensis' L. Ecotoxicology and Environmental Safety, 174, 35-42.

[23] Shang Bo, Yuan Xiangyang, Li Pin, Xu Yansen, Feng Zhaozhong (2019) Effects of elevated ozone and water deficit on poplar saplings: Changes in carbon and nitrogen stocks and their allocation to different organs. Forest Ecology and Management, 441, 89-98.

[24] Shang Bo, Feng Zhaozhong, Li Pin, Calatayud Vicent (2018) Elevated ozone affects C, N and P ecological stoichiometry and nutrient resorption of two poplar clones. Environmental Pollution, 234, 136-144.

[25] Shang Bo, Feng Zhaozhong, Li Pin, Yuan Xiangyang, Xu Yansen, Calatayud Vicent (2017) Ozone exposure and flux-based response relationships with photosynthesis, leaf morphology and biomass in two poplar clones. Science of the Total Environment, 603-604:185-195.

[26] Xu Bing, Yang Yuanhe, Li Pin, Shen Haihua, Fang Jingyun (2014) Global patterns of ecosystem carbon flux in forests: A biometric data-based synthesis. Global Biogeochemical Cycles, 28, 962-973.

[27] Xu Sheng, He Xingyuan, Burkey Kent, Chen Wei, Li Pin, Li Yan, Li Bo, Wang Yijing (2019) Ethylenediurea (EDU) pretreatment alleviated the adverse effects of elevated O3 on Populus alba“Berolinensis” in an urban area. Journal of Environmental Sciences, 42-50.

[28] Dai Lulu, Feng Zhaozhong, Pan Xiaodong, Xu Yansen, Li Pin, Lefohn Allen S, Harmens Harry, Kobayashi Kazuhiko (2019) Increase of apoplastic ascorbate induced by ozone is insufficient to remove the negative effect in tobacco, soybean and poplar. Environmental Pollution, 245, 380-388.

[29] Feng Zhaozhong, Yuan Xiangyang, Fares Silvano, Loreto Francesco, Li Pin, Hoshika Yasutomo, Paoletti Elena (2019) Isoprene is more affected by climate drivers than monoterpenes: A meta-analytic review on plant isoprenoid emissions. Plant Cell and Environment, 42, 1939-1949.

[30] Yuan Xiangyang, Feng Zhaozhong, Liu Shuo, Shang Bo, Li Pin, Xu Yansen, Paoletti Elena (2017) Concentration- and flux-based dose-responses of isoprene emission from poplar leaves and plants exposed to an ozone concentration gradient. Plant Cell and Environment, 40: 1960-1971.

[31] Yang Yuanhe, Fang Jingyun, Ji Chengjun, Datta Arindam, Li Pin, MaWenhong, Mohammat Anwar, Shen Haihua, Hu Huifeng (2014) Stoichiometric flexibility in topsoil C:N:P ratios across China's grasslands under elevated atmospheric CO2 and N deposition. Global Ecology and Biogeography, 23, 947-955.

[32] Guo Zhaodi, Hu Huifeng, Li Pin, Li Nuyun, Fang Jingyun (2013) Spatio-temporal changes in biomass carbon sinks in China's forests from 1977 to 2008. Sci China Life Sci, 56(7), 661-671.

[33] Feng Zhaozhong, Agathokleous Evgenios, Yue Xu, Oksanen Elina, Paoletti Elena, Sase Hiroyuki, Gandin Anthony, Koike Takayoshi, Calatayud Vicent, Yuan Xiangyang, Liu Xuejun, De Marco Alessandra, Jolivet Yves, Kontunen-Soppela Sari, Hoshika Yasutomo, Saji Hikaru, Li Pin, Li Zhengzhen, Watanabe Makoto, Kobayashi Kazuhiko (2021) Emerging challenges of ozone impacts on Asian plants: Actions are needed to protect ecosystem health. Ecosystem Health and Sustainability, 7(1): 1911602.

[34] 冯兆忠, 李品, 张国友, 李征珍, 平琴, 彭金龙, 刘硕 (2020) 二氧化碳浓度升高对陆地生态系统的影响:问题与展望. 植物生态学报, 44(5), 461-474.

[35] 冯兆忠, 李品, 袁相洋, 高峰, 姜立军, 代碌碌 (2018) 我国地表臭氧生态环境效应研究进展. 生态学报, 38(8), 1530-1541.

[36] 冯兆忠, 刘硕, 李品 (2019) 永定河流域生态环境研究进展及修复对策. 中国科学院大 学学报, 36(4): 107-117.

[37] 冯兆忠, 袁相洋, 李品, 尚博, 平琴, 胡廷剑, 刘硕 (2020) 地表臭氧浓度升高对陆地生态系统影响的研究进展. 植物生态学报, 44(5), 526-542.

[38] 周慧敏, 李品, 冯兆忠, 张殷波 (2019) 地表臭氧浓度升高与干旱交互作用对杨树非结构性碳水化合物积累和叶根分配的短期影响. 植物生态学报, 43(4), 296304.

[39] 刘硕,李品,尚博,胡廷剑,殷荣宾,冯兆忠 (2021) 永定河流域典型沙区生态状况及修复建议. 环境生态学, 3(8), 51-58.

[40] 刘硕,李品,冯兆忠 (2019) 京津冀防风固沙植被生态修复研究进展与对策. 生态学杂志, 38(1), 267-274.

[41] 潘晓东, 李品,冯兆忠 (2019) 2000-2015年中国地级市化肥使用量的时空变化特征. 环境科学, 40(10), 4733-4742.

[42] 高峰, 李品, 冯兆忠 (2017) 臭氧与干旱对植物复合影响的研究进展. 植物生态学报, 41(2), 252-268.

[43] 郭兆迪, 胡会峰, 李品, 李怒云, 方精云 (2013) 1977-2008年中国森林生物量碳汇的时空变化. 中国科学:生命科学, 43(5), 421-431.

 

七、出版专著

[1]  Feng Zhaozhong & Li Pin. 2017. Effects of gaseous air pollutants on plants in China. In Air pollution impacts on plants in east Asia (ed T. Izuta), Springer. (pp. 175-219).

[2]  冯兆忠, 李品,袁相洋 . 2021. 中国地表臭氧污染及其生态环境效应. 高等教育出版社.

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