王传超 博士、教授、博士生导师、所长
厦门大学人类学研究所 Email:wang@xmu.edu.cn
实验室主页:https://www.x-mol.com/groups/bioanthropology
个人简介:
王传超,1987年8月生,厦门大学人类学研究所教授、博士生导师、所长,厦门大学社会与人类学院、生命科学学院双聘教授,生物人类学福建省哲学社会科学重点实验室主任。
主持国家杰出青年科学基金(2024)、国家社科基金重大项目并获滚动资助、国家自然科学基金面上和青年项目、国家重点研发计划子课题、福建省杰出青年基金等,入选教育部青年长江学者(2021)、福建省高层次A类人才等。荣获中国青年五四奖章、福建青年五四奖章、福建省社会科学优秀成果一等奖和二等奖等荣誉奖励。以第一作者或通讯作者在包括Nature、Science、Nature Communications、Science Bulletin、Current Biology等在内的国内外期刊上发表SCI、SSCI、A&HCI或CSSCI论文80余篇,精细解析了东亚人群遗传结构,系统性地重构了东亚人群形成史,为汉藏同源、南岛与壮侗同源提供古基因组学证据,发展了印欧语的起源和扩散假说,推动了人类基因组学大数据在法医学中的应用。论文累计被引用5000余次,h指数为32,i10指数为94,连续三年入选爱思唯尔 (Elsevier) 中国高被引学者榜单。研究成果由中央电视台新闻联播、中央电视台新闻频道、人民日报等全国多家知名媒体广泛报道。担任Science Bulletin、National Science Review等多份SCI、SSCI和CSSCI期刊副编、编委和青年编委等。
教育经历:
2006.09-2010.06:中国海洋大学国家生命科学与技术人才培养基地班,理学学士学位;
2010.09-2015.06:复旦大学现代人类学教育部重点实验室,人类生物学博士学位;
2011.07-2011.09:美国贝勒医学院人类基因组测序中心,实习生(Intern).
工作经历:
2015.07-2017.06:德国马普人类历史科学研究所,博士后
2015.10-2017.08:哈佛医学院遗传学系,博士后
2017.07-2017.08:德国马普人类历史科学研究所,Research Associate
2017.09-2018.06: 厦门大学人类学与民族学系副教授、特任研究员
2018.06-至 今:厦门大学人类学研究所所长、教授、博士生导师
2021.09-至 今:厦门大学生命科学学院,双聘教授
代表作 (#共同第一作者, *通讯作者)
1. Wang CC#*; Yeh HY#; Popov AN#; Zhang HQ#; Matsumura H; Sirak K; Cheronet O; Kovalev A; Rohland N; Kim AM; Mallick S; Bernardos R; Tumen D; Zhao J; Liu YC; Liu JY; Mah M; Wang K; Zhang Z; Adamski N; Broomandkhoshbacht N; Callan K; Candilio F; Carlson KSD; Culleton BJ; Eccles L; Freilich S; Keating D; Lawson AM; Mandl K; Michel M; Oppenheimer J; Özdoğan KT; Stewardson K; Wen S; Yan S; Zalzala F; Chuang R; Huang CJ; Looh H; Shiung CC; Nikitin YG; Tabarev AV; Tishkin AA; Lin S; Sun ZY; Wu XM; Yang TL; Hu X; Chen L; Du H; Bayarsaikhan J; Mijiddorj E; Erdenebaatar D; Iderkhangai TO; Myagmar E; Kanzawa-Kiriyama H; Nishino M; Shinoda KI; Shubina OA; Guo J; Cai W; Deng Q; Kang L; Li D; Li D; Lin R; Nini; Shrestha R; Wang LX; Wei L; Xie G; Yao H; Zhang M; He G; Yang X; Hu R; Robbeets M; Schiffels S; Kennett DJ; Jin L; Li H; Krause J*; Pinhasi R*; Reich D*. Genomic insights into the formation of human populations in East Asia. Nature, 2021, 591(7850):413-419.(共同第一作者排第一、共同通讯作者)
2. Wang CC#*; Reinhold S; Kalmykov A; Wissgott A; Brandt G; Jeong C; Cheronet O; Ferry M; Harney E; Keating D; Mallick S; Rohland N; Stewardson K; Kantorovich AR; Maslov VE; Petrenko VG; Erlikh VR; Atabiev BC; Magomedov RG; Kohl PL; Alt KW; Pichler SL; Gerling C; Meller H; Vardanyan B; Yeganyan L; Rezepkin AD; Mariaschk D; Berezina N; Gresky J; Fuchs K; Knipper C; Schiffels S; Balanovska E; Balanovsky O; Mathieson I; Higham T; Berezin YB; Buzhilova A; Trifonov V; Pinhasi R; Belinskij AB; Reich D; Hansen S*; Krause J*; Haak W*. Ancient human genome-wide data from a 3000-year interval in the Caucasus corresponds with eco-geographic regions. Nature Communications, 2019, 10(1):590.(第一作者、共同通讯作者)
