李树峰

研究方向:主要通过孢粉和计算机模拟等不同方法对青藏高原,东南亚及全球古植被、生物多样性及古环境进行研究。计算机模拟主要和英国布里斯托大学合作,利用HadCM3模型进行模拟分析。

主要研究兴趣

1)在云南乃至西南地区对新近纪盆孢粉化石植物群进行研究,探讨新近纪以来青藏高原隆升导致的气候环境的变化,及这种变化如何驱动生物的演替和植被动态变化。目前我们在云南中部南华县吕合镇发现一套属于渐新统的湖泊相沉积剖面。其中含火山凝灰岩夹层,孢粉化石种类丰富,为进行古植被和古气候变化研究提供了宝贵的材料。前期工作采用U-Pb法测定的结果显示这一植物群的绝对年龄为三千三百万年。我的后续工作将通过高精度孢粉样品分析古植被及气候变化规律,深入解析该地区渐新世古植被演替的环境驱动因子。

2)地球科学有很多新的数学模型不断的创造和发展,将古气候、古植被模拟和预测与更多的数学模型结合,这将为我们研究古生态学提供更多的理论依据和科学方法。英国布里斯托大学的全球环境动态研究组是国际古气候模拟研究领域的著名研究机构,我在布里斯托大学学习了一些相关的古气候模型工作。结合新生代孢粉及大化石数据,探讨新生代青藏高原隆升与气候环境变化的耦合关系,以及对生物多样性和植被演变的驱动作用,扩展对青藏高原隆升及季风气候变化和植被演变之间的耦合关系的认识,为研究古植被、古气候演变提供重要信息,以及为预测气候环境变化对植被变化的影响提供重要依据和对策。

3)现代表土花粉是研究化石孢粉及重建地质历史时期的古植被和古气候的重要依据。目前东亚表土孢粉数据库已经收集了大量表土花粉数据,但是在云南,乃至东南亚地区的表土花粉的数据还非常缺乏,这对我们重建东南亚地区的古植被和古气候具有重要影响。进一步我们拟结合东南亚中心,在云南及周围的东南亚地区采集表土花粉,进行植被和气候的相关研究,为东亚表土花粉提供重要的参考资料。

教育经历

  1. 1998/09-2002/07,石河子大学生命科学学院,生物科学,学士
  2. 2002/09-2005/07,中国科学院新疆生态与地理研究所,植物学,硕士
  3. 2011/09-2015/05,中国科学院西双版纳热带植物园,生态学,博士

研究工作经历

  1. 2005/08-2010/09,山东滨州学院,城市与环境系,助教
  2. 2015/05-2017/12,中国科学院西双版纳热带植物园,助理研究员
  3. 2018/01-至今,中国科学院西双版纳热带植物园,副研究员

期间开展了以下访问研究工作

  1. 2015/12月,德国森根堡研究所进行访学和合作研究
  2. 2017/5月-2018/4月,英国布里斯托大学自然地理学院,访问学者(中科院公派)

E-mail: lisf@xtbg.org.cn; sl17443@bristol.ac.uk

承担科研项目情况

主持项目

2019.1-2022.12 滇中盆地早渐新世古植被及生物多样性演变,云南省自然科学基金面上项目,2019FB061

2018.1-2021.12 云南吕合早渐新世古植被与古气候演变,国家自然科学基金面上项目,No.41772026

2015.7-2018.6 云南文山中新世古火灾重建,中国科学院南京地质古生物研究所现代古生物学和地层学国家重点实验室开放基金,No. 153107

参加项目
2017.1-2020.12  古近纪及新近纪早期植被和生物多样性演变,国家自然科学基金委中英合作项目,No. 41661134049
2016.01-2019.12 若干植物类群的演化、灭绝及其对亚洲季风气候的响应,NSFC-云南联合基金,No.U1502231

2015.1-2018.12 藏东芒康晚中新世卡均植物群及其古环境重建,国家自然基金面上项目,No.31470325

2014.1-2017.12 云南文山晚中新世植物群及其环境演变与植物多样性,国家自然基金面上项目,No.41372035

2013.1-2016.12 云南中新世南锋木化石及其古环境意义,国家自然基金面上项目,No.41272007

发表学术论文

Chen, P.-R., Del Rio, C., Huang, J., Liu, J., Zhao, J.-G., Spicer, R. A., Li, S.-F., Wang, T.-X., Zhou, Z.-K., & Su, T. (2022). Fossil Capsular Valves of Koelreuteria (Sapindaceae) from the Eocene of Central Tibetan Plateau and Their Biogeographic Implications. International Journal of Plant Sciences183(4), 000–000.
 
