基本信息

 姓名：石福习

 性别：男

 导师类别：硕士生导师

 职称：青年副教授

 学位：博士

教育经历

2016.09-2019.07  兰州大学       自然地理学专业  博士

2009.09-2012.07  西北师范大学   自然地理学专业  硕士

2005.09-2009.07  西北师范大学   地理科学专业    学士

个人简历

2020.07-至今，hbs04红宝石线路、硕士生导师

2019.07- 至今，hbs04红宝石线路、青年副教授

2015.01-2017.12，中国科学院东北地理与农业生态研究所、工程师

2012.07-2014.12，中国科学院东北地理与农业生态研究所、助理工程师

联系方式

E-mail：shifuxi@jxau.edu.cn

社会兼职

 兼任Science of the Total Environment、Catena等多个国际学术期刊审稿人

教学工作

 主讲研究生《生态环境建设与管理》等课程；本科生《湿地概论》等课程

研究方向

 同位素生物地球化学; 古气候与古生态

课题项目

[1] 国家自然科学基金委地区基金“基于稳定同位素的中亚热带典型造林树种水分利用对降水格局变化的响应机制(42067049)”, 2021.01-2024.12, 主持

[2]国家自然科学基金委青年基金“气候变暖背景下北方泥炭地植物花期物候变化及其对种子产量的影响(41601056)”, 2017.01-2019.12, 主持

[3] 江西省青年科学基金项目“濒危植物毛红椿和南方红豆杉水分利用机制及其对极端降水事件的响应(20202BABL213035)”, 2020.1-2022.12, 主持

[4] 江西省教育厅科技计划一般项目“亚热带典型红壤丘陵区主要造林树种水分利用对季节性干旱的响应(GJJ190209)”, 2020.1-2022.12, 主持

论文情况（可列举部分）

[1] Shi FX, Chen HM, Wang XW, Mao R*. Alder encroachment alters subsoil organic carbon pool and chemical structure in a boreal peatland of Northeast China. Science of the Total Environment, 2022, 850, 157849.(SCI-1区top journal)

[2] Gao FY, Yang JH, Xia DS, Lu H, Wang SY, Li KM, Wang ZQ, Wu ZP, Zhou JX, Shi FX*. Linking moisture and near-surface wind with winter temperature to reveal the Holocene climate evolution in arid Xinjiang region of China. Geoscience Frontiers, 2022, 13, 101433. (SCI-1区top journal, 通讯作者)

[3]Shi FX, Rao ZG*, Li YX, Cao JT, Shi XY, Li CZ, Sun WZ. Precipitation δ¹⁸O recorded by the α-cellulose δ¹⁸O of plant residues in surface soils: Evidence from a broad environmental gradient in inland China. Global Biogeochemical Cycles, 2019, 33(11), 1440-1468. (SCI-1区top journal)

[4]Shi FX, Rao ZG*, Cao JT, Huang C, Wu DD, Yang W, Sun WZ. Meltwater is the dominant water source controlling α-cellulose δ¹⁸O in a vascular-plant-dominated alpine peatland in the Altai Mountains, Central Asia. Journal of Hydrology, 2019, 572, 192-205. (SCI-1区top journal)

[5]Shi FX, Song CC*, Zhang XH, Mao R, Guo YD*, Gao FY. Plant zonation patterns reflected by the differences in plant growth, biomass partitioning and root traits along a water level gradient among four common vascular plants in freshwater marshes of the Sanjiang Plain, Northeast China. Ecological Engineering, 2015, 81, 158-164. (SCI-3区)

[6]Sun WZ, Shi FX*, Chen HM, Zhang Y, Guo YD, Mao R. Relationship between relative growth rate and C:N:P stoichiometry for the marsh herbaceous plants under water-level stress conditions. Global Ecology and Conservation, 2021, 25, e01416. (SCI-3区, 通讯作者)

[7]Ren H, Shi FX*, Mao R, Guo YD, Zhao WZ. Response of individual sizes and spatial patterns of Deyeuxia angustifolia to increasing water level gradient in a freshwater wetland. Environmental Science and Pollution Research, 2020, 27(14), 17085-17092. (SCI-3区, 通讯作者)

