1.（主持）国家自然科学基金委青年基金项目：新疆西部博尔塔拉河流域相对花粉产量估算及其应用、2019-2021；

2.（主持）中国科学院“西部之光”人才计划：定量重建长江三角洲地区全新世以来高分辨率气候、植被与人类活动变化序列、2017-2020；

3.（主持）黄土与第四纪地质国家重点实验室培育项目：基于孢粉资料的季风区高分辨率古气候和古植被定量集成重建、2016-2019；

4.（主持）中国科学院地球环境研究所创新基金：江汉平原中部全新世孢粉记录的植被与气候变化及人类活动、2016-2018；

5.（主持）西北大学科研启动基金：亚洲季风-干旱区东、西部全新世孢粉记录的水热组合特征对比研究、2019-2022；

6.（主持）文化遗产研究与保护技术教育部重点实验室开放基金：基于植物微体化石探讨黑山岭遗址古人类生业模式、2020-2022；

7.（参与）国家自然科学基金青年基金项目：南海现代砗磲壳体高分辨率元素地球化学记录及其对南海表层碳酸盐系统的指示意义、2018-2020；

8.（参与）海洋科学与技术国家实验室开放项目：利用砗磲重建南海过去 2000 年月分辨率气候变化、2017-2020；

9.（参与）国家自然科学基金面上项目：山西北部全新世植被演替和气候变化定量重建、 2012-2014；

9.（参与）国家自然科学基金面上项目：中国北方草原区主要植物类型相对花粉产量和花粉源范围、2011-2013；

10.（参与）芬兰科学院项目：EBOR (Ecological history and long-term dynamics of the Boreal forest ecosystem)、2014-2018；

11.（参与）芬兰科学院项目：QVR (Quantitative Vegetation Reconstructions)、 2010-2013。

1. Li, J.Y., Wang, N.L., Holocene grassland fire dynamics and forcing factors in continental interior of China. Geophysical Research Letters, 47: e2020GL088049, 2020 (中科院地学一区, IF: 4.497).

2. Li, J.Y., Wang, N.L., Dodson, J., Yan, H., Zhang, X.J., Jia, W.M., Seppä, H., Holocene negative coupling of summer temperature and moisture availability over southeastern arid Central Asia. Climate Dynamics, 55: 1187–1208, 2020 (中科院地学二区, IF: 4.486).

3. Li, J.Y., Dodson, J., Yan, H., Wang, W.M., Innes, J.B., Zong, Y.Q., Zhang, X.J., Xu, Q.H., Ni, J., Lu, F.Y., Quantitative Holocene climatic reconstructions for the lower Yangtze region of China. Climate Dynamics, 50: 1101–1113, 2018 (中科院地学一区, IF: 3.77).

4. Li, J.Y., Yan, H., Dodson, J., Xu, Q.H., Sun, A.Z., Cheng, B., Li, C.H., Ni, J., Zhang, X.J., Lu, F.Y., Regional-scale precipitation anomalies in northern China during the Holocene and possible impact on prehistoric demographic changes. Geophysical Research Letters, 45: 12,477–12,486, 2018 (中科院地学一区, IF: 4.34).

5. Li, J.Y., Dodson, J., Yan, H., Zhang, D.D., Zhang, X.J., Xu, Q.H., Lee, H.F., Pei, Q., Cheng, B., Li, C.H., Ni, J., Sun, A.Z., Lu, F.Y., Quantifying climatic variability in monsoonal northern China over the last 2200 years and its role in driving Chinese dynastic changes. Quaternary Science Reviews, 159: 35–46, 2017 (中科院地学一区, IF: 4.797).

6. Li, J.Y, Zhao, Y., Xu, Q., Zheng, Z., Lu, H., Luo, Y., Li, Y., Li, C., Seppä, H., Human influence as a potential source of bias in pollen-based quantitative climate reconstructions. Quaternary Science Reviews, 99: 112–121, 2014 (中科院地学一区, IF: 4.797).