Del Rio, C., Wang, T., Li, S., Jia, L., Chen, P., Spicer, R. A., Wu, F., Zhou, Z., & Su, T. (2022). Fruits of Firmiana and Craigia (Malvaceae) from the Eocene of the Central Tibetan Plateau with emphasis on biogeographic history. Journal of Systematics and Evolution.
 
Huang, J., Spicer, R. A., Li, S.-F., Liu, J., Van Do, T., Nguyen, H. B., Zhou, Z.-K., & Su, T. (2022). Long-term floristic and climatic stability of northern Indochina: Evidence from the Oligocene Ha Long flora, Vietnam. Palaeogeography, Palaeoclimatology, Palaeoecology593, 110930.
 
Nguyen, H. B., Huang, J., Van Do, T., Jia, L.-B., Nguyen, H. M. T., Doan, H. D., Li, S.-F., Zhou, Z.-K., & Su, T. (2022). First pod record of Mucuna (Papilionoideae, Fabaceae) from the late Miocene of the Yen Bai Basin, northern Vietnam. Review of Palaeobotany and Palynology298, 104592.
 
Averyanova, A., Tarasevich, V., Popova, S., Utescher, T., Li, S.-F., Mosbrugger, V., & Xing, Y. (2021). Rupelian Kazakhstan floras in the context of early Oligocene climate and vegetation in Central Asia. Terra Nova33(4), 383–399.
 
Chen, L., Deng, W., Su, T., Li, S., & Zhou, Z. (2021). Late Eocene sclerophyllous oak from Markam Basin, Tibet, and its biogeographic implications. Science China Earth Sciences64(11), 1969–1981.
 
陈琳琳, 邓炜煜东, 苏涛, 李树峰, & 周浙昆. (2021). 西藏芒康晚始新世高山栎组化石的发现及其生物地理学意义. 中国科学 地球科学 (中文版), 51(12), 2150–2162. https://doi.org/10.1360/SSTe-2020-0313
 
Farnsworth, A., Valdes, P. J., Spicer, R. A., Ding, L., Witkowski, C., Lauretano, V., Su, T., Li, S., Li, S., & Zhou, Z. (2021). Paleoclimate model-derived thermal lapse rates: Towards increasing precision in paleoaltimetry studies. Earth and Planetary Science Letters564, 116903.
 
Huang, Y.-J., Shen, H., Jia, L.-B., Li, S.-F., Su, T., Nam, G.-S., Zhu, H., & Zhou, Z.-K. (2021). Macroscopic fossil charcoals as proxy of a local fire linked to conifer-rich forest from the late Pliocene of northwestern Yunnan, Southwest China. Palaeoworld30(3), 551–561.
 
Jia, L.-B., Huang, J., Su, T., Spicer, R. A., Zhang, S.-T., Li, S.-F., Pan, B., Nam, G.-S., Huang, Y.-J., & Zhou, Z.-K. (2021). Fossil infructescence from southwestern China reveals Paleogene establishment of Cladrastis in Asia. Review of Palaeobotany and Palynology292, 104456.
 
Jia, L.-B., Nam, G.-S., Su, T., Stull, G. W., Li, S.-F., Huang, Y.-J., & Zhou, Z.-K. (2021). Fossil fruits of Firmiana and Tilia from the middle Miocene of South Korea and the efficacy of the Bering land bridge for the migration of mesothermal plants. Plant Diversity43(6), 480–491.
 
Lauretano, V., Witkowski, C. R., Farnsworth, A., Li, S., Li, S., Mayser, J. P., Naafs, B. D. A., Spicer, R. A., Su, T., Tang, H., & others. (2021). Late Eocene-early Oligocene paleoenvironmental changes recorded at Lühe, Yunnan, southwestern China.
 
