姓名:董广辉
职称: 杰青获得者 
性别:男
毕业院校:北京大学
学历:研究生
学位:博士
在职信息:在职
所在单位:自然地理与环境变化研究所
入职时间:2005.7
办公地点:
电子邮箱:ghdong@lzu.edu.cn
学习经历
1995.9-1999.7 东北农业大学土壤与农业化学专业学士生,获学士学位。 1999.9-2002.7 中国科学院沈阳应用生态所土壤学专业硕士生,获硕士学位。 2002.9-2005.6 北京大学自然地理专业博士生,获博士学位。
研究方向
环境考古与环境变化
工作经历
2005.7-2009.5 兰州大学资源环境学院、西部环境与气候变化研究院讲师。 2009.5-2014.4 兰州大学西部环境与气候变化研究院副教授。 2014.5至今 兰州大学资源环境学院教授。
主讲课程
本科生课程:《全球环境变化》、《人类简史:演化与适应》、《环境考古》 研究生课程:《环境考古》
学术兼职
中国地理学会环境变化与环境考古专业委员会主任 中国地质学会人类世研究分会副主任 中国第四纪研究会人类演化与环境考古专业委员会副主任 中国科学技术史学会科技考古专业委员会副主任 兰州大学“西北及中亚环境考古中心”主任
研究成果
从地球科学和考古学的交叉学科角度,在西北甘青地区开展了大量扎实的、原创性的研究工作。具体包括:1)提出气候变化通过改变人类生产方式影响文化演化的新认识,阐释不同空间尺度上影响古文明演化的主导因素不同;b)从农业传播视角厘清了甘青地区史前东西交流过程,提出史前农业扩散和东西交流是文化扩张的重要动力;(c)提出史前人类向青藏高原扩散的“三步走”模式,揭示农业革新是促成史前人类高海拔地区永久定居的主要动力。为认识西北地区人地关系演变的规律与机制,阐明藏族主要起源于黄河流域提供了重要科学依据。
获得荣誉
1、甘肃省拔尖领军人才(2021) 2、甘肃省领军人才(第一层次)(2020); 3、教育部自然科学一等奖(第二完成人)(2018); 4、科学中国人(2016)年度人物(2017); 5、刘东生青年地球科学家奖(2017); 6、甘肃省“飞天学者特聘计划”青年教授(2016); 7、教育部“长江学者特聘计划”青年学者(2016); 8、中国高等学校十大科技进展(主要完成人)(2015); 9、全国青年地理科技奖(2015)。
在研项目
1、科技部第二次青藏高原综合科学考察研究项目子课题,批准号:2019QZKK0601-1,高原狩猎采集人群迁徙过程及资源利用,2019/11-2023/10 (主持)。 2、国家自然科学基金委杰出青年基金项目,批准号:41825001,环境考古与环境变化,2019/01-2023/12(主持)。 3、中国科学院战略先导科技专项课题,批准号:XDA20040101,人类早期活动及其对高寒环境的适应策略,2018/01-2022/12(课题负责人)。 4、国家重点研发计划项目课题,批准号:2018YFA0606402,东西方交流与丝路文明的发展和演化,2018/05-2023/04(课题负责人)。 5、国家自然科学基金面上项目,批准号:41671077,陇东地区全新世早中期人类生产方式转换与环境变化,2017/01-2020/12(主持)。
发表论文
2023 1. Wu, D., Ma, M.M.*, Lu, Y.X., Guo, S.L., Wang, T., Ma, X.Y., Dong, G.H. 2023. Out-of-phase relationship of Holocene moisture variations between the northeastern and southeastern Tibetan plateau and its societal impacts. Fundamental Research, https://doi.org/10.1016/j.fmre.2023.02.014 2. Qiu, M.H., Liu, R.L., Li, X.Y., Du, L.Y., Ruan, Q.R., Pollard, A.M., Zhang, S.J., Yuan, X., Liu, F.W., Li, G., Li, G.J., Jiao, Z.M., Luo, J.M., Chen, S.Q., Yang, X.Y., Wang, Y.Q., Han, J.Y., Chen, F.H., Dong, G.H. 2023. Earliest systematic coal exploitation for fuel extended to ~3600 B.P. Science Advances, doi: 10.1126/sciadv.adh0549. 3. Ma, M.M.*, Wei, W.Y., Wang, Y.A., Sun, F., Dong, J.J., Yang, Y.S., Li, H.M., Dong, G.H. 2023. Asynchronicity of dietary transformation in different regions along the Bronze Age Eastern Silk Road. Palaeogeography, Palaeoclimatology, Palaeoecology,610: 111348. https://doi.org/10.1016/j.palaeo.2022.111348 4. Wang, H.R.#, Yang, M.A.#, Wangdue, S., Lu, H.L.#, Chen, H.H., Li, L.H., Dong, G.H., Tsring, T., Yuan, H.B., He, W., Ding, M.Y., Wu, X.H., Li, S., Tashi, N., Yang, T., Yang, F., Tong, Y., Chen, Z.J., He, Y.H., Cao, P., Dai, Q.Y., Liu, F., Feng, X.T., Wang, T.Y., Yang, R.W., Ping, W.J., Zhang, Z.X., Gao, Y., Zhang, M., Wang, X.J., Zhang, C., Yuan, K., Ko Min-Shan, A., Aldenderfer, M., Gao, X., Xu, S.H., Fu, Q.M.* 2023. Human genetic history on the Tibetan Plateau in the past 5100 years. Science Advances, 9(11): eadd5582. DOI: 10.1126/sciadv.add5582 5. Pan, B.T., Li, X.H.*, Hu, Z.B.*, Bridgland, D., Mo, Q.H., Dong, Z.J., Li, M.H., Yang, Y.N., Westaway, R., Dong, G.H., Zhang, S.J., Zhong, M.L. 2023. Channel migration in the northeastern margin of the Tibetan Plateau and its implication for fluvial response to the interaction between rapid tectonic activity, climatic fluctuation and human influence, Quaternary Science Reviews, 310: 108126. https://doi.org/10.1016/j.quascirev.2023.108126 6. Hou, J.Z.#*, Ji, K.J.#, Zhu, E.L., Dong, G.H., Tong, T., Chu, G.Q., Liu, W.G., Wu, W.X., Zhang, S.L., Guedes, J.D, Chen, F.H.* 2023. Climate change fostered rise and fall of the Tibetan Empire during 600-800 AD, Science Bulletin, 68(11): 1187-1194. 7. Ma, M.M., Lu, Y.X., Dong, G.H.*, Ren, L.L., Min, R., Kang, L.H., Zhu, Z.H., Li, X.R., Li, B., Yang, Z.J., Cili, N., Liu, R., Gao, Y., Chen, F. 2023. Understanding the transport networks complex between South Asia, Southeast Asia and China during the late Neolithic and Bronze Age, The Holocene, 33(2): 147-158. https://doi.org/10.1177/09596836221131698 8. Ma, M.M.#, Dong, J.J.#, Yang, Y.S.#, Jones, M.K., Wang, J., Chen, G.K., Li, G., He, L.T., Wei, W.Y., Xu, Y.X., Lu, Y.X., Ren, L.L., Dong, G.H.*, Chen, F.H. 2023. Isotopic evidence reveals the gradual intensification of millet agriculture in Neolithic western Loess Plateau, Fundamental Research, https://doi.org/10.1016/j.fmre.2023.06.007 9. Sun, A.J.