高俊琴博士

江南的注册网址生态与自然保护学院教授，博士生导师

Email: gaojq@bjfu.edu.cn

电话: 010-62336131

教育和工作经历

2006-至今江南的注册网址

2011-2012美国南伊利诺伊州立大学访问学者

2003-2006中科院地理科学与资源研究所生态学理学博士

2000-2003中科院东北地理与农业生态研究所环境科学理学硕士

研究领域

湿地生态过程:重点关注湿地生态系统关键碳/氮过程及机制，尤其是湿地碳汇功能及其稳定性、湿地植物养分获取策略等，为气候变化和人类活动影响下的湿地生态系统功能提升提供支撑。

湿地保护与生态修复:重点关注湿地资源及其系统保护、湿地水文连通、湿地植被修复、生物炭以及湿地修复的碳汇效应等，为湿地保护和生态修复提供支撑。

承担项目

先后主持国家自然科学基金面上项目（2019-2022，2016-2019，2011-2013）、国家自然科学基金青年基金项目（2008-2010）、科技部国家基础资源调查专项“中国沼泽植物种质资源调查”课题（2020-2024）、全球环境基金中国湿地保护体系项目子项目（2015-2017）、林业公益性项目课题（2008-2013）、国家十一五科技支撑子专题（2008-2010）、国家林业局项目（2013-2015）等国家级和省部级项目十余项；先后主持国家湿地公园规划等项目二十余项。

作为项目骨干先后参与国家重点研发计划项目“北方典型河口湿地生态修复与产业化技术”（2017-2020）、科技部基础性科研专项项目（2013-2018）、科技部973项目（2009-2013）等。

获奖情况

梁希青年论文奖

家骐云龙青年教师教学优秀奖

江南的注册网址青年教师教学基本功比赛奖

江南的注册网址第五届优秀青年学术论文奖一等奖

江南的注册网址教学成果优秀奖（排名第一）

江南的注册网址“优秀共产党员”

江南的注册网址“优秀党支部书记”

江南的注册网址“巾帼之星”

江南的注册网址“优秀班主任”

学术论文：发表学术论文60余篇，授权专利2项，参与编写专著4部。近期代表性论文如下:

Li QW, Zhang XY, Liang J-F,Gao JQ*, Xu XL, Yu FH*. 2021. High nitrogen absorption capacity and utilization efficiency explain successful invasion ofSpartina alterniflorain the Yellow River delta, China.Biology and Fertility of Soils57, 1007-1013. DOI: 10.1007/s00374-021-01575-z.(Q1)

HuYH, Zhang XY, Zhang K, Song MH, Gao JQ*, Maxim Dorodnikov, Andrey Soromotin, Yakov Kuzyakov. 2021. Tussock microhabitats increase nitrogen uptake by plants in an alpine wetland.Plant and soil466, 569-580. DOI:10.1007/s11104-021-05056-y. (Q1)

Liang JF, Li QW,Gao JQ*, Feng JG, Zhang XY, Hao YJ, Yu FH. 2021.Biochar-compost addition benefitsPhragmites australisgrowth and soil property in coastal wetlands.Science of the total environment769, 145166. DOI: 10.1016/j.scitotenv.2021.145166.(Q1)

Liang C, Ding Y, Yue Y, Zhang XY, Song MH,Gao JQ*,Yu FH. 2021.Litter affects CO₂emission from alpine wetland soils experiencing drying-rewetting cycles with different intensities and frequencies.Catena 198,105025.DOI: 10.1016/j.catena.2020.105025.(Q1)

Li QW, Liang JF, Zhang XY, Feng JG, Song MH,Gao JQ*. 2021. Biochar addition affects root morphology and nitrogen uptake capacity in common reed (Phragmites australis) .Science of the total environment766, 144381.DOI：10.1016/j.scitotenv.2020.144381.(Q1)

Feng JG, Liang JF, Li QW, Zhang XY, Yue Y,Gao JQ*. 2021. Effect of hydrological connectivity on soil carbon storage in the Yellow River Delta wetlands of China.Chinese Geographical Science31, 197-208. DOI: 10.1007/s11769-021-1185-9.(卓越期刊)

Liang JF, Li QW,Gao JQ*, Feng JG, Zhang XY, Wu YQ,Yu FH. 2021. Biochar rhizosphere addition promotedPhragmites australisgrowth and changed soil properties in the Yellow River Delta.Science of the totalenvironment761, 143291.DOI: 10.1016/j.scitotenv.2020.143291.(Q1)