3. Tao L#; Yuan H#*; Zhu K#; Liu X; Guo J*; Min R; He H; Cao D; Yang X; Zhou Z; Wang R; Zhao D; Ma H; Chen J; Zhao J; Li Y; He Y; Suo D; Zhang R; Li S; Li L; Yang F; Li H; Zhang L; Jin L; Wang CC*. Ancient genomes reveal millet farming-related demic diffusion from the Yellow River into southwest China. Current Biology, 2023, 33(22):4995-5002.e7.(最后通讯作者)
4. Ma H#; Zhou Y#*; Wang R#*; Yan F; Chen H; Qiu L; Zhao J; Jin L; Wang CC*. Ancient genomes shed light on the long-term genetic stability in the Central Plain of China. Science Bulletin, 2024 Jul 15:S2095-9273(24)00504-8.(最后通讯作者)
5. Wang F*#, Wang R#, Ma H#, …, Wang CC*. Neolithization of Dawenkou culture in the lower Yellow River involved the demic diffusion from the Central Plain. Science Bulletin, 2024, doi: 10.1016/j.scib.2024.08.016.(最后通讯作者)
6. Xiong J#; Wang R#; Chen G#; Yang Y; Du P; Meng H; Ma M; Allen E; Tao L; Wang H; Jin L*; Wang CC*; Wen S*. Inferring the demographic history of Hexi Corridor over the past two millennia from ancient genomes. Science Bulletin, 2023, 69(5):606-611.(共同通讯作者)
7. Ma M#; Lu M#; Sun R#; Zhu Z#; Fuller DQ; Guo J; He G; Yang X; Tan L; Lu Y; Dong J; Liu R; Yang J; Li B; Guo T; Li X; Zhao D; Zhang Y; Wang CC*; Dong G*. Forager-farmer transition at the crossroads of East and Southeast Asia 4900 years ago. Science Bulletin, 2023, 69(1):103-113.(共同通讯作者)
8. Du P#; Zhu K#; Qiao H#; Zhang J; Meng H; Huang Z; Yu Y; Xie S; Allen E; Xiong J; Zhang B; Chang X; Ren X; Xu Y; Zhou Q; Han S; Jin L*; Wei P*; Wang CC*; Wen S*. Ancient genome of the Chinese Emperor Wu of Northern Zhou. Current Biology, 2024, 34(7):1587-1595.e5.(共同通讯作者)
9. Du P#, Zhu K#, Wang M#, Sun Z#, Tan J#, Sun B, Sun B, Wang P, He G, Xiong J, Huang Z, Meng H, Sun C, Xie S, Wang B, Ge D, Ma Y, Sheng P, Ren X, Tao Y, Xu Y, Qin X, Allen E, Zhang B, Chang X, Wang K, Bao H, Yu Y, Wang L, Ma X, Du Z, Guo J, Yang X, Wang R, Ma H, Li D, Pan Y, Li B, Zhang Y, Zheng X, Han S, Jin L*, Chen G*, Li H*, Wang CC*, Wen S*. Genomic dynamics of the Lower Yellow River Valley since the Early Neolithic. Current Biology. 2024, doi: 10.1016/j.cub.2024.07.063.(共同通讯作者)
10. Ning C#; Wang CC#; Gao S; Yang Y; Zhang X; Wu X; Zhang F; Nie Z; Tang Y; Robbeets M; Ma J*; Krause J*; Cui Y*. Ancient Genomes Reveal Yamnaya-Related Ancestry and a Potential Source of Indo-European Speakers in Iron Age Tianshan. Current Biology, 2019, 29(15):2526-2532.e4.(共同第一作者)
11. Wang CC, Ding QL, Tao H, Li H. Comment on "Phonemic diversity supports a serial founder effect model of language expansion from Africa". Science. 2012 Feb 10;335(6069):657. (第一作者)