【基本信息】
姓名:谢自建
职称:副研究员
研究方向:水环境科学
Email:xiezijian@craes.org.cn, zjxie2016@163.com
【个人履历】
主要工作经历
2024.01 ~ 至今 中国环境科学研究院湖泊生态环境研究所 副研究员
2023.05~2023.12 中国环境科学研究院湖泊生态环境研究所 助理研究员
2020.10~2023.04 中国环境科学研究院湖泊生态环境研究所 博士后
教育经历
2015.09~2020.09 中国科学院大学资源与环境学院 博士(硕博连读)
2011.09~2015.07 湖南农业大学资源环境学院 学士
【科学研究】
主要研究领域
1.全球变化与磷的生物地球化学循环过程
2.流域污染源解析和环境背景值
3.湖滨缓冲带生态修复理论与技术
代表性研究项目
1.国家自然科学基金委员会,青年科学基金项目,423D7037,旱改水对黑土区土壤剖面磷迁移转化的影响及机制,2024-1至2026-12,30.0万元,在研,项目负责人
2.科技部,国家重点研发计划重点专项子课题,2021YFC3201502-05,面源污染溯源与负荷核算技术规范/指南研究,2021-12至2025-12,35.0万元,在研,项目负责人
3.牡丹江市海林生态环境局,技术服务项目,海林市莲花湖洪水影响评价分析报告,2024-11至2025-2,50.0万元,结题,项目负责人
4.中国环境科学研究院,生态环境部饮用水水源地保护重点实验室开放基金,2024YYSYKFZD10,气候变化下兴凯湖微生物群落演替与磷循环的偶联机制研究,2024-10至2026-10,10.0万元,在研,项目负责人
5.那曲市生态环境局,技术服务项目,色林措生态安全调查与评估项目,2023-5至2024-12,378.0万元,结题,技术负责人
6.中国环境科学研究院,国家环境保护湖泊污染控制重点实验室开放基金,2022HPYB-12,农田型湖滨缓冲带对稻田径流污染物的去除效果及适宜宽度研究, 2022-12至2023-11,5.0万元,结题,项目负责人
7.日喀则市生态环境局昂仁县分局,技术服务项目,金木措湖污染源溯查项目技术服务,2023-6至2024-8,95.6万元,结题,项目负责人
8.鸡西市生态环境局,技术服务项目,兴凯湖流域生态环境调查项目,2021-7至2022-12,291.5万元,结题,技术负责人
9.日喀则市生态环境局昂仁县分局,技术服务项目,昂仁金木措综合治理整改方案,2022-10至2023-6,72.9万元,结题,技术负责人
代表性论文
1.Li L, Dong X*, Xie Z*, Zhang Y, Li C, Bennion H. Multi-proxy paleolimnological evidence for recent environmental degradation of Xingkai Lake, the largest shallow lake in Northeast Asia. Catena. 2024;249. doi:10.1016/j.catena.2024.108625
2.Li Y, Wang Y, Ye C, Xie Z*, Li C*. (2024). Spatial Distribution, Risk Assessment and Source Analysis of Heavy Metals in the Sediments of Jinmucuo Lake, Southern Tibetan Plateau. Sustainability. 16(23):10592. doi:10.3390/su162310592
3.Li Y, Wang Y, Ye C, Xie Z*, Li C*, Wei W. (2024). Effects of climate warming and declining water quality on the eco-environmental evolution of Jinmucuo Lake:Evidence from sedimentary diatom assemblages. Heliyon. 10(21). doi:10.1016/j.heliyon.2024.e39985
4.Yang X.1, Xie Z.1, Hu Z., Wen G., Li S., Ke X., Sun X., Tao M., & Jiang X. (2024). Effects of 3-year biochar application on carbon sequestration, nitrogen retention and nitrate leaching of fluvo-aquic soil profiles in vegetable rotation fields. Agriculture, Ecosystems and Environment, 367(March), 108989. https://doi.org/10.1016/j.agee.2024.108989
5.Xie Z, Zhu D, Wei W, Ye C, Wang H, Li C. (2023). Phosphorus leaching risk from black soil increased due to conversion of arid agricultural land to paddy land in northeast China. Chem Biol Technol Agric, 10:59. 1–13. https://doi.org/10.1186/s40538-023-00420-9
6.Miao, K., Dai, W., Xie, Z.*, Li, C., & Ye, C. (2023). Effect of Grass Buffer Strips on Nitrogen and Phosphorus Removal from Paddy Runoff and Its Optimum Widths. Agronomy, 13(2980). 1–12. https://doi.org/10.3390/agronomy13122980
7.Xie Z, Ye C, Li C, Shi X. (2022). The global progress on the non-point source pollution research from 2012 to 2021: A bibliometric analysis. Environmental Sciences Europe, 34:121. https://doi.org/10.1186/s12302-022-00699-9
8.Xie, Z., Zhang, F., Ye, C., Wang, H., Wei, W., Li, C., & Shi, X. (2021). A tool (SPOLERC) to guide the evaluation of phosphorus leaching for agricultural soil by using the change point value in the Xingkai lake Basin. Environmental Sciences Europe, 1–9. https://doi.org/10.1186/s12302-021-00572-1
9.Xie, Z., Yang, X., Sun, X., Huang, L., Li, S., & Hu, Z. (2021). Effects of biochar application and irrigation rate on the soil phosphorus leaching risk of fluvisol profiles in open vegetable fields. Science of The Total Environment, 147973. https://doi.org/10.1016/j.scitotenv.2021.147973
10.Xie, Z., Li, S., Tang, S., Huang, L., Wang, G., Sun, X., & Hu, Z. (2019). Phosphorus Leaching from Soil Profiles in Agricultural and Forest Lands Measured by a Cascade Extraction Method. Journal of Environmental Quality, 48(3), 568–578. https://doi.org/10.2134/jeq2018.07.0285