#, Li, H.R.#, Zhang, S.J.*, Cao, H.H., Qiu, M.H., Wang, Y.Q., Liu, B., Zhao, H.*, Dong, G.H. 2023. Impact of climate-driven oasis evolution on human settlement in the Baiyang River Basin, northwest China, Hami, during the middle to late Holocene, Palaeogeography, Palaeoclimatology, Palaeoecology, 622: 111602. https://doi.org/10.1016/j.palaeo.2023.111602 10. He, L.T., Cao, H.H.*, Wang, Y.Q., Liu, R.L., Qiu, M.H., Wei, W.B., Dong, G.H. 2023. Human migration in the eastern Tianshan Mountains between the 7th and 12th centuries. American Journal of Biological Anthropology, 181(1): 107-117. https://doi.org/10.1002/ajpa.24724 2022 11. Dong, G.H.*, Du L, Yang L, Lu M, Qiu M, Li H, Ma M, Chen F. 2022. Dispersal of crop-livestock and geographical-temporal variation of subsistence along the Steppe and Silk Roads across Eurasia in prehistory. Science China Earth Sciences, 65, 1187-1210. https://doi.org/10.1007/s11430-021-9929-x (中国科学地球科学,中英文版) 12. Dong, G.H.*, Lu, Y.X., Zhang, S.J., Huang, X.Z., 2022. Spatiotemporal variation in human settlements and their interaction with living environments in Neolithic and Bronze Age China. Progress in Physical Geography: Earth and Environment 46(6), 949–967. DOI: 10.1177/03091333221087992 13. 董广辉*, 芦永秀, 刘培伦, 李刚, 2022.6000-2000 a B. P. 丝绸之路国内段人类活动的时空格局与影响因素研究.第四纪研究,42(1): 1-16. 14. Li, G., Gao, L.L.*, Liu, F.W., Qiu, M.H., Dong, G.H.*, 2022. Quantitative Studies on Charcoalification: Physical and Chemical Changes of Charring Wood. Fundamental Research. https://doi.org/10.1016/j.fmre.2022.05.014 15. Ren, L.L.#*, Yang, Y.S.#, Qiu, M.H., Brunson, K., Chen, G.K., Dong, G.H.*, 2022. Direct dating of the earliest domesticated cattle and caprines in northwestern China reveals the history of pastoralism in the Gansu-Qinghai region. Journal of Archaeological Science 144, doi.org/10.1016/j.jas.2022.105627 16. Ma, M.M.*, Lu, M.X., Zhang, S.J., Min, R., Dong, G.H.*, 2022. Asynchronous transformation of human livelihoods in key regions of the trans-Eurasia exchange in China during 4000-2200 BP. Quaternary Science Reviews, 291, 107665. 17. Lu, Y.X.#, Liu, B.B.#, Liu, R.L.#, Jiang, H.E., Yang, Y.S., Ye, Q.H., Li, R., Wei, W.Y., Chen, G.K.*, Dong, G.H.*, 2022.The lifestyle of Tuyuhun royal descendants: identification and chemical analysis of buried plants in the Chashancun cemetery, northwest China. Frontiers in Plant Science, doi: 10.3389/fpls.2022.972891. 18. Li, H.M.#, Sun, Y.F.#, Yang, Y., Cui, Y.F., Ren, L.L., Li, H., Chen, G.K., Vaiglova, P., Dong, G.H.*, Liu, X.Y.*, 2022. Distinct water and soil management by first wheat and barley cultivators in north China. Antiquity, 96, 1478-1494. 19. Liu, F.W*., Zhang, S.J.*, Zhang, H.C., Dong, G.H., 2022. Detecting anthropogenic impact on forest succession from the perspective of wood exploitation on the northeast Tibetan Plateau during the late prehistoric period. Science China Earth Sciences 65. 10.1007/s11430-021-9911-7. (中国科学地球科学,中英文版) 20. Ritchey, M.M., Sun, Y.F., Motuzaite-Matuzeviciute, G., Shoda, S., Pokharia, A.K., Spate, M., Tang, Li., Song, J.X., Li, H.M., Dong, G.H., Vaiglova, P., Frachetti, M., Liu, X.Y., 2022. The wind that shakes the barley: the role of East Asian cuisines on barley grain size. World Archaeology, DOI: 10.1080/00438243.2022.2030792 21. Cao, H.H., Wang, Y.Q.*, Qiu, M.H., Shi, Z.L., Dong, G.H., 2022. On the Exploration of Social Development during a Historical Period in the Eastern Tienshan Mountains via Archaeological and Geopolitical Perspectives. Land, 11, 1416. https://doi.org/10.3390/ land11091416 22. Shi, Z.L., Liu, F.W.*, Yang, Y.S., Li, H., Wang, G., Dong, G.H., Zhang, H. C., 2022. Multiple Factors Affecting the Historical Development of Agriculture in the Hei River Basin, Northwestern China. Environmental Archaeology, DOI: 10.1080/14614103.2022.2031837. 23. Li, H.M.*, Cui, Y.F., James, N., Ritchey, M., Liu, F.W., Zhang, J.N., Ma, M.M.*, Dong, G.H., 2022. Spatiotemporal variation of agricultural patterns in different geomorphologic and climatic environments in the eastern Loess Plateau, north-central China during the late Neolithic and Bronze Ages. Science China Earth Sciences 65, 934-948.