基本信息 姓 名:宋欣 职 称:特聘教授 职 位: 所 属 系:教学实验中心 办公地点:南区三期913 办公电话: 邮 箱:xinsong@szu.edu.cn 工作职责:教学、科研 个人简介 宋欣,亚洲bet57365游戏大厅特聘教授,博士生导师。本科毕业于北京师范大学生命科学学院,硕士及博士分别毕业于加拿大阿卡迪亚大学和美国宾夕法尼亚大学生物系,博士后研究工作在澳大利亚悉尼大学Margaret Barbour实验室完成。长期从事同位素植物生理生态学研究,重点关注植物关键生理过程(蒸腾、光合等)介导的氧氢碳同位素效应,及其与环境变化的交互作用及相关生理/水文/气象学意义。在PNAS, New Phytologist, Plant Cell and Environment等国际主流学术期刊发表论文40余篇。目前担任Frontiers in Plant Science副编辑(associate editor),Agricultural and Forest Meteorology等4个学术期刊编委,以及中国生态学学会同位素生态专业委员会委员。2015年入选中组部国家海外高层次青年人才计划,2020年获中国生态学学会青年科技奖。 近期发表的论文 近5年代表作: 1.Rao S, Liu T, Cernusak SA,Song X*.(2024) Harnessing photosynthetic C18O16O discrimination dynamics under leaf water nonsteady state to estimate mesophyll conductance: a new, regression-based method.New Phytologist (doi.org/10.1111/nph.19767) 2.Pan Y, Li F, Lin W, Zhou YP,Song X*.(2024) Quantifying isotope parametersassociated with carbonyl-water oxygen exchange during sucrose translocation in tree phloem.New Phytologist242: 975-987. 3.Lin W, Barbour MM,Song X*. (2022) Do changes in tree-ring δ18O indicatechanges in stomatal conductance?New Phytologist236:803-808.#同位素生态学专委会公众号https://shorturl.at/twxDZ 4.Liu T, Barbour MM,Song X*. (2021) Mesophyll conductance exerts a significantlimitation on photosynthesis during light induction.New Phytologist233: 360-372.# Faculty Opinion推荐https://connect.h1.co/article/74 0927852 #植物科学最前沿公众号https://shorturl.at/swS38 5.Chen Y, Helliker BR, Tang X, Li F, Zhou YP,Song X*. (2020) Stem watercryogenic extraction biases estimation in deuterium isotope composition of plant source water.PNAS117: 33345-33350.#深圳大学新闻网https://news.szu.edu.cn/info/1004/7420.htm 其它重要论文 6.Song X*, Chen Y, Helliker BR, Tang X, Li F, Zhou YP. (2021) Reply to Evaristo: Strong evidence for the need of correcting extraction bias in an early study of ecohydrological separation.PNAS118: e 21 03604118. 7.Song X*, Chen Y, Helliker BR, Tang X, Li F, Zhou YP. (2021) Reply to Zhao: The demonstrated magnitude of artifact during stem-water extraction signals a clear need for deuterium correction.PNAS118: e 21 02585118. 8. Barbour MM*, Loucos K, Lockhart EL, Shrestha A, McCallum D, Simonin KA,Song X, Griffani, DS, Farquhar GD. (2021) Can hydraulic design explain patterns of leaf water isotopic enrichment in C3 plants?Plant Cell and Environment44:432-444. 9.Zhu L, Li H, Thorpe TR, Hocart CH,Song X*. (2021) Stomatal and mesophyllconductance are dominant limitations to photosynthesis in response to heat stress during severe drought in a temperate and a tropical tree species.Trees35 (5), 1613-1626. 10.Liancourt P*,Song X, Macek M, Santrucek J, Dolezal J. (2020) Plants' eye viewof temperature governs elevational distributions.Global Change Biology26: 4094-4103. 11.Sun J, Chen Y, Zhou H. Hu Z, Liao W,Song X*.(2020) Carbon isotope ratio ofleaf litter correlates with litter production in a mangrove ecosystem in South China.Marine Pollution Bulletin157: 111224. 12.Li Y*,Song X, Li S, Barbour MM. (2019) The role of leaf water potential in theemperature response of mesophyll conductance.New Phytologist225(3):1193-1205. 13.Shrestha A,Song X, Barbour MM*. (2019) The temperature response ofmesophyll conductance, and its component conductances, varies between species and genotypes.Photosynthesis Research140: 11-18. 14.Helliker BR*,Song X, Goulden ML, Clark K, Bolstad P, Munger JW, Chen JQ,Noormets A, Wofsy S, Martin T, Baldocchi DD, Desai A. (2018) Assessing the interplay between canopy energy balance and photosynthesis with cellulosed18O: large-scale patterns and independent ground-truthing.Oecologia.187(4):995-1007. 15.Song X*, Barbour MM. (2016) Leaf water oxygen isotope measurement by directequilibration.New Phytologist211: 1120-1128. 