[8]Gao FY, Shi FX*, Chen HM, Zhang XH, Yu XY, Cui Q, Zhao CZ. Rapid expansion of Melica przewalskyi causes soil moisture deficit and vegetation degradation in subalpine meadows. CLEAN-Soil Air Water, 2018, 46(1), 1700587. (SCI-4区, 通讯作者)

[9] Rao ZG*, Shi FX, Li YX, Huang C, Zhang XZ, Yang W, Liu LD, Zhang XP, Wu Y. Long-term winter/summer warming trends during the Holocene revealed by α-cellulose δ¹⁸O/δ¹³C records from an alpine peat core from central Asia. Quaternary Science Reviews, 2020, 232, 106217 (SCI-1区top journal)

[10] Zhang Y, Shi FX, Mao R*. Alnus sibirica encroachment promotes dissolved organic carbon biodegradation in a boreal peatland. Science of the Total Environment, 2019, 695, 133882 (SCI-2区)

[11] Cao JT, Rao ZG*, Shi FX, Lian EG, Jia GD*. Lake-level records support a mid-Holocene maximum precipitation in northern China. Science China Earth Sciences, 2021, 64(12), 2161-2171. (SCI-2区)

[12] Zhang Y, Yang GS, Shi FX, Mao R*. Biomass allocation between leaf and stem regulates community-level plant nutrient resorption efficiency response to nitrogen and phosphorus additions in a temperate wetland of Northeast China. Journal of Plant Ecology, 2021, 14, 58-66. (SCI-2区)

[13] Cao JT, Rao ZG*, Shi FX, Jia GD*. Ice formation on lake surfaces in winter causes warm-season bias of lacustrine brGDGT temperature estimates. Biogeosciences, 2020, 17, 2521-2536. (SCI-2区)

[14]Rao ZG*, Wu DD, Shi FX, Guo HC, Cao JT, Chen FH. Reconciling the ‘westerlies’ and ‘monsoon’ models: A new hypothesis for the Holocene moisture evolution of the Xinjiang region, NW China. Earth-Science Reviews, 2019, 191, 263-272. (SCI-1区top journal)

[15]Song YY, Song CC*, Shi FX, Wang MQ, Ren JS, Wang XW, Jiang L. Linking plant community composition with the soil C pool, N availability and enzyme activity in boreal peatlands of Northeast China. Applied Soil Ecology, 2019, 140, 144-154. (SCI-2区)

[16]Xu JW, Yang N, Shi FX, Zhang Y, Wan SZ, Mao R*. Bark controls tree branch-leached dissolved organic matter production and bioavailability in a subtropical forest. Biogeochemistry, 2022, 158(3), 1-11. (SCI-2区)

[17]Rao ZG*, Huang C, Xie LH, Shi FX, Zhao Y, Cao JT, Gou XH, Chen JH, Chen FH. Long-term summer warming trend during the Holocene in central Asia indicated by alpine peat α-cellulose δ¹³C record. Quaternary Science Reviews, 2019, 203, 56-67. (SCI-1区top journal)

[18] Rao ZG*, Guo WK, Cao JT, Shi FX, Jiang H, Li CZ. Relationship between the stable carbon isotopic composition of modern plants and surface soils and climate: A global review. Earth-Science Reviews, 2017, 165, 110-119. (SCI-1区top journal)

[19] Mao R*, Chen HM, Zhang XH, Shi FX, Song CC. Effects of P addition on plant C:N:P stoichiometry in an N-limited temperate wetland of Northeast China. Science of the Total Environment, 2016, 559, 1-6. (SCI-2区)

[20] Cui Q, Song CC*, Wang XW, Shi FX, Yu XY, Tan WW. Effects of warming on N₂O fluxes in a boreal peatland of Permafrost region, Northeast China. Science of the Total Environment, 2018, 616-617, 427-434. (SCI-2区)

[21] Cui Q, Song CC*, Wang XW, Shi FX, Wang LL, Guo YD. Rapid N₂O fluxes at high level of nitrate nitrogen addition during freeze-thaw events in boreal peatlands of Northeast China. Atmospheric Environment, 2016, 135, 1-8. (SCI-2区)