LI, S.-F. (2021). GRNNs: General Regression Neural Networks Package. R package version 0.1.0. In Https://CRAN.R-project.org/package=GRNNs.
 
Li, S.-F., Valdes, P. J., Farnsworth, A., Davies-Barnard, T., Su, T., Lunt, D. J., Spicer, R. A., Liu, J., Deng, W.-Y.-D., Huang, J., & others. (2021). Orographic evolution of northern Tibet shaped vegetation and plant diversity in eastern Asia. Science Advances7(5), eabc7741.
 
Liu, J., Wang, T.-X., Zhang, X.-W., Song, A., Li, S.-F., Huang, J., Spicer, T., Spicer, R. A., Wu, F.-X., Su, T., & others. (2021). Snapshot of the Pliocene environment of West Kunlun region, Northwest China. Palaeobiodiversity and Palaeoenvironments101(1), 163–176.
 
Deng, W., Su, T., Wappler, T., Liu, J., Li, S., Huang, J., Tang, H., Low, S. L., Wang, T., Xu, H., & others. (2020). Sharp changes in plant diversity and plant-herbivore interactions during the Eocene–Oligocene transition on the southeastern Qinghai-Tibetan Plateau. Global and Planetary Change194, 103293.
 
Huang, J., Su, T., Li, S., Wu, F., Deng, T., & Zhou, Z. (2020). Pliocene flora and paleoenvironment of Zanda Basin, Tibet, China. Science China Earth Sciences63(2), 212–223.
 
Su, T., Spicer, R. A., Wu, F.-X., Farnsworth, A., Huang, J., Del Rio, C., Deng, T., Ding, L., Deng, W.-Y.-D., Huang, Y.-J., Hughes, A., Jia, L.B., Jin, J.H., Li, S.F. & others. (2020). A Middle Eocene lowland humid subtropical “Shangri-La” ecosystem in central Tibet. Proceedings of the National Academy of Sciences117(52), 32989–32995.
 
Tang, H., Li, S.-F., Su, T., Spicer, R. A., Zhang, S.-T., Li, S.-H., Liu, J., Lauretano, V., Witkowski, C. R., Spicer, T. E., & others. (2020). Early Oligocene vegetation and climate of southwestern China inferred from palynology. Palaeogeography, Palaeoclimatology, Palaeoecology560, 109988.
 
黄健, 苏涛, 李树峰, 吴飞翔, 邓涛, & 周浙昆. (2020). 西藏札达盆地上新世植物群及古环境. 中国科学: 地球科学, 50(2), 220–232.
 
Farnsworth, A., Spicer, R., Valdes, P., Su, T., Ding, L., Li, S., Lunt, D., & Zhou, Z. (2019). Can novel techniques using climate models aid in determining the palaeoaltimetric history of the Himalayas and Tibet Plateau? Geophysical Research Abstracts21.
 
Li, S., Valdes, P., Farnsworth, A., Su, T., Spicer, R., Liu, J., Tang, H., & Zhou, Z. (2019). Qinghai-Tibetan Plateau uplift and growth shape vegetation and biodiversity in Asian monsoon area. Geophysical Research Abstracts21.
 
Su, T., Farnsworth, A., Spicer, R. A., Huang, J., Wu, F.-X., Liu, J., Li, S.-F., Xing, Y.-W., Huang, Y.-J., Deng, W.-Y.-D., & others. (2019). No high Tibetan plateau until the Neogene. Science Advances5(3), eaav2189.
 
Su, T., Spicer, R. A., Li, S.-H., Xu, H., Huang, J., Sherlock, S., Huang, Y.-J., Li, S.-F., Wang, L., Jia, L.-B., & others. (2019). Uplift, climate and biotic changes at the Eocene–Oligocene transition in south-eastern Tibet. National Science Review6(3), 495–504.
 
Tang, H., Liu, J., Wu, F.-X., Spicer, T., Spicer, R. A., Deng, W.-Y.-D., Xu, C.-L., Zhao, F., Huang, J., Li, S.-F., & others. (2019). Extinct genus Lagokarpos reveals a biogeographic connection between Tibet and other regions in the Northern Hemisphere during the Paleogene. Journal of Systematics and Evolution57(6), 670–677.
 