7. Li, J.Y., Dodson, J., Yan, H., Cheng, B., Zhang, X.J., Xu, Q.H., Ni, J., Lu, F.Y., Quantitative precipitation estimates for the northeastern Qinghai-Tibetan Plateau over the last 18,000 years. Journal of Geophysical Research: Atmospheres, 122: 5132–5143, 2017 (中科院地学二区, IF: 3.454).

8. Li, J.Y., Ilvonen, L., Xu, Q.H., Ni, J., Jin, L.Y., Holmstrom, L., Zheng, Z., Lu, H.Y., Luo, Y.L., Li, Y.C., Li, C.H., Zhang, X.J., Seppä, H., East Asian summer monsoon precipitation variations in China over the last 9500 years: a comparison of pollen-based reconstructions and model simulations. The Holocene, 26: 592–602, 2016 (中科院地学三区, IF: 2.419).

9. Li, J.Y., Xu, Q.H., Zhuo, Z., Lu, H.Y., Luo, Y.L., Li, Y.C., Li, C.H., Seppä, H., Assessing the importance of climate variables for the spatial distribution of modern pollen data in China. Quaternary Research, 83: 287–297, 2015 (中科院地学三区, IF: 2.329).

10. Li, J.Y., Xu, Q.H, Gaillard-Lemdahl, M. J., Seppä, H., Li, Y., Hun, L., Li, M.Y., Modern pollen and land-use relationships in the Taihang mountains, Hebei province, northern China—a first step towards quantitative reconstruction of human-induced land cover changes. Vegetation History and Archaeobotany, 22: 463–477, 2013 (中科院地学三区, IF: 2.232).

11. Dodson, J., Li, J.Y., (通讯作者) Lu, F.Y., Zhang, W.C., Yan, H., Cao, S., A Late Pleistocene and Holocene vegetation and environmental record from Shuangchi Maar, Hainan Province, South China. Palaeogeography, Palaeoclimatology, Palaeoecology, 523: 89–96, 2019 (中科院地学三区, IF: 2.375).

12. Chen, J.X., Shi, X.F., Liu, Y.G., Qiao, S.Q., Yang, S.X., Yan, S.J., Lv, H.H., Li, J.Y., Li, X.Y., Li, C.X., Holocene vegetation dynamics in response to climate change and hydrological processes in the Bohai region. Climate of the Past, 16, 2509–2531, 2020 (中科院地学二区, IF: 3.536).

13. Kaufman, D., McKay, N., Routson, C., Erb, M., Davis, B., Heiri, O., Jaccard, S.L., Tierney, J., Dätwyler, C., Axford, Y., Brussel, T., Cartapanis, O., Chase, B., Dawson, A., de Vernal, A., Engels, S., Jonkers, L., Marsicek, J., Moffa-Sánchez, P., Morrill, C., Orsi, A., Rehfeld, K., Saunders, K., Sommer, P.S., Thomas, E., Tonello, M., Tóth, M., Vachula, R., Andreev, A., Bertrand, S., Biskaborn, B., Bringué, M., Brooks, S., Caniupán, M., Chevalier, M., Cwynar, L., Emile-Geay, J., Fegyveresi, J., Feurdean, A., Finsinger, W., Fortin, M.-C., Foster, L., Fox, M., Gajewski, K., Grosjean, M., Hausmann, S., Heinrichs, M., Holmes, N., Ilyashuk, B., Ilyashuk, E., Juggins, S., Khider, D., Koinig, K., Langdon, P., Larocque-Tobler, I., Li, J.Y, Lotter, A.F., Luoto, T., Mackay, A., Magyari, E., Malevich, S., Mark, B., Massaferro, J., Montade, V., Nazarova, L., Novenko, E., Pařil, P., Pearson, E., Peros, M., Pienitz, R., Płóciennik, M., Porinchu, D., Potito, A., Rees, A., Reinemann, S., Roberts, S., Rolland, N., Salonen, J.S., Self, A., Seppä, H., Shala, S., St-Jacques, J.-M., Stenni, B., Syrykh, L., Tarrats, P., Taylor, K., van den Bos, V., Velle, G., Wahl, E., Walker, I., Wilmshurst, J., Zhang, E., Zhilich, S., 2020. A global database of Holocene paleotemperature records. Scientific Data, 7: 115, 2020 (中科院地学二区, IF: 5.541).