[22] Shan LP, Song CC*, Zhang XH, Cagle GA, Shi FX. Plant defence allocation patterns following an increasing water level gradient in a freshwater wetland. Ecological Indicators, 2019, 107, 105542 (SCI-2区)

[23] Li YX, Tian YP, Guo HC, Wei SK, Cao JT, Huang C, Shi FX, Rao ZG*. Complex “human−vegetation−climate” interactions in the Late Holocene and their significance for paleotemperature reconstructions. PNAS, 2020, 117(11), 5568-5570. (SCI-1区top journal)

[24] Wu DD, Cao JT, Jia GD, Guo HC, Shi FX, Zhang XP, Rao ZG*. Peat brGDGTs-based Holocene temperature history of the Altai Mountains in arid Central Asia. Palaeogeography, Palaeoclimatology, Palaeoecology, 2020, 538, 109464 (SCI-2区)

[25] Rao ZG*, Guo HC, Cao JT, Shi FX, Jia GD, Li YX, Chen FH. Consistent long-term Holocene warming trend at different elevations in the Altai Mountains in arid central Asia. Journal of Quaternary Science, 2020, 1-10. (SCI-3区)

[26] Yu XY, Song CC*, Sun L, Wang XW, Shi FX, Cui Q, Tan WW. Growing season methane emissions from a permafrost peatland of northeast China: Observations using open-path eddy covariance method. Atmospheric Environment, 2017, 153: 135-149. (SCI-2区)

[27] Gao FY*, Zheng XM, Jia J, Li KM, Xia DS*, Yang JH, Lu H, Shi FX, Chen ZX, Wang SY. Evolution of near-surface wind strength in Northeastern arid central Asia during the Holocene. Paleoceanography and Paleoclimatology, 2021, 36, e2020PA003970 (SCI-2区)

[28] Huang C*, Feng JY, Tang FR, He HS, Liang Y, Wu MM, Xu WR, Liu B, Shi FX, Chen FS. Predicting the responses of boreal forests to climate-fire-vegetation interactions in Northeast China. Environmental Modelling and Software, 2022, 153, 105410 (SCI-2区)

[39] Song YY, Wang LL, Ma XY, Shi FX, Wang XW, Ren JS, Jiang L, Hou AX, Song CC*. Effects of plant community diversity on soil microbial functional groups in permafrost peatlands of Greater Khingan Mountains, Northeast China. Wetlands Ecology and Management, 2022, 30 (3), 595-606. (SCI-4区)

[30] Zhang XH, Song CC*, Mao R, Yang GS, Tao BX, Shi FX, Zhu XY, Hou AX. Litter mass loss and nutrient dynamics of four emergent macrophytes during aerial decomposition in freshwater marshes of the Sanjiang plain, Northeast China. Plant and Soil, 2014, 385, 139-147. (SCI-2区)

[31] Wang JY, Song CC*, Zhang J, Wang LL, Zhu XY, Shi FX. Temperature sensitivity of soil carbon mineralization and nitrous oxide emission in different ecosystems along a mountain wetland-forest ecotone in the continuous permafrost of Northeast China. Catena, 2014, 121,110-118. (SCI-2区)

[32] 付裕, 黄康祥, 蔡锦枫, 陈慧敏, 任久生*, 万松泽, 张扬, 任珩, 毛瑢, 石福习*. 三江平原沼泽湿地4种优势植物空间格局对不同水位环境的响应. 生物多样性, 2022, 30(3), 21392. (卓越期刊, 通讯作者)

[33] 徐佳文, 石福习*, 张朝晖, 万松泽, 吴盼盼, 刘姗姗, 毛瑢. 中亚热带濒危植物毛红椿和南方红豆杉种内与种间竞争差异. 应用生态学报, 2020, 31(1), 1-8. (A类学报, 通讯作者)

[34] 吴盼盼, 石福习*, 王宪伟, 徐佳文, 刘姗姗, 毛瑢. 大兴安岭贫营养泥炭地维管束和非维管束植物叶片碳氮磷化学计量学特征. 应用与环境生物学报, 2020, 26(5), 1176-1183. (CSCD, 通讯作者)