(中国科学地球科学,中英文版) 24. Dong, J.J.#, Wang, S.#, Chen, G.K., Wei, W.Y., Du, L.Y., Xu, Y,X., Ma, M.M.*, Dong, G.H., 2022. Stable Isotopic Evidence for Human and Animal Diets From the Late Neolithic to the Ming Dynasty in the Middle-Lower Reaches of the Hulu River Valley, NW China. Frontiers in Ecology and Evolution, doi: 10.3389/fevo.2022.905371. 25. Li, R.#, Li, B.#*, Chen, W., Liu, P.L., Xie, M.X., Zhang, Y.Q., Wang, S., Li, Y.C.*, Dong, G.H., 2022. The alteration from agricultural to nomadic regimes resulted in human livelihood transformation in North-Central China during the 12th century: The archaeobotanical evidence. Frontiers in Plant Science, doi: 10.3389/fpls.2022.978147. 26. Cao, H.H., Wang, Z.L.*, He, J.H., Guo, J.L., Jull, A.J.T., Zhou, A.F.*, Dong, G.H., Chen, F.H., 2022. Performance and inter-comparison tests of the MICADAS at the radiocarbon laboratory of Lanzhou university, China. Radiocarbon, doi:10.1017/RDC.2022.80. 27. Jiang, Q.F., Meng, B.W., Wang, Z., Qian, P., Zheng, J.N., Jiang, J.W., Zhao, C., Hou, J.Z., Dong, G.H., Shen, J.*, Liu, W.G.*, Liu, Z.H.*, Chen, F.H. 2022. Exceptional terrestrial warmth around 4200–2800 years ago in Northwest China. Science Bulletin, 67: 427-436. 28. 芦永秀, 董广辉*. 2022. 西北不同降水区域新石器至青铜时代人类活动与环境变化的关系. 人类学学报, 41(4): 749-763. 29. 陈发虎*, 夏欢, 高玉, 张东菊, 杨晓燕, 董广辉. 2022. 史前人类探索、适应和定居青藏高原的历程及其阶段性讨论. 地理科学, 42(1): 1-14. 2021 30. 董广辉*, 仇梦晗, 李若,陈发虎, 2021。探讨过去人地关系演变机制的“支点”概念模型。地理学报,76(1), 15-29. 31. Dong, G.H.*,#, Li, T#., Zhang, S.J., Ren, L.L., Li, R., Li, G.Q., Xiao, Y.M., Wang, Z.X., Chen, F.H., 2021. Precipitation in surrounding mountains instead of lowlands facilitated the prosperity of ancient civilizations in the eastern Qaidam Basin of the Tibetan Plateau. Catena. 203, 105318. https://doi.org/10.1016/j.catena.2021.105318. 32. Dong, G.H.*, Du, L.Y., Wei, W.Y., 2020. The impact of early trans-Eurasian exchange on animal utilization in northern China during 5000-2500 BP. Holocene, 31(2) 294-301. DOI: 10.1177/0959683620941169. 33. Dong, G.H., Wang, L.B.*, Zhang, D. D., Liu, F.W., Cui, Y.F., Li, G.Q., Shi, Z.L., Chen, F.H., 2021. Climate-driven desertification and its implications for the ancient Silk Road trade. Climate of the Past, 17(3), 1395-1407. 34. Tan, L.C., Dong, G.H., An, Z.S., Edwards, R.L., Li, H.M., Li, D., Spengler, R., Cai, Y.J., Cheng, H., Lan, J,H., Orozbaev, R., Liu, R.L., Chen, J.H., Xu, H., Chen, F.H., 2020. Megadrought and cultural exchange along the proto-silk road, Science Bulletin, 66(6): 603-611. doi:10.1016/j.scib.2020.10.011 35. Zhang, S.J., Lu, Y.W., Wei W.Y., Qiu, M.H, Dong, G.H.*, Liu, X.Q.*, 2020. Human activities have altered fire-climate relations in arid Central Asia since ~1000 a BP: evidence from a 4200-year-old sedimentary archive, Science Bulletin, 66(8), 761-764. https://doi.org/10.1016/j.scib.2020.12.004 36. Zhang, F., Ning, C., Scott, A., Fu, Q.M., Bjorn, R., Li, W.Y., Wei, D.,Wang, W.J., Fan, L.Y., Abuduresule, I., Hu, X.J., Ruan, Q.R., Niyazi, A., Dong, G.H., Cao, P., Liu, F., Dai, Q.Y., Feng, X.T., Yang, R.W., Tang, Z.H., Ma, P.C., Li, C.X., Gao, S.Z., Xu, Y., Wu, S.H., Wen, S.Q., Zhu, H., Zhou, H., Robbeets, M., Kumar, V., Krause, J., Warinner, H., Jeong, C., Cui, Y.Q., 2021. The genomic origins of the Bronze Age Tarim Basin mummies. Nature, 599(7884), 256-261. 37. Yang, B., Qin, C., Bräuning, A., Osborn, T.J., Trouet, V., Ljungqvist, F.C., Esper, J., Schneider, L., Grießinger, J., Büntgen, U., Rossi, S., Dong, G.H., Yan, M., Ning, L., Wang, J.L., Wang, X.F., Wang, S.M., Luterbacher, J., Cook, E.R., Stenseth, N.C., 2021, Long-term decrease in Asian monsoon rainfall and abrupt climate change events over the past 6,700 years. Proceedings of the National Academy of Sciences, 118, e2102007118. 38. Jiang, Q.F., Meng, B.W., Wang, Z., Qian, P., Zheng, J.N., Jiang, J.W., Zhao, C., Hou, J.Z., Dong, G.H., Shen, J., Liu, W.G., Liu, Z.H., Chen, F.H., 2021. Exceptional terrestrial warmth around 4200-2800 years ago in northwest china. Science Bulletin, (In Press). 