Xu, C.-L., Su, T., Huang, J., Huang, Y.-J., Li, S.-F., Zhao, Y.-S., & Zhou, Z.-K. (2019). Occurrence of Christella (Thelypteridaceae) in Southwest China and its indications of the paleoenvironment of the Qinghai–Tibetan Plateau and adjacent areas. Journal of Systematics and Evolution57(2), 169–179.
 
Zhao, F., Fan, Z., Su, T., Li, S., Tang, H., Spicer, T. E., & Zhou, Z. (2019).
Tree-ring δ18O inferred spring drought variability over the past 200 years in the Hengduan Mountains, Southwest China. Palaeogeography, Palaeoclimatology, Palaeoecology518, 22–33.
 
Li, S., Xing, Y., Valdes, P. J., Huang, Y., Su, T., Farnsworth, A., Lunt, D. J., Tang, H., Kennedy, A. T., & Zhou, Z. (2018). Oligocene climate signals and forcings in Eurasia revealed by plant macrofossil and modelling results. Gondwana Research61, 115–127.
 
Linnemann, U., Su, T., Kunzmann, L., Spicer, R., Ding, W.-N., Spicer, T., Zieger, J., Hofmann, M., Moraweck, K., Gärtner, A., A. Gerdes; Marko, L.,  Zhang, S.-T., Li, S.F. & others. (2018). New U-Pb dates show a Paleogene origin for the modern Asian biodiversity hot spots. Geology46(1), 3–6.
 
Su, T., Li, S.-F., Tang, H., Huang, Y.-J., Li, S.-H., Deng, C.-L., & Zhou, Z.-K. (2018). Hemitrapa Miki (Lythraceae) from the earliest Oligocene of southeastern Qinghai-Tibetan Plateau and its phytogeographic implications. Review of Palaeobotany and Palynology257, 57–63.
 
Li, S., Hughes, A. C., Su, T., Anberree, J. L., Oskolski, A. A., Sun, M., Ferguson, D. K., & Zhou, Z. (2017). Fire dynamics under monsoonal climate in Yunnan, SW China: Past, present and future. Palaeogeography, Palaeoclimatology, Palaeoecology465, 168–176.
 
Tiwari, A., Fan, Z.-X., Jump, A. S., Li, S.-F., & Zhou, Z.-K. (2017). Gradual expansion of moisture sensitive Abies spectabilis forest in the Trans-Himalayan zone of central Nepal associated with climate change. Dendrochronologia41, 34–43.
 
Xu, C.-L., Huang, J., Su, T., Zhang, X.-C., Li, S.-F., & Zhou, Z.-K. (2017). The first megafossil record of Goniophlebium (Polypodiaceae) from the Middle Miocene of Asia and its paleoecological implications. Palaeoworld26(3), 543–552.
 
Lebreton-Anberrée, J., Li, S., Li, S.-F., Spicer, R. A., Zhang, S.-T., Su, T., Deng, C., & Zhou, Z.-K. (2016). Lake geochemistry reveals marked environmental change in Southwest China during the Mid Miocene Climatic Optimum. Science Bulletin61(11), 897–910.
 
Li, S.-F., Jacques, F. M., Spicer, R. A., Su, T., Spicer, T. E., Yang, J., & Zhou, Z.-K. (2016). Artificial neural networks reveal a high-resolution climatic signal in leaf physiognomy. Palaeogeography, Palaeoclimatology, Palaeoecology442, 1–11.
 
Sun, M., Su, T., Zhang, S.-B., Li, S.-F., Anberree-Lebreton, J., Zhou, Z.-K., & others. (2016). Variations in leaf morphological traits of Quercus guyavifolia (Fagaceae) were mainly influenced by water and ultraviolet irradiation at high elevations on the Qinghai-Tibet Plateau, China. Int. J. Agric. Biol18, 266–273.
 
Lebreton Anberrée, J., Manchester, S. R., Huang, J., Li, S., Wang, Y., & Zhou, Z.-K. (2015). First fossil fruits and leaves of Burretiodendron sl (Malvaceae sl) in Southeast Asia: Implications for taxonomy, biogeography, and paleoclimate. International Journal of Plant Sciences176(7), 682–696.
 