14. Zhang, W.C., Yan, H., Dodson, J., Cheng, P., Liu, C.C., Li, J.Y., Lu, F.Y., Zhou, W.J., An, Z.S., The 9.2 ka event in Asian summer monsoon area: the strongest millennial scale collapse of the monsoon during the Holocene. Climate Dynamics, 50: 2767–2782, 2018 (中科院地学一区, IF: 3.774).

15. Zhang, W.C., Yan, H., Liu, C.C., Cheng, P., Li, J.Y., Lu, F.Y., Ma, X.L., Dodson, J., Heijnis, H., Zhou, W.J., An, Z.S., The hydrological changes in the Shuangchi Maar Lake, Hainan Island of the tropical China, during the Little Ice Age. Quaternary International, 487: 54–60, 2018 (中科院地学三区, IF: 2.163).

16. Yao, F.L., Ma, C.M., Zhu, C., Li, J.Y., Chen, G., Tang, L.Y., Huang, M., Jia, T.J., Xu, J.J., Holocene climate change in the western part of Taihu Lake region, East China. Palaeogeography, Palaeoclimatology, Palaeoecology, 485: 963–973, 2017 (中科院地学三区, IF: 2.375).

17. Xu, Q.H., Chen, F.H., Zhang, S.R., Cao, X.Y., Li, J.Y., Li, Y.C., Li, M.Y., Chen, J.H., Liu, J.B., Wang, Z.L., Vegetation succession and East Asian Summer Monsoon Changes since the last deglaciation inferred from high-resolution pollen record in Gonghai Lake, Shanxi Province, China. The Holocene, 27: 835–846, 2017 (中科院地学三区, IF: 2.419).

18. Zhang, S.R., Xu, Q.H., Gaillard, M.J., Cao, X.Y., Li, J.Y., Zhang, L.Y., Li, Y.C., Tian, F., Zhou, L.P., Lin, F.Y., Characteristic pollen source area and vertical pollen dispersal influx and pollen deposition in a mixed coniferous and deciduous broad-leaved woodlands of the Changbai Mountain, NE China. Vegetation History and Archaeobotany, 25: 29–43, 2016 (中科院地学三区, IF: 2.232).

19. Li, M.Y., Xu, Q.H., Zhang, S.R., Li, Y.C., Ding, W., Li, J.Y., Indicator pollen taxa of human-induced and natural vegetation in Northern China. The Holocene, 25: 686–701, 2015 (中科院地学三区, IF: 2.419).

20. Zhang, S.R., Xu, Q.H., Nielsen, A.B., Chen, H., Li, Y.C., Ding, W., Li, M.Y., Hun, L.Y., Li, J.Y., Pollen assemblages and their environmental implications in the Qaidam Basin, NW China. Boreas, 41: 602–613, 2012 (中科院地学三区, IF: 2.638).

21. 李建勇，许清海，曹现勇，庞瑞洺，丁伟，林凤友．长白山针阔叶混交林花粉通量及垂直散布特征年际变化研究．第四纪研究，31: 1–10，2011.

22. 沈巍，许清海，李建勇，李曼玥，张攀攀，卢静瑶．山区小流域花粉植被土地利用的关系: 定量检测人类活动对环境的影响．地球科学进展，32: 972–982，2017.

23. 浑凌云，许清海，张生瑞，王法岗，刘连强，李建勇，李曼玥．河北阳原侯家窑遗址孢粉组合特征及揭示的古环境与古气候演变．第四纪研究，31: 951–961，2011.