16.Holloway-Phillips M*, Cernusak LA, Barbour MM,Song X, Cheesman A,MunksgaardN, Stuart-Williams H, Farquhar GD. (2016) Leaf vein fraction influences the Péclet effect and18O enrichment in leaf water.Plant Cell and Environment39: 2414-2427. 17.Cernusak, LA*, Barbour, MM, Cheesman AW, English NB, Feild TS, Helliker,BR; Holloway-Phillips MM; Kahmen A; McInerney FA, Simonin KA,Song X, Stuart-Williams H, West J B, Farquhar GD. (2016) Stable isotope enrichment in leaf water of terrestrial plants.Plant Cell and Environment39: 1087-1102. 18.Song X*, Simonin KA, Loucos KE, Barbour MM. (2015) Modeling non-steadystate isotope enrichment of cotton leaf water in a gas-exchange cuvette environment.Plant Cell and Environment38: 2618-28 19.Song X, Loucos KE, Simonin KA, Farquhar GD, Barbour MM*. (2015)Measurements of transpiration isotopologues and leaf water to assess enrichment models in cotton.New Phytologist206: 637-646. 20.Song X*, Clark KS, Helliker BR (2014).Interpreting species-specific variation intree-ring oxygen isotope ratios among three temperate forest trees.Plant Cell and Environment37: 2169-2182. 21.Song X*, Farquhar GD, Gessler A, Barbour MM (2014)Turnover time of the non-structural carbohydrate pool influencesd18O of leaf cellulose.Plant Cell and Environment37: 2500-2507. 22.Barbour MM*,Song X. (2014) Do tree ring stable isotope compositions faithfullyrecord tree carbon/water dynamics?Tree Physiology34: 792-795. 23.Song X*, Barbour MM, Farquhar GD, Vann DR, Helliker, BR. (2013)Transpiration rate relates to within- and across-species variations in effective path length in a leaf water model of oxygen isotope enrichment.Plant Cell and Environment36:1338-1351.# 杂志同期配发专文评述;The multifaceted relationship between leaf water 18O enrichment and transpiration rate36:1239-1241. 24.Song X, Barbour MM, Saurer M, Helliker BR*. (2011) Examining the large-scaleconvergence of photosynthesis-weighted tree leaf temperatures through stable oxygen isotope analysis of multiple data sets.New Phytologist192(4): 912-924. 25.Song X, Kristie DK, Reekie EG. (2009) Why does elevated CO2affect time oflowering? An exploratory study using the photoperiodic flowering mutants ofArabidopsis thaliana.New Phytologist181(2):339-346. 学术专著章节 1.Song X*, Lorrey A, Barbour MM. (2022) Environmental, physiological andbiochemical processes determining the oxygen isotope ratio of tree-ring cellulose. InStable Isotopes in Tree Rings: Inferring Physiological, Climatic and Environmental Responses. (eds. Siegwolf R, Brooks JR, Roden J, Saurer M). Springer-Verlag, Heidelberg, Germany. 2.林雯,陈永乐,吴浩,宋欣*(2021)水分利用效率的同位素分析方法。In光合作用研究技术。(eds.朱新广,许大全),科学出版社。 媒体报道 在澳大利亚工作期间先后三次就生态环境热点话题接受人民日报记者采访: https://shorturl.at/dowJY; https://shorturl.at/hnXZ8; https://shorturl.at/fqxyW 《中国科学报》对同位素森林水文学家Javime Evaristo Nature论文背后的故事进行了深度挖掘,并对本人团队与Evaristo在“两个水世界”问题上的争论始末进行了报道: https://news.sciencenet.cn/htmlnews/2023/3/497354.shtm 学术推荐人 Brent Helliker,教授 Department of Biology University of Pennsylvania Philadelphia, PA, USA 19104 Margaret Barbour,教授,理学院院长 School of Science University of Waikato 1 Knighton Rd, Hillcrest Hamilton, 3216, New Zealand Graham Farquhar,教授 京都奖得主,美英澳三国科学院院士 Research School of Biology Australian National University Canberra, ACT 2508, Australia 欢迎加入我们 欢迎对同位素植物生理生态研究感兴趣的研究生和博士后加入本课题组。申请人请发简历至:xinsong@szu.edu.cn 职称 特聘教授 职位 所属系 教学实验中心 办公室 南区三期913 办公电话 邮箱 xinsong@szu.edu.cn 工作职责 教学、科研 个人简介 宋欣,亚洲bet57365游戏大厅特聘教授,博士生导师。本科毕业于北京师范大学生命科学学院,硕士及博士分别毕业于加拿大阿卡迪亚大学和美国宾夕法尼亚大学生物系,博士后研究工作在澳大利亚悉尼大学Margaret Barbour实验室完成。长期从事同位素植物生理生态学研究,重点关注植物关键生理过程(蒸腾、光合等)介导的氧氢碳同位素效应,及其与环境变化的交互作用及相关生理/水文/气象学意义。在PNAS, New Phytologist, Plant Cell and Environment等国际主流学术期刊发表论文40余篇。目前担任Frontiers in Plant Science副编辑(associate editor),Agricultural and Forest Meteorology等4个学术期刊编委,以及中国生态学学会同位素生态专业委员会委员。2015年入选中组部国家海外高层次青年人才计划,2020年获中国生态学学会青年科技奖。