1986年,复旦大学生物系,学士; 1989年,复旦大学生物系,硕士; 1995年,美国俄亥俄州立大学植物学系,博士; 1995-1996年,美国哈佛大学,博士后; 1996年起,美国密西根州立大学植物生物学系,助理教授、副教授、教授; 2011年,系统与进化植物学国家重点实验室研究员,资源植物研发重点实验室主任。 |
[1] 芒草生态建设及生物技术产业发展项目,(2013-2019),资助金额500万,主持人。
[2] 北方矿山修复植物的筛选及应用,(2017-2019),资助金额100万,主持人。
2007年获得国际植物分类学家联合会颁发的“史坦宾思奖章”(The Stebbins Medal)
2018
Mi J, Liu W*, Zhao XH, Kang LF, Lin C, Yan J, Sang T*. 2018. N2O and CH4 emission from Miscanthus energy crop fields in the infertile Loess Plateau of China. Biotechnol.Biofuels, 11: 321
Xing SL, Tao CC, Song ZH, Liu W, Yan J, Kang LF, Lin C, Sang T*. 2018. Coexpression network revealing the plasticity and robustness of population transcriptome during the initial stage of domesticating energy crop Miscanthus lutarioriparius. Plant Mol. Biol., 97: 489-506.
2017
Yan J, Song ZH, Xu Q, Kang LF, Zhu CY, Xing SL, Liu W, Greimler J, Zust T, Li JQ, Sang T*. 2017. Population transcriptomic characterization of the genetic and expression variation of a candidate progenitor of Miscanthus energy crops. Molecular Ecology 26: 5911-5922
Xu Q, Song ZH, Zhu CY, Tao CC, Kang LF, Liu W, He F, Yan J, Sang T*. 2017. Systematic comparison of lncRNAs with protein coding mRNAs in population expression and their response to environmental change. BMC Plant Biology 17:42
Song ZH, Xu Q, Lin C, Tao CC, Zhu CY, Xing SL, Fan YY, Liu W, Yan J, Li JQ, Sang T*. 2017. Transcriptomic characterization of candidate genes responsive to salt tolerance of Miscanthus energy crops. Global Change Biology Bioenergy 9, 1222-1237
Zhu CY, Liu W, Kang LF, Xu Q, Xing SL, Fan YY, Song ZH, Yan J*, Li JQ, Sang T*. 2017. Haplotypes phased from population transcriptomes detecting selection in the initial adaptation of Miscanthus lutarioriparius to stressful environment. The Plant Genome 10:2
2016
Xing SL, Kang LF, Xu Q, Fan YY, Liu W, Zhu CY, Song ZH, Wang Q, Yan J*, Li JQ, Sang T*. 2016. The coordination of gene expression within photosynthesis pathway for acclimation of C4 energy crop Miscanthus lutarioriparius. Frontiers in Plant Science 7:109
Yan J, Zhu MD, Liu W, Xu Q, Zhu CY, Li JQ*, Sang T*. 2016. Genetic variation and bidirectional gene flow in the riparian plant Miscanthus lutarioriparius, across its endemic range: implications for adaptive potential. Global Change Biology Bioenergy 8: 764-776
Xu Q, Zhu CY, Fan YY, Song ZH, Xing SL, Liu W, Yan J, Sang T*. 2016. Population transcriptomics uncovers the regulation of gene expression variation in adaptation to changing environment. Scientific Reports 6:25536
Liu W, Peng C, Chen ZF, Liu Y, Yan J, Li JQ, Sang T*. 2016. Sustainable bioenergy production with little carbon debt in the Loess Plateau of China. Biotechnology for Biofuels 9:161
2015
Fan YY, Wang Q, Kang LF, Liu W, Xu Q, Xing SL, Tao CC, Song ZH, Zhu CY, Lin C, Yan J, Li JQ, Sang T*. 2015. Transcriptome-wide characterization of candidate genes for improving the water use efficiency of energy crops grown on semiarid land. Journal of Experimental Botany 66:6415-6429
Yan J, Zhu CY, Liu W, Luo F, Mi J, Ren YJ, Li JQ, Sang T*. 2015. High photosynthetic rate and water use efficiency of Miscanthus lutarioriparius characterize an energy crop in the semiarid temperate region. Global Change Biology Bioenergy 7:207-218
Xu Q, Xing SL, Zhu CY, Liu W, Fan YY, Wang Q, Song ZH, Yang WH, Luo F, Shang F, Kang LF, Chen WL, Yan J, Li JQ, Sang T*. 2015. Population transcriptomics reveals a potentially positive role of expression diversity in adaptation. Journal of Integrative Plant Biology 57:284-299
2014
Liu W, Mi J, Song ZH, Yan J, Li JQ, Sang T*. 2014. Long-term water balance and sustainable production of Miscanthus energy crops in the Loess Plateau of China. Biomass & Bioenergy 62: 47-57
Mi J, Liu W, Yang WH, Yan J, Li JQ, Sang T*. 2014. Carbon sequestration by Miscanthus energy crops plantations in a broad range semi-arid 's bioenergy potential. Global Change Biology Bioenergy 3:79-90.
2013
Li HQ, Li CL, Sang T, Xu J. 2013. Pretreatment on Miscanthus lutarioriparious by liquid hot water for efficient ethanol production. Biotechnology for Biofuels 6:76.
Sang T, Ge S. 2013. Understanding rice domestication and implications for cultivar improvement. Current Opinion in Plant Biology 16:139-146.
2012
Liu W, Yan J, Li J, Sang T. 2012. Yield potential of Miscanthus energy crops in the Loess Plateau of China. Global Change Biology Bioenergy 4: 545-554.
Yan J, Chen WL, Luo F, Ma HZ, Meng A, Li X, Zhu M, Li SS, Zhou HF, Zhu W, Han B, Li J, T. Sang*. 2012. Variability and adaptability of Miscanthus species evaluated for energy crop domestication. Global Change Biology Bioenergy 4: 49-60.
2011
Ge S, Sang T. 2011. Inappropriate model rejects independent domestications of indica and japonica rice. Proceedings of National Academy of Sciences, USA, 108, E755.
Sang T. 2011. Toward the domestication of lignocellulosic energy crops: Leaning from food crop domestication. Journal of Integrative Plant Biology 53: 96-104.
Sang T, Zhu WX. 2011. China's bioenergy potential. Global Change Biology Bioenergy 3:79-90.
位于北京西部香山脚下的中国科学院植物研究所是我国系统与进化生物学领域的第一个国家重点实验室