1.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.

2.Dong, G.H.*, 2018. A new story for wheat into China. Nature Plants, 4: 243-244.

3.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.

4. 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.

5. 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

6. 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

7. 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.

8. Wu, D.*, Ma, X.Y., Yuan, Z.J., Hillman, A., Zhang, J.W., Chen, J.H., Zhou, A.F. 2022. Holocene hydroclimate variation on the Tibetan Plateau: An isotopic perspective. Earth-Science Reviews. 233, 104169. https://doi.org/10.1016/j.earscirev.2022.104169

9. Zhou Ai-feng, Chen Fa-hu, Wang Zong-li, Yang Mei-lin, Qiang Ming-rui, Zhang Jia-wu, temporal change of radiocarbon reservoir effect in sugan lake, northwest china during the late Holocene, Radiocarbon, 2009, 51(2):529-535

10.Yanyun Nian, Zeyu He, Wenhui Zhang, Long Chen. Land Cover Changes of the Qilian Mountain National Park in Northwest China Based on Phenological Features and Sample Migration from 1990 to 2020[J]. Remote Sensing. 2023; 15(4):1074.

11.贾卓,强文丽,王月菊,李恩龙,陈兴鹏.兰州—西宁城市群工业污染集聚格局及其空间效应[J].经济地理,2020,40(1):68-75.

12. 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.

13.Cao HH, Wang ZL, He JH, Guo JL, Jull AJT, Zhou AF, Dong GH, Chen FH. 2023. Performance and inter-comparison tests of the MICADAS at the radiocarbon laboratory of Lanzhou University, China. Radiocarbon, 65(1): 41-50.