副研究員
冉義國,2021年6月獲中國科學院大學環境科學與工程博士學位。2021年7月至今,在中國科學院重慶綠色智能技術研究院工作,先后任特別研究助理、副研究員。目前主持國家自然科學基金青年項目、中國科學院特別研究助理項目、重慶市自然科學基金面上項目等多項。在Soil Till. Res., Catena, J. Enivron. Manage., Sci. Total Environ., 土壤學報、土壤等期刊發表多篇學術論文。擔任Environ. Res. Lett., Catena, Sci. Total Environ., Land Degrad. Dev.,國際學術期刊審稿人。
水庫生態學研究中心
土壤結構演變與有機碳周轉
1. Ran Y., Mao Z., Jia H., He X., Xia S., Ye F., Vithana C., Li S., Wu S., Huang P., 2024. Flooding increases plant-derived carbon accumulation in soils of aquatic-terrestrial ecotone. J. Environ. Manage., 373, 123464
2. Ran Y., Wang, P., Ye, F., Qu, J., Ning, Y., Zhang, Y., Wen Z., Wu S., Huang, P., 2024. Patterns and drivers of organic carbon in hydromorphic soils across inland aquatic-terrestrial ecotones at the global scale. Catena, 244, 108266
3. Ran Y., Zhu K., Ma M., Wu S., Huang P., 2023. Periodic flooding enhances the function of soil Fe/Al oxides in stabilizing particulate organic carbon in a water level drawdown zone. Soil till. Res. 231, 105740
4. Ran Y., Wu S., Jiang Y., Qu J., Imali H., and Huang P., 2023. The legacy effects of soil type on carbon content are erased by extreme flooding stress in a water-level drawdown zone. Catena. 231, 107283
5. Ran Y., Wu S., Chen C., Sun X., Huang P., Ma M., Yi X., 2022. Shift from soil chemical to physical filters in assembling riparian floristic communities along a flooding stress gradient. Sci. Total Environ. 844, 157116, 10.1016/j.scitotenv.2022.157116.?
6. Ran Y., Liu Y., Wu S., Li W., Zhu K., Ji Y., Mir Y., Ma M., Huang P. 2021. A higher river sinuosity reduced riparian soil erosion risk along the downstream of a dammed river. Sci. Total Environ. 802, 149886, doi.org/10.1016/j.scitotenv.2021.149886.?
7. Ran Y., Zhu K., Wu S., Zhou Y., Li W., Ma M., Huang P., 2021. Conservative riparian agriculture facilitates soil carbon and nitrogen storage under the flooding regime regulated by a dammed-reservoir. Catena, 209, 105783, doi.org/10.1016/j.catena.2021.105783.
8. Ran Y., Ma M., Liu Y., Zhou Y., Sun X., Wu S., Huang P. 2020. Hydrological stress regimes regulate effects of binding agents on riparian soil aggregates. Catena, 196, 104815, doi.org/10.1016/j.catena.2020.104815.
9. Ran Y., Wu S., Zhu K., Li W., Liu Z., Huang P. 2019. Soil types differentiated their responses of aggregate stability to hydrological stresses at the riparian zones of the Three Gorges Reservoir. J. Soil Sediment., 20, 951–962, doi.org/10.1007/s11368-019-02410-7.
10. Ran Y., Ma M., Liu Y., Zhu K., Yi X., Wang X., Wu S., Huang P. 2019. Physicochemical determinants in stabilizing soil aggregates along a hydrological stress gradient on reservoir riparian habitats: Implications to soil restoration. Eco. Eng., 143, 15, doi.org/10.1016/j.ecoleng.2019.105664.?
1. 國家自然科學基金青年項目,逆自然水文節律下消落帶土壤團聚體有機碳來源及穩定機制,2023.01-2025.12,主持?
2. 中國科學院特別研究助理資助項目,土壤結構周轉與有機碳演變,2022.01-2023.12,主持
3. 重慶市自然科學面上項目,梯度水淹脅迫下三峽水庫消落帶土壤有機碳穩定機理研究,2023.01-2025.12,主持
中國科學院重慶綠色智能技術研究院 版權所有京ICP備05002857號渝公網安備50010943035號