Liang JF, Yuan WY,Gao JQ*, Roiloa SR, Song MH, Zhang XY, Yu FH*. 2020. Soil resource heterogeneity competitively favors an invasive clonal plant over a native one.Oecologia193, 155-165. DOI: 10.1007/s00442-020-04660-6.(Q2)

Zhang XY, Li QW,Gao JQ*, Hu YH, Song MH,Yue Y. 2020. Effects of rainfallamount and frequency on soil nitrogen mineralization in Zoige alpine wetland.European Journal of Soil Biology97, 103170. DOI: 10.1016/j.ejsobi.2020.103170.(Q2)

Liang JF, An J,Gao JQ*, Zhang XY,Song MH,Yu FH. 2019.Interactive e?ects of biochar and AMF on plant growth and greenhouse gas emissions from wetland microcosms.Geoderma346, 11-17.(Q1)

HuYH, Zhou YL,Gao JQ*,Zhang XY,Song MH,Xu XL. 2019. Plasticity of plant N uptake in two native species in response to invasive species.Forests10, 1075; doi:10.3390/f10121075.(Q1)

GaoJQ*, Duan MY, Zhang XY, Li QW, Yu FH*.2018.E?ects of frequency and intensity of drying-rewetting cycles onHydrocotyle vulgarisgrowth and greenhouse gas emissions from wetland microcosms.Catena164, 44-49.(Q1)

Liang JF, An J,Gao JQ*, Zhang XY, Yu FH. 2018.Effects of arbuscular mycorrhizal fungi and soil nutrient addition on the growth ofPhragmites australisunder different drying-rewetting cycles.PlosOne13(1):e0191999.(Q2)

GaoJQ*, Feng J, Zhang XW, Yu FH*, Xu XL, Kuzyakov Y. 2016. Drying-rewetting cycles alter carbon and nitrogen mineralization in litter-amended alpine wetland soil.Catena145, 285-290.(Q1)

Mo Y, Deng ZH,GaoJQ*, Guo YX, Yu FH*. 2015. Does richness of emergent plants affect CO₂and CH₄emissions in experimental wetlands?Freshwater Biology60, 1537-1544.(Q2)

GaoJQ*, Gao JJ, Zhang XW, Xu XL, Deng ZH, Yu FH. 2015.Effects ofwaterloggingon carbon assimilate partitioning in theZoigêalpine wetlands revealed by¹³CO₂pulse labeling.Scientific Reports5, 9411.

GaoJQ, Mo Y, Xu XL, Zhang XW, Yu FH*. 2014. Spatiotemporal variations affect uptake of inorganic and organic nitrogen by dominant plant species in an alpine wetland.Plant and Soil381, 271-278.

GaoJQ, Lei GC*, Zhang XW, Wang GX*. 2014. Canδ¹³C abundance, water-soluble carbon, and light fraction carbon be potential indicators of soil organic carbon dynamics in Zoigê wetland?Catena119, 21-27.

GaoJQ*, Zhang XW, Lei GC*, Wang GX. 2014. Soil organic carbon and its fractions in relation to degradation and restoration of wetlands on the Zoigê Plateau, China.Wetlands34, 235-241.

李谦维,高俊琴*,梁金凤,冯久格,张晓雅,盖凌云. 2021.生物炭添加对不同水氮条件下芦苇生长和氮素吸收的影响.生态学报41(10), 3765-3774.

冯久格,李谦维,梁晨,张晓雅,乐艺,高俊琴*. 2021.基于景观指数的黄河口湿地水文连通动态分析.北京师范大学学报57 (1),12-21.

丁艳,张晓雅,高俊琴*,李谦维,乐艺,蒋丽华. 2019.水分变化对若尔盖高寒湿地木里薹草（Carex muliensis）枯落物分解及CO₂排放的影响.生态与农村环境学报35(8), 1027-1033.

丁艳,张晓雅,蒋丽华,李谦维,乐艺,高俊琴*. 2019.测定时间对干湿循环条件下湿地土壤呼吸的影响.生态学杂志26(4), 962-970.

张晓雅,胡益珩,安菁,乐艺,丁艳,高俊琴*. 2018.若尔盖泥炭沼泽土壤中可溶性有机碳含量对降水变化的响应.湿地科学16(4), 546-551.