39. Lv, F.Y., Chen, J.H., Zhou, A.F., Cao, X.Y., Zhang, X., Wang, Z.Q., Wu, D., Chen, X.M., Yan, J.J., Wang, H.P., Dong, G.H., Xu, Q.H., Huang, X.Z., Chen, F.H., 2021. Vegetation history and precipitation changes in the NE Qinghai-Tibet Plateau: A 7,900-years pollen record from Caodalian Lake. Paleoceanography and Paleoclimatology, 36, e2020PA004126. https://doi.org/10.1029/2020PA004126 40. 王宗礼, 曹辉辉*, 肖永明, 何建华, 张山佳, 董广辉. 2021. 青藏高原东北部沙隆卡遗址史前人群活动和生存环境基础. 第四纪研究, 41(1): 201-213. 2020 41. Chen, N.B.#, Ren, L.L.#, Du, L.Y.#, Hou, J.W.#, Mullin, V.E., Wu, D., Zhao, X.Y., Li, C.M., Huang, J.H., Qi, X.B., Capodiferro, M.R., Achilli, A., Lei, C.Z., Chen, F.H., Su, B.*, Dong, G.H.*, Zhang, X.M.*, 2020. Ancient genomes reveal tropical bovid species in the Tibetan Plateau contributed to the prevalence of hunting game until the late Neolithic. Proceedings of the National Academy of Sciences, 117(45): 28150-28159. DOI: 10.1073/pnas.2011696117 42. Dong, G.H.*, Li, R., Lu, M.X., Zhang, D.J., James, N., 2020. Evolution of human-environmental interactions in China from the Late Paleolithic to the Bronze Age. Progress in Physical Geography: Earth and Environment, 44(2): 233-250. 43. Ren, L.L., Dong, G.H.*, Liu, F.W., d’Alpoim-Guedes, J.*, Flad, R. K., Ma, M.M., Li, H.M., Yang, Y.S., Liu, Y.J., Zhang, D.J., Li, G.L., Li, J.Y., Chen, F.H., 2020. Foraging and farming: archaeobotanical and zooarchaeological evidence for Neolithic exchange on the Tibetan Plateau. Antiquity, 94 (375): 637-652. 44. Li, R., Lv, F.Y., Yang, L., Liu, F.W., Liu, R.L.*, Dong, G.H.*, 2020. Spatial-Temporal Variation of Cropping Patterns in Relation to Climate Change in Neolithic China. Atmosphere, 11(7): 677. 45. Cao, H.H., Dong, G.H.*, 2020. Social development and living environment changes in the Northeast Tibetan Plateau and contiguous regions during the late prehistoric period. Regional Sustainability, 1(1): 59–67. 46. Chen, F.H.#,*, Chen, S.Q.#, Zhang, X., Chen, J.H., Wang, X., Gowan, E.J., Qiang, M.R., Dong, G.H., Wang, Z.L., Li, Y.C., Xu, Q.H., Xu, Y.Y., Smal, J.P., Liu, J.B.*, 2020. Asian Dust-Storm Activity Dominated by Chinese Dynasty Changes since 2000 BP. Nature Communications, 11, https://doi.org/10.1038/s41467-020-14765-4. 47. Ning, C, Li, T.J., Wang, K., Zhang, F., Li, T., Wu, X.Y., Gao, S.Z., Zhang, Q.C., Zhang, H., Hudson, M.J., Dong, G.H., Wu, S.H., Fang, Y.M., Liu, C., Feng, C.Y., Li, W., Han, T., Li, R., Wei, J., Zhu, Y.G., Zhou, Y.W., Wang, C.C., Fan, S.Y., Xiong, Z.L., Sun, Z.Y., Ye, M.L., Sun, L., Wu, X.H., Liang, F.W., Cao, Y.P., Wei, X.T., Zhu, H., Zhou, H., Krause, J., Robbeets, M., Jeong, C., Cui, Y.Q., 2020. Ancient Genomes from Northern China Suggest Links between Subsistence Changes and Human Migration. Nature Communications, 11, https://doi.org/10.1038/s41467-020-16557-2 48. Gao, Y., Dong, G.H., Yang, X.Y.*, Chen, F.H., 2020. A review on the spread of prehistoric agriculture from southern China to mainland Southeast Asia. Science China Earth Sciences, 63, https://doi.org/10.1007/s11430-019-9552-5.(中国科学地球科学,中英文版) 49. Zhang, M., Sun, G.P., Ren, L.L., Yuan, H.B., Dong, G.H., Zhang, L.Z., Liu, F., Cao, P., Min-Shan Ko, A., Yang, M.A., Hu, S.M.*, Wang, G.D.*, Fu, Q.M.*, 2020. Ancient DNA Evidence from China Reveals the Expansion of Pacific Dogs. Molecular Biology and Evolution, doi:10.1093/molbev/msz311. 50. Ding, M.Y.#, Wang, T.Y.#, Min-Shan Ko, A.#, Ding, M.Y., Chen, H.H., Wang, H., Dong, G.H., Lu, H.L., He, W., Wangdue, S., Yuan, H.B., He, Y.H., Cai, L.H., Chen, Z.J., Hou, G.L., Zhang, D.J., Zhang, Z.X., Cao, P., Dai, Q.Y., Feng, X.T., Zhang, M., Wang, H.R., Yang, M.A., Fu, Q.M.*, 2020. Ancient mitogenomes show plateau populations from last 5200 years partially contributed to present-day Tibetans. Proceedings of The Royal Society B: Biological Sciences, 287: 20192968. 51. Du, L.Y., Ma, M.M., Lu, Y.W., Dong, J.J., Dong, G.H., 2020. How did human activity and climate Change influence animal exploitation during 7500–2000 BP in the Yellow River Valley, China? Frontiers in Ecology and Evolution, 8, doi: 10.3389/fevo.2020.00161. 52. Ren, L.L., Yang, Y., Wang, Q.Q., Zhang, S.J.*, Chen, T.T., Cui, Y.F., Wang, Z.X., Liang, G.J., Dong, G.H., 2020. The transformation of cropping patterns from Late Neolithic to Early Iron Age (5900–2100 BP) in the Gansu–Qinghai region of northwest China. Holocene, DOI: 10.1177/0959683620941137. 