Li, S.-F., Mao, L.-M., Spicer, R. A., Lebreton-Anberrée, J., Su, T., Sun, M., & Zhou, Z.-K. (2015). Late Miocene vegetation dynamics under monsoonal climate in southwestern China. Palaeogeography, Palaeoclimatology, Palaeoecology425, 14–40.
 
Jacques, F. M., Su, T., Zhang, J., Wang, L., Huang, Y., Hu, J., Li, S., Sun, M., & Zhou, Z. (2012). 209 Palaeovegetation reconstruction in monsoonal regions. Japanese Journal of Palynology58(Special), 95.

李树峰,阎顺,孔昭宸等.乌鲁木齐东道海子剖面的硅藻记录与环境演变.干旱区地理,2005,28(1):81-87.

阎顺,李树峰, 孔昭宸等.乌鲁木齐东道海子剖面的孢粉分析及其所反映的环境变化.第四纪研究,2004,24(4):464-468.

阎顺,孔昭宸,杨振京,倪健,李树峰.东天山北麓2000多年以来的森林线与环境变化.地理科学,2003,23(6):699-704.

会议报告:

李树峰,唐赫,刘佳,苏涛,周浙昆, 晚始新世—早渐新世云南植被. 中国古生物学会孢粉学分会学术年会. 中国,绵阳,2019.10.11-13

Shufeng Li, The Cenozoic paleoenvironmental change in SW China and its influence on biodiversity. Biosphere Evolution, Transitions & Resilience,BETR, Wuhan, China, 2019.9.15-22

Shufeng Li, Paul Valdes, Alex Farnsworth, Tao Su, Robert Spicer, Jia Liu, He Tang, and Zhekun Zhou, Qinghai-Tibetan Plateau uplift and growth shape vegetation and biodiversity in Asian monsoon area. The European geosciences union general assembly 2019, Vienna, Austria, 2019.4.6-13.

Li, S.F., Xing Y.W.*, Valdes P., Huang Y.J., Su T., Farnsworth A., Lunt D., Tang H., Zhou Z.K.*, Oligocene climate signals and forcings in Eurasia revealed by plant macrofossil and modelling results. The 10th European palaeobotany and palynology conference, Dublin, Iceland, Oral Presentation. 2018.8.12-17.

Li, S.F., Xing Y.W.*, Valdes P., Huang Y.J., Su T., Farnsworth A., Lunt D., Tang H., Zhou Z.K.*, The Oligocene climate and forces in Eurasia revealed by plant macrofossil data and modelling results,The Paleoclimate Society Conference (PACS) 2017, Cardiff University, 2017.9.11-12.

Li, S.F., Hughes, A.C., Su, T., Zhou Z.K.*, Fire dynamics under monsoonal climate in Yunnan, SWChina: Past, present and future, the XIV International Palynological Congress – X International Organisation of Palaeobotany Conference, Salvador, 2016.10.23-2016.10.28

Li, S.F., Hughes, A.C., Su, T., Zhou, Z.K.*, Fire dynamics in Yunnan, SW China: Past, present and future. The Sino-German Meeting: “The Yunnan Biodiversity Hotspot – Its Origin and Climatic Threats”, Kunming, China, Oral Presentation. 2015.8.5-9.

Li, S.F., Mao, L.-M, Zhou, Z.K.*, Late Miocene climate inferred from palynological data in southwestern China: a case study from Wenshan basin of Yunnan. The 9th European palaeobotany and palynology conference, Padova, Italy, Oral Presentation. 2014.8.26-30.

Valdes, P., Farnsworth, A., Su, T., Spicer, R., Ding, L., Li, S., Zhou, Z., & Li, S. (2020). Modelling the Interaction between Tibet and Climate and Biosphere during the Cenozoic. EGU General Assembly Conference Abstracts, 7711.

详细参考:

https://www.researchgate.net/profile/Shu_Feng_Li
https://scholar.google.co.uk/citations?user=8SXyw10AAAAJ&hl=en
 

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