专家人才

石培礼

  1969年生,中国科学院地理科学与资源研究所研究员,博士生导师,中国科学院大学岗位教授,中国科学院拉萨高原生态综合试验站副站长。1999年在中国科学院自然资源综合考察委员会获生态学专业博士学位,2004年瑞士巴塞尔大学植物研究所和2008年美国俄克拉荷马州立大学高级研究学者。获青藏高原青年科技奖、王宽诚西部学者突出贡献奖和西藏自治区科学技术一等奖。现任Journal of Resources and Ecology副主编,植物生态学报编委。在国内外学术刊物上发表论文100余篇,参与撰写专著8部。 

 

研究领域和研究方向 

  主要从事植物生理生态学和生态系统生态学研究。在植物生理生态学方面,主要研究高海拔植物的生理生态适应、高山树线交错带生态过程及其对气候变化的响应;在生态系统生态学方面,主要开展青藏高原主要生态系统的碳/氮循环过程及生态系统功能、高寒草地的植被退化与生态系统适应性管理、以及高海拔植物群落对气候变化响应敏感性的研究。 

 

代表性学术论文 

1) Zheng L, Shi P*, Song M, Zhou T, Zong N, Zhang X. 2021. Climate sensitivity of high altitude tree growth across the Hindu Kush Himalaya. Forest Ecology and Management 486:118963. 

2) Zhou T, Sun J, Shi P*. 2021. Plant-microbe interactions regulate the aboveground community nitrogen accumulation rate in different environmental conditions on the Tibetan Plateau. Catena 204:105407. 

3) Zheng L, Gaire N P, Shi P*. 2021. Tree growth responses to climate change across the Hindu Kush Himalaya. Journal of Plant Ecology, 14:829-842. 

4) Shi P*, Duan C, Wang L, Wu N, Kotru R, Gurung J. 2021. Integrated landscape approaches to building resilience and multifunctionality in the Kailash Sacred Landscape, China. Journal of Mountain Science 18: 10.1007/s11629-11020-16500-x. 

5) Zong N, Song M, Zhao G, Shi P*. 2020. Nitrogen economy of alpine plants on the north Tibetan Plateau: nitrogen conservation by resorption rather than open sources through biological symbiotic fixation. Ecology and Evolution 10:2051-2061. 

6) Shi P*, Zhang X. 2020. Towards regional synergy: Reconciling rangeland ecological functioning with forage production service of cultivated pasture. Journal of Resources and Ecology 11: 247-252. 

7) Shi P*,Wu N & Rawat G S. 2020. The patterns of timberline and its response to climate change in the Himalayas. Journal of Resources and Ecology 11: 343-348. 

8) Shi C, Schneider L, Hu Y, Shen M, Sun C, Xia J. Forbes B R, Shi P, Zhang Y, Ciais P. 2020. Warming-induced unprecedented high-elevation forest growth over the monsoonal Tibetan Plateau. Environmental Research Letters 15: 054011. 

9) Chai X, Shi P*, Song M, Zong N, He Y, Li Y, Zhang X, LiuY. 2020. The relative controls of temperature and soil moisture on the start of carbon flux phenology and net ecosystem production in two alpine meadows on the Qinghai-Tibetan Plateau. Journal of Plant Ecology. 13: 247-255. 

10)Zhao G, Liu M, Shi P*, Zong N, Wang J, Wu J, Zhang X. 2019. Spatial–temporal Variation of ANPP and Rain-Use Efficiency Along a Precipitation Gradient on Changtang Plateau, Tibet. Remote Sensing 11: 325. 

11)Song M, Zong N, Jiang J, Shi P*, Zhang X, Gao J, Zhou H, Li Y, Loreau M. 2019. Nutrient- induced shifts of dominant species reduced stability via increase in species synchrony and population variability. Science of the Total Environment 692: 441-449. 

12)Geng S, Shi P*, Song M, Zong N, Zu J, Zhu W. 2019. Diversity of vegetation composition enhances ecosystem stability along elevational gradients in the Taihang Mountains, China. Ecological Indicators 104: 594-603. 

13)Duan C, Shi P*, Zong N, Wang J, Song M, Zhang X. 2019. Feeding solution: crop-livestock integration via crop-forage rotation in southern Tibetan Plateau. Agriculture, Ecosystem and Environment 284:106589. 

14)Chai X, Shi P*, Song M, Zong N, He Y, Zhao G, Zhang X. 2019. Carbon flux phenology and net ecosystem productivity simulated by a bioclimatic index in an alpine steppe-meadow on the Tibetan Plateau. Ecological Modelling 394: 66-75. 