2019 53. Chen, F.H.#,*, Welker, F.#, Shen, C.C.#, Bailey, S.E., Bergmann, I., Davis, S., Xia, H., Wang, H., Fischer, R., Freidline, S.E., Yu, T.L., Skinner, M.M., Stelzer, S., Dong, G.R., Fu, Q.M., Dong, G.H., Wang, J., Zhang, D.J.*, Hublin, J.J.* 2019. A late Middle Pleistocene Denisovan mandible from the Tibetan Plateau. Nature, 569(7756): 409. 54. Yang, Y.S., Zhang, S.J.*, Oldknow, C., Qiu, M.H., Chen, T.T., Li, H.M., Cui, Y.F., Ren, L.L., Chen, G.K., Wang, H., Dong, G.H.* 2019. Refined chronology of prehistoric cultures and its implication for re-evaluating human-environment relations in the Hexi Corridor, northwest China. Science China Earth Sciences, 62, 1578–1590(中国科学地球科学,中英文版) 55. Liu, F.W., Li, H.M., Cui, Y.F., Yang, Y.S., Lee, H.F., Ding, D.T., Hou, Y.G., Dong, G.H.* 2019. Chronology and Plant Utilization from the Earliest Walled Settlement in the Hexi Corridor, Northwestern China. Radiocarbon, 61(4): 971-989. 56. Liu, F.W., Yang, Y.S., Shi, Z.L., Storozum, M. J., Dong, G.H.* 2019. Human settlement and wood utilization along the mainstream of Heihe River basin, northwest China in historical period. Quaternary International, 516: 141-148. 57. Lu, M.X., Chen, L., Wang, J.X., Liu, R.L., Yang, Y., Wei, M., Dong, G.H.* 2019. A brief history of wheat utilization in China. Frontiers of Agricultural Science and Engineering, 6(3): 288-295. 58. Li, Y.C.#, Tian, J.Y.#, Liu, F.W., Yang, B.Y., Gu, K.S.Y., Rahman, Z.U., Yang, L.Q., Chen, F.H., Dong, G.H.*, Kong, Q. P.* 2019. Neolithic millet farmers contributed to the permanent settlement of the Tibetan Plateau by adopting barley agriculture. National Science Review, doi: 10.1093/nsr/nwz080. 59. Yang, Y,S., Ren, L.L., Dong, G.H., Liu, R.L., Chen, G.K., Wang, H., Wilkin, S., Chen, F.H. 2019. Economic change in the prehistoric Hexi corridor (4800-2200 BP), North-West China. Archaeometry, 61(4): 957–976. 60. Chen, F.H.*, Fu, B.J., Xia, J., Wu, D., Wu, S.H., Zhang, Y.L., Sun, H., Liu, Y., Fang, X.M., Qin, B.Q., Li, X., Zhang, T.J., Liu, B.X., Dong, Z.B., Hou, S.G., Tian, L.D., Xu, B.Q., Dong, G.H., Zheng, J.Y., Yang, W., Wang, X., Li, Z.J., Wang, W., Hu, Z.B., Wang, J., Liu, J.B., Chen, J.H., Huang, W., Hou, J.Z., Cai, Q.F., Long, H., Jiang, M., Hu, Y.X., Feng, X.M., Mo, X.G., Yang, X.Y., Zhang, D.J., Wang, X.H., Yin, Y.H., Liu, X.C., 2019. Major advances in studies of the physical geography and living environment of China during the past 70 years and future prospects. Science China Earth Sciences, 62: 1665-701.(中国科学地球科学,中英文版) 61. 董广辉*, 李若,2019。丝路之前的东西方交流。科学,71(6), 32-35. 2018 62. Dong, G.H.*, 2018. A new story for wheat into China. Nature Plants, 4: 243-244. 63. Dong, G.H.*,Yang, Y.S., Liu, X.Y., Li, H.M., Cui, Y.F., Wang, H., Chen, G.K., Dodson, J., Chen, F.H. 2018. Prehistoric trans-continental cultural exchange in the Hexi Corridor, northwest China. The Holocene, 28(4): 621–628. 64. Dong, G.H.*, Zhang, F.Y.*, Liu, F.W., Zhang, D.J., Zhou, A.F., Yang, Y.S., Wang, G.H. 2018. Multiple evidences indicate no relationship between prehistoric disasters in Lajia site and outburst flood in upper Yellow River valley, China. Science China Earth Sciences, 61(4), 441-449.(中国科学地球科学,中英文版) 65. Ren, L.L., Dong, G.H*., Li, H.M., Rhode, D., Flad, R.K., Li, G.Q., Yang, Y., Wang, Z.X., Cai, L.H., Ren, X.Y., Zhang, D.J., Chen, F.H. 2018. Dating Human Settlement in the East-Central Tibetan Plateau During the Late Holocene. Radiocarbon, 60, 137-150. 66. Zhang, J.N., Xia, Z.K., Zhang, X.H., Storozum, M.J., Huang, X.Z., Han, J.Y., Xu, H., Zhao, H.T., Cui, Y.F., Dodson, J., Dong, G.H., 2018. Early-middle Holocene ecological change and its influence on human subsistence strategies in the Luoyang Basin, north-central China. Quaternary Research, 89, 446-458. 2017 67. Dong, G.H.*, Liu, F.W., Chen, F.H. 2017. Environmental and technological effects on ancient social evolution at different spatial scales. Science China Earth Sciences, 60,2067-2077.(中国科学地球科学,中英文版) 68. Dong, G.H.*, Yang, Y.S., Han, J.Y., Wang, H., Chen, F.H. 2017. Exploring the history of cultural exchange in prehistoric Eurasia from the perspectives of crop diffusion and consumption. Science China Earth Sciences, 60(6), 1110-1123.