[35] 高福元，石福习*. 基于不同零模型的三江平原沼泽湿地主要物种小尺度点格局分析. 生态学报, 2015, 35(7), 2029-2037. (A类学报, 通讯作者)

[36] 石福习，宋长春*，赵成章，张静，史丽丽. 河西走廊山地-绿洲-荒漠复合农田生态系统服务价值变化及其影响因子研究. 中国沙漠, 2013, 33(5), 1598-1604. (CSCD)

[37] 石福习，赵成章*，高福元，任 珩，盛亚萍，史丽丽. 祁连山北坡自然恢复林地灌木层物种多样性及种间关联动态. 生态学杂志, 2012, 31(9), 2177-2183. (CSCD)

[38] 石福习，赵成章*，任珩，周伟，高福元，盛亚萍，李丽丽. 祁连山北坡自然恢复杨桦林地植物功能型组成及其影响因素. 应用与环境生物学报, 2012, 18(4), 546-552. (CSCD)

[39] 赵成章*, 石福习, 董小刚, 任珩, 盛亚萍, 高福元, 杨文斌. 祁连山北坡退化林地植被群落的自然恢复过程及土壤特征变化. 生态学报, 2011, 31(1), 115-0122. (A类学报)

[40] 郭海春, 曹建涛, 魏士凯, 石福习, 贾国东, 卞昊昆, 顾兆炎, 饶志国*. 中亚阿尔泰山南坡表土和泥炭沉积物GDGTs综合研究. 第四纪研究, 2021, 41(4), 1069-1093. (CSCD)

[41] 杨豆, 石福习, 万松泽, 李广强, 孔令刚, 张扬*. 金黄蓝状菌对毛竹土壤磷组分及苗木生物量的影响. 林业科学研究, 2021, 34(3), 145-151. (A类学报)

[42] 曹建涛, 饶志国*, 石福习, 连尔刚, 贾国东*. 湖泊水位记录支持中国北方全新世中期降水达到最高值. 中国科学: 地球科学, 2022, 52(1), 113-125. (卓越期刊)

授权专利

[1]国际发明专利，A Injection Method of Multi-position automatic Injection Device（Patent number: 2021102451），授权日：2021年6月30日，排名：石福习; 陈慧敏; 付裕; 肖意; 周扬; 顾杭敏; 高远凤; 陈境霞; 陈雯妍; 宁园力; 黄康祥; 涂运健; 张芸; 张扬; 万松泽; 孙维贞; 毛瑢

[2]国内发明专利，一种多位自动进样装置的进样方法（专利号：ZL 2020 1 0369970.4），授权日：2020年12月25日，石福习; 孙维贞; 王羿涵; 郭新磊; 陈慧敏; 万松泽; 张芸; 张扬; 毛瑢

[3]国内实用新型专利，一种多位自动进样装置（专利号：ZL 2020 2 0664165.X），授权日：2020年12月25日，石福习; 孙维贞; 王羿涵; 郭新磊; 陈慧敏; 万松泽; 张芸; 张扬; 毛瑢

[4]国内发明专利，一株拉塔伯克霍尔德菌PN1及其应用（专利号：ZL 2019 1 1380491.6），授权日：2021年8月27日，毛瑢; 万松泽; 张扬; 石福习; 张芸; 陈伏生

[5]计算机软件著作权，控制多位自动进样装置的操作系统V1.0（登记号：2021SR0882417），授权日：2021年6月11日，排名：石福习；顾杭敏

专著情况

[1]《东北地区重大生态工程生态成效评估》，北京：科学出版社，2020.10，参编

[2]《江西绿色屏障的研究与实践》，南昌：江西人民出版社，2020.12，参编

获奖情况

[1]2020年江西省防疫期间优质课程三等奖，《森林土壤学》，排名第三

[2]2020年江西省精品在线开放课程，《森林土壤学》，排名第五

[3] 2020年江西农业大学校级教学成果奖二等奖，《森林土壤学》一流课程“四维推进”1233建设模式与实践，排名第五

称号荣誉

[1] 2020年江西农业大学“未来之星”