15)Zong N, Shi P*, Chai X. 2018. Effects of warming and nitrogen addition on nutrient resorption efficiency in an alpine meadow on the northern Tibetan Plateau. Soil Science and Plant Nutrition 64: 482-490. 

16)Geng S, Shi P*, Zong N, Zhu W. 2018. Using Soil Survey Database to Assess Soil Quality in the Heterogeneous Taihang Mountains, North China. Sustainability 10:3443. 

17)Zhao G, Shi P*, Wu J, Xiong D, Zong N, Zhang X. 2017. Foliar nutrient resorption patterns of four functional plants along a precipitation gradient on the Tibetan Changtang Plateau. Ecology and Evolution 7: 7201-7212. 

18)Chai X, Shi P*, Zong N, He Y, Zhang X, Xu M, Zhang J. 2017. A growing season climatic index to simulate gross primary productivity and carbon budget in a Tibetan alpine meadow. Ecological Indicators 81: 285-294. 

19)Zong N, Shi P*, Song M, Zhang X, Jiang J, Chai X. 2016. Nitrogen Critical Loads for an Alpine Meadow Ecosystem on the Tibetan Plateau. Environmental Management 57:531-542. 

20)Xiong D, Shi P*, Zhang X, Zou C. B. 2016. Effects of grazing exclusion on carbon sequestration and plant diversity in grasslands of China - A meta-analysis. Ecological Engineering 94: 647-655. 

21)Wang J, Feng J, Chen B, Shi P*, Zhang J, Fang J, Wang Z, Yao S, Ding L. 2016. Controls of seed quantity and quality on seedling recruitment of smith fir along altitudinal gradient in southeastern Tibetan Plateau. Journal of Mountain Science 13: 811-821. 

22)Zong N, Song M, Shi P*, Jiang J, Zhang X, Shen Z. 2014. Timing patterns of nitrogen application alter plant production and CO2 efflux in an alpine meadow on the Tibetan Plateau, China. Pedobiologia 57, 263-269. 

23)He Y, Xu X, Kueffer C, Zhang X, Shi P. 2014. Leaf litter of a dominant cushion plant shifts nitrogen mineralization to immobilization at high but not low temperature in an alpine meadow. Plant and Soil 383, 415-426. 

24)Jiang J, Zong N, Song M, Shi P*, Ma W, Fu G, Shen Z, Zhang X, Ouyang, H. 2013. Responses of ecosystem respiration and its components to fertilization in an alpine meadow on the Tibetan Plateau. European Journal of Soil Biology 56, 101-106. 

25)Fujimura S, Shi P, Iwama K, Zhang X, Gopal J & Jitsuyama Y. 2010. Effect of Altitude on the Response of Net Photosynthetic Rate to Carbon Dioxide Increase by Spring Wheat. Plant Prod. Sci. 13, 141-149. 

26)Ma W, Shi P*, Li W, He Y, Zhang X, Shen Z, Chai S. 2010. Changes in individual plant traits and biomass allocation in alpine meadow with elevation variation on the Qinghai-Tibetan Plateau. Science China Life Sciences 53, 1142-1151. 

27)Shi P*, K?rner Ch., Hoch G. 2008. A test of the growth-limitation theory for alpine treeline formation in evergreen- and deciduous taxa of the Eastern Himalayas. Functional Ecology, 22: 213-220. 

28)Li M, Xiao W, Shi P, Wang S, Zhong Y, Liu X, Wang X, Cai X, Shi Z. 2008. Nitrogen and carbon source–sink relationships in trees at the Himalayan treelines compared with lower elevations. Plant, Cell and Environment 31: 1377-1387. 

29)Shi P*, Zhang X, Zhong Z, Ouyang H. 2006. Diurnal and seasonal variability of soil CO2 efflux in a cropland ecosystem on the Tibetan Plateau. Agricultural and Forest Meteorology 137: 220-233.  

30)Shi P*, K?rner Ch, Hoch G. 2006. End of season carbon supply status of woody species near the treeline in western China. Basic and Applied Ecology 7: 370-377. 

  

招生专业:  生态学 

招生方向:生态系统生态学 

以青藏高原的高寒/高山生态系统为对象,研究 1). 生态系统碳、氮循环;  2).植物-土壤系统相互作用及反馈;3) 植物生长对策及其对气候变化的敏感性。 

 

联系方式: 

Tel: 010 - 6488 9686

E-mail: shipl@igsnrr.ac.cn 

   

更新日期:2021年5月31