(中国科学地球科学,中英文版) 69. Zhang, N.M., Dong, G.H*., Yang, X.Y., Zuo, X.X., Kang, L.H., Ren, L.L., Liu, H.G., Li, H., Min, R., Liu, X., Zhang, D.J., Chen, F.H. 2017. Diet reconstructed from an analysis of plant microfossils in human dental calculus from the Bronze Age site of Shilinggang, southwestern China. Journal of Archaeological Science, 83, 41-48. 70. Ren, L.L., Li, X., Kang, L.H., Brunson, K., Liu, H.G., Dong, W.M., Li, H.M., Min, R., Liu, X., Dong, G.H*., 2017. Human paleodiet and animal utilization strategies during the Bronze Age in northwest Yunnan Province, southwest China. PloS ONE, 12(5), e0177867. 71. Zhang, S.J., Yang, Y.S., Storozum, M.J., Li, H.M., Cui, Y.F., Dong, G.H*., 2017. Copper smelting and sediment pollution in Bronze Age China: A case study in the Hexi corridor, Northwest China. Catena, 156, 92-101. 72. Yang, Y.S., Dong, G.H*., Zhang, S.J., Cui, Y.F., Li, H.M., Chen, G.K., Dodson, J., Chen, F.H., 2017. Copper content in anthropogenic sediments as a tracer for detecting smelting activities and its impact on environment during prehistoric period in Hexi Corridor, Northwest China. The Holocene, 27, 282-291. 73. Li, H.M., Liu, F.W., Cui, Y.F., Ren, L.L., Storozum, M.J., Qin, Z., Wang, J., Dong, G.H*., 2017. Human settlement and its influencing factors during the historical period in an oasis-desert transition zone of Dunhuang, Hexi Corridor, northwest China. Quaternary International, 113-122. 74. 张山佳, 董广辉*. 2017. 青藏高原东北部青铜时代中晚期人类对不同海拔环境的适应策略探讨. 第四纪研究, 37(4), 696-708. 75. Zhang, D.J., Zhang, N.M., Wang, J., Ha, B.B., Dong, G.H., Chen, F.H. 2017. Comment on “Permanent human occupation of the central Tibetan Plateau in the early Holocene. Science, 357(6351), eaam8273. 76. Huang, X.Z., Liu, S.S., Dong, G.H., Qiang, M.R., Bai, Z.J., Zhao, Y., Chen, F.H. 2017. Early human impacts on vegetation on the northeastern Qinghai-Tibetan Plateau during the middle to late Holocene. Progress in Physical Geography, 41(3), 286-301. 77. Liu, X.Y., Lister, D.L., Zhao, Z.J., Petrie, C.A., Zeng, X.S., Jones, P.J., Staff, R.A., Pokharia, A.K., Bates, J., Singh, R.N., Weber, S.A., Matuzevicitute, G.M., Dong, G.H., Li, H.M., Lu, H.L., Jiang, H.G., Wang, J.X., Ma, J., Tian, D., Jin, G.Y., Zhou, L.P., Wu, X.H., Jones, M.K. 2017. Journey to the east: Diverse routes and variable flowering times for wheat and barley en route to prehistoric China. PLoS ONE, 12(11), e0187405. 78. 陈发虎*, 安成邦, 董广辉, 张东菊. 2017. 丝绸之路与泛第三极地区人类活动, 环境变化和丝路文明兴衰. 中国科学院院刊, 9, 967-975. 2016 79. Ma, M.M., Dong, G.H*., Jia, X., Wang, H., Cui, Y.F., Chen, F.H., 2016. Dietary shift after 3600 cal yr BP and its influencing factors in northwestern China: Evidence from stable isotopes, Quaternary Science Reviews, 145, 57-70. 80. Dong, G.H.*, Ren, L.L., Jia, X., Liu, X,Y., Dong, S.M., Li, H,M., Wang, Z.X., Xiao, Y.M., Chen, F.H., 2016. Chronology and subsistence strategy of Nuomuhong culture in the Tibetan Plateau. Quaternary International, 426, 42-49. 81. Dong, G.H.*, Liu, H.G., Yang, Y.S., Yang, Y., Zhou, A.F., Wang, Z.X., Ren, X.Y., Chen, F.H., 2016. Emergence of ancient cities in relation to geopolitical circumstances and climate change during late Holocene in northeastern Tibetan Plateau, China. Frontiers of Earth Science, 1-14. 82. Li, H.M., Zuo, X.X., Kang, L.H., Ren, L.L., Liu, F.W., Liu, H.G., Zhang, N.M., Min, R., Liu, X., Dong, G. H*., 2016. Prehistoric agriculture development in the Yunnan-Guizhou Plateau, southwest China: Archaeobotanical evidence. Science China Earth Sciences, 59, 1562-1573.(中国科学地球科学,中英文版) 83. 董广辉*, 张山佳,杨谊时,陈建徽,陈发虎,2016。中国北方新石器时代农业强化及对环境的影响。科学通报,61(26), 2913-2925. 84. 董广辉*, 刘峰文, 杨谊时, 王琳, 陈发虎,2016. 黄河流域新石器文化的空间扩张及其影响因素. 自然杂志, 38(4), 248-252. 85. 任乐乐,董广辉*, 2016。“六畜” 的起源和传播历史. 自然杂志, 38(4): 257-262. 86. Dodson, John, Guanghui Dong., 2016. What do we know about domestication in eastern Asia? Quaternary International, 426, 2-9. 87. Zhang, D.J., Dong, G.H., Wang, H., Ren, X.Y., Ha, P.P., Qiang, M.R., Chen, F.H., 2016. History and possible mechanisms of prehistoric human migration to the Tibetan Plateau. Science China Earth Sciences, 59(9), 1765-1778.(中国科学地球科学中英文版) 88. Chen J H*, Rao Z G, Liu J B, Huang W, Feng S, Dong G H, Hu Y, Xu Q H, Chen F H*. 2016. On the timing of the East Asian summer monsoon maximum during the Holocene - Does the speleothem oxygen isotope record reflect monsoon rainfall variability? Science China Earth Sciences, 59, 2328-2338.(中国科学地球科学,中英文版) 89. 陈发虎*, 刘峰文, 张东菊, 董广辉,2016. 史前时代人类向青藏高原扩散的过程与动力. 自然杂志, 38(4), 235-240. 2015 90. Chen, F. H*., Dong, G. H*., Zhang, D. J., Liu, X. Y., Jia, X., An, C. B., Ma, M.M., Xie, Y. W., Barton, L., Ren, X. Y., Zhao, Z. J., Wu, X. H., Jones, M. K., 2015. Agriculture facilitated permanent human occupation of the Tibetan Plateau after 3600 BP. Science, 347, 248-250. 91. Dong, G. H.*, Zhang, D. J., Liu, X. Y*., Liu, F. W., Chen, F. H., Jones, M. K., 2015. Response to Comment on “Agriculture facilitated permanent human occupation of the Tibetan Plateau after 3600 BP”. Science, 348, 872-c. 92. Ren, L.L., Wang, Y.R., Li, G.Q., Li, Q.L., Ma, Z.T., Dong, G.H*., 2015. Discovery of a tiger (Panthera tigris (L.)) skeleton from the Little Ice Age buried on the shore of Qinghai Lake, northeast Tibet Plateau. Quaternary International, 355, 145-152. 93. Ma, M.M., Dong, G.H*., Liu X., Lightfoot, E., Chen, F.H., Wang, H., Li, H., Jones, M., 2015. Stable isotope analysis of human and faunal remains at Qijiaping site in middle Gansu, China. International Journal of Osteoarchaeology, 25(6), 925-934. 94. Cui, Y.F., Dong, G.H*., Li, H.M., An, T., Liu, X.Y., Wang, J., Wang, H., Ren, X.Y., Li, X.B., Chen, F., 2015. Early ceramic trade in Gansu and Qinghai regions, northwest China: A comparative elemental analysis on sherds of Majiayao culture, Yangshao culture and Qijia culture. Journal of Archaeological Science: Reports 3, 65-72. 95. Chen, F.H., Xu, Q.H., Chen, J.H., Birks, H.J.B., Liu, J.B., Zhang, S.R., Jin, L.Y., An, C.B., Telford, R.J., Cao, X.Y., Wang, Z.L., Zahng, X.J., Selvaraj, K., Lü, H.Y., Li, Y.C., Zheng, Z., Wang, H.P., Zhou, A.F., Dong, G.H., Zhang, J.W., Huang, X.Z., Bloemendal, J., Rao, Z.G., 2015. East Asian summer monsoon precipitation variability since the last deglaciation. Scientific Report, 5, 11186. 2014 96. Dong, G.H.*, Zhang, F.Y., Ma, M.M., Fan, X.Y., Wang, Z.L., Zhang, J.W., Chen, F.H., 2014. Ancient landslide-dam events in the Jishi Gorge in the Guanting Basin in the upper Yellow River valley, China. Quaternary Research, 81, 445-451. 97. Dong, G.H., Wang, Z.L., Ren, L.L., Matuzeviciute, G.M., Wang, H., Ren, X.Y., Chen, F.H.*, 2014. A comparative study of radiocarbon dating charcoal and charred seeds from the same flotation samples in the Late Neolithic and Bronze Age sites in the Gansu and Qinghai Provinces, northwest China. Radiocarbon, 56, 157-163. 98. Li, G.Q., Dong, G.H*., Wen, L.J., Chen, F., 2014. Overbank flooding and human occupation of the Shalongka site in the Upper Yellow River Valley, northeast Tibet Plateau in relation to climate change since the last deglaciation. Quaternary Research,82,354-365. 99. Ma, M.M., Dong, G.H*., Robert, E., Meng, X.M., Chen, F.H., 2014. Process of paleofloods in Guanting basin, Qinghai Province, China and possible relation to monsoon strength during the mid-Holocene. Quaternary International, 321, 88-96. 100. Ma, M.M., Dong, G.H*, Lightfoot, E., Wang, H., Liu, X.Y., Jia, X., Zhang, K.R., Chen, F.H., 2014. Stable Isotope Analysis of Human and Faunal Remains in the Western Loess Plateau, Gansu, China, approximately 4000 Cal BP. Archaeometry, 56 Suppl, 237–255. 101. Zongli Wang*, Hui Zhao, Guanghui Dong, Aifeng Zhou, Jianbao Liu, Dongju Zhang, Reliability of radiocarbon dating on various fractions of loess-soil sequence for Dadiwansection in the western Chinese Loess Plateau,Frontiers of Earth Science,2014,8, 540-546. 102. 李虎,安成邦*,董惟妙,王树芝,董广辉,陇东地区齐家文化时期木炭化石记录及其指示意义,第四纪研究,2014,34(1), 35-42. 2013 103. Dong, G.H.*, Jia, X., Robert, E., Chen, F.H., Li, S.C., Wang, L., Cai, L.H., An, C.B., 2013. Spatial and temporal variety of prehistoric sites and its influencing factors in the upper Yellow River valley, Qinghai Province, China. Journal of Archaeological Science, 40, 2538-2546. 104. Dong, G.H.*, Wang, L., Cui, Y.F., Robert, E., Chen, F.H., 2013. The spatiotemporal pattern of the Majiayao cultural evolution and its relation to climate change and variety of subsistence strategy during late Neolithic period in Gansu and Qinghai Provinces, northwest China. Quaternary International, 316, 155-161. 105. Jia, X., Dong, G.H*., Li, H., Brunson, K., Chen, F.H., Ma, M.M., Wang, H., An, C.B., Zhang, K.R., 2013. The development of Agriculture and its impact on cultural expansion during the late Neolithic in the Western Loess Plateau, China. The Holocene, 23, 83-90. 106. 董广辉*, 2013. 甘青地区新石器文化演化及其环境动力研究进展与展望. 海洋地质与第四纪地质, 33(4), 67-75. 107. 杨颖*,董广辉,赵艳,李国强,任乐乐,方克艳,吴娴, 2013.器测记录的青海省1960—2008年气温与降水时空变化(英文) . 海洋地质与第四纪地质,33(4), 45-54. 108. 张晓, 贾鑫, 饶志国*, 董广辉,张东菊,2013. 陇西黄土高原东南部地区末次冰期以来C3/C4植物相对丰度变化及其区域性剖面的对比研究. 第四纪研究,33(1): 187-196. 2012 109. Dong, G.H.*, Jia, X., An, C.B., Chen, F.H., Zhao, Y., Tao, S.C., Ma, M.M., 2012. Mid-Holocene climate change and its effect on prehistoric cultural evolution in eastern Qinghai Province, China, Quaternary Research, 77, 23-30. 110. Dong, G.H.*, Yang, Y., Zhao, Y., Zhou, A.F., Zhang, X.J., Li, X.B., Chen, F.H., 2012. Human settlement and human-environment interactions during the historical period in Zhuanglang County, western Loess Plateau, China. Quaternary International, 281, 78-83. 111. 马敏敏*,董广辉,贾鑫,张占仓 ,2012. 青海省化隆县新石器-青铜时代聚落形态及其影响因素分析. 第四纪研究,32(2), 209-218. 2011及以前 112. Elston, R., Dong, G.H., Zhang, D.J., 2011. Late Pleistocene intensification technologies in Northern China. Quaternary International 242, 401-405 113. An, C.B., Ji, D.X., Chen, F.H., Dong, G.H., Wang, H., Dong, W.M., Zhao, X.Y., 2010. Evolution of prehistoric agriculture in central Gansu Province, China: A case study in Qin’an and Li County. Chinese Science Bulletin 55, 1925-1930. 114. Aifeng Zhou,Huiling Sun,Fahu Chen*,Yan Zhao,Chengbang An,Guanghui Dong,Zongli Wang,Jianhui Chen,High-resolution climate change in mid-late Holocene on Tianchi Lake, Liupan Mountain in the Loess Plateau in central China and its significance ,Chinese Science Bulletin,2010,55, 2118-2121. 115. Zhang DongJu,Chen FaHu*,Bettinger, R. L.,Barton, L.,Ji DuXue,Morgan, C.,Wang Hui,Cheng XiaoZhong,Dong GuangHui,Guilderson, T. P.,Zhao Hui ,2010. Archaeological records of Dadiwan in the past 60 ka and the origin of millet agriculture ,Chinese Science Bulletin,55(16), 1636-1642. 116. 董广辉*,贾鑫,安成邦等,2008.青海省长宁遗址沉积物元素对晚全新世人类活动和气候变化的响应,海洋地质与第四纪地质, 28(2): 115-119. 117. 董广辉*,夏正楷,刘德成,2006, 河南孟津地区中全新世环境变化及其对人类活动的影响 ,北京大学学报(自然科学版),42(2): 238-243 118. 董广辉*, 夏正楷, 刘德成, 吴庆龙, 王振亭,2007.文明起源时期河南孟津地区人类活动对土壤化学性质的影响 ,兰州大学学报(自然科学版),43(1):6-10. 119. 贾鑫,王琳,董广辉*,陈发虎,安成邦,2008.中全新世关中陇东地区文化演变及环境驱动力,兰州大学学报(自然科学版),44(6):8-14. 120. Wang Zhenting, Tao Shichen, Xie Yaowen, Dong Guanghui, 2007, Barchans of Minqin: Morphometry, Geomorphology, 89 :405-411.
出版著作
出版专著/编辑专辑 1. 董广辉,杨谊时,任乐乐,马敏敏,2020.河西走廊地区史前时代生业模式和人与环境相互作用,科学出版社,北京 2. Dong, G.H., Zhang, S.J., Zhang, Z.P. edits, “Effects of Human-Environment Interaction on Land Ecosystem Since Holocene II”, Land, 2023. 3. Ma, M.M., Cao, X.Y., Dong, G.H. edits, “Effects of Human-Environment Interaction on Land Ecosystem since Holocene”, Land, 2022. 4. Dong, G.H., Lee, Harry F., Ren, L.L. edits, “Human-environmental interactions in prehistoric periods- Volume II”, Frontiers in Earth Science, 2022. 5. Dong, G.H., Jade d'Alpoim Guedes. edits, “Human-environmental interactions in prehistoric periods”, Frontiers in Earth Science, 2021. 6. Liu, R.L., Dong, G.H., Ma, M.M., Pollard, A. M. edits, “Correlating changes for environmental, technological and societal transformation in prehistoric eastern Asia”, Holocene, 2021. 7. Chen, F.H., Dong, G.H., Chen, J.H., Huang, W., Chen, S.Q., Hou, J.Z. edits, “Civilization and Environment along the Ancient Silk Road”, Acta Geologica Sinica (English Edition), 2020, 94(3). 8. 董广辉。过去人与环境相互作用(Past human-environment interaction),(中国科学地球科学,中英文版),2018;48卷第2期(中文);61卷第29期(英文) 9. John Dodson and Donghui Dong edits "Domestication East Asia" Quaternary International 426, 2016 10. 莫多闻,陈发虎,王辉(主编);袁靖,宋豫秦,曹兵武,吕厚远,董广辉,杨晓燕(副主编),2016.环境考古研究(第五辑),科学出版社,北京 专著/文集中的章节 1. 安成邦,董广辉,陈发虎,2010.农业起源之谜。见《10000个科学难题(地球科学卷)》,《10000个科学难题》地球科学编委会,北京:科学出版社,56-57。 2. 马敏敏,贾鑫,董广辉,陈发虎,安成邦,2009:甘肃省洮砚遗址晚全新世文化演变的环境背景研究,中华文明探源工程文集环境卷,科学出版社,北京,40-48