11.Sun, X., Yang, X., Hu, Z., Liu, F., Xie, Z., Li, S., Wang, G., Li, M., Sun, Z., & Bol, R. (2024). Biochar effects on soil nitrogen retention, leaching and yield of perennial citron daylily under three irrigation regimes. Agricultural Water Management, 296(March 2023), 108788. https://doi.org/10.1016/j.agwat.2024.108788
12.Yang, X., Hu, Z., Xie, Z., Li, S., Sun, X., Ke, X., & Tao, M. (2023). Low soil C:N ratio resulted in the accumulation and leaching of nitrite and nitrate in agricultural soil under heavy rainfall. Pedosphere, 3, 1–32. https://doi.org/10.1016/j.pedsph.2023.03.010
13.Huang, L., Yang, X., Xie, Z., Li, S., Liang, X., & Hu, Z. (2021). Residual effects of sulfur application prior to oilseed rape cultivation on cadmium accumulation in brown rice under an oilseed rape–rice rotation pot experiment. Ecotoxicology and Environmental Safety, 225. https://doi.org/10.1016/j.ecoenv.2021.112765
14.Huang, L., Hansen, H. C. B., Yang, X., Xie, Z., Li, S., Yang, M., Liang, X., & Hu, Z. (2021). Does sulfur application continue to reduce cadmium accumulation and increase the seed yield of oilseed rape (Brassica napus L.) at the maturity stage?. Journal of the Science of Food and Agriculture, 0–3. https://doi.org/10.1002/jsfa.11566
15.Huang, L., Hansen, H. C. B., Yang, X., Mu, J., Xie, Z., Li, S., Wu, G., & Hu, Z. (2021). Effects of sulfur application on cadmium accumulation in brown rice under wheat-rice rotation. Environmental Pollution, 287(May), 117601. https://doi.org/10.1016/j.envpol.2021.117601
16.Mu, J., Hu, Z., Huang, L., Xie, Z., & Holm, P. E. (2020). Preparation of a silicon-iron amendment from acid-extracted copper tailings for remediating multi-metal-contaminated soils. Environmental Pollution, 257, 113565. https://doi.org/10.1016/j.envpol.2019.113565
17.Jia, Y., Hu, Z., Mu, J., Zhang, W., Xie, Z., & Wang, G. (2020). Preparation of biochar as a coating material for biochar-coated urea. Science of the Total Environment, 731, 139063. https://doi.org/10.1016/j.scitotenv.2020.139063
18.Mu, J., Hu, Z., Xie, Z., Huang, L., & Holm, P. E. (2019). Influence of CaO-activated silicon-based slag amendment on the growth and heavy metal uptake of vetiver grass (Vetiveria zizanioides) grown in multi-metal-contaminated soils. Environmental Science and Pollution Research, 26(31), 32243–32254. https://doi.org/10.1007/s11356-019-06429-8
19.Huang, L., Hansen, H. C. B., Wang, H., Mu, J., Xie, Z., Zheng, L., & Hu, Z. (2019). Effects of sulfate on cadmium uptake in wheat grown in paddy soil – pot experiment. Plant, Soil and Environment, 65(12), 602–608. https://doi.org/10.17221/558/2019-PSE
20.Sun, X., Hu, Z., Li, M., Liu, L., Xie, Z., Li, S., Wang, G., & Liu, F. (2019). Optimization of pollutant reduction system for controlling agricultural non-point-source pollution based on grey relational analysis combined with analytic hierarchy process. Journal of Environmental Management, 243(December 2018), 370–380. https://doi.org/10.1016/j.jenvman.2019.04.089
21.赵荣博,汪洋,蔡绪贻,谢自建*,刘伟,叶春,李春华. (2024). 河套灌区典型农业区浅层地下水氮磷变化特征及来源分析. 水利水电技术(中英文),55(11):98-109.
22.谢自建,赵荣博,汪洋,王昊,李春华,于宗灵. (2023).兴凯湖沉积物重金属生态风险评价及污染特征分析.环境工程技术学报,13(6):1987-1996.
23.谢自建,魏伟伟,李春华,叶春,王昊. (2021). 典型高山堰塞湖湖滨带和缓冲带的划定及生态修复思路:以镜泊湖为例. 环境工程技术学报, 11(6):1147-1153.
24.王燕,王洁,谢自建,李春华,叶春,苗可欣,魏伟伟,郑烨. 我国丘陵山区和平原河网区典型流域面源污染规律研究[J]. 环境工程,2024,42( 10):33-40.
25.汪洋,谢自建,孙黛茜,李春华,叶春,王文全,魏伟伟,王昊.(2023).兴凯湖水体磷形态特征及与气候变化的响应关系.环境工程技术学报,13(6):1965-1975.
26.孙黛茜,谢自建,汪洋,叶春,李春华,魏伟伟,王昊,郑向勇.(2023).兴凯湖沉积物营养盐分布特征及来源解析.环境工程技术学报,13(6):1976-1986.
27.徐宜雪,谢自建,王昊,李春华,李季,魏伟伟,郑烨,叶春.(2023).土地利用对兴凯湖入湖河流水质影响及生态修复策略.环境工程技术学报,2023,13(6):1997-2005.
28.孙笑蕾,谢自建,杨肖松,胡正义. (2021). 灌溉与生物炭施用对潮土区农田土壤磷淋溶的影响.中国科学院大学学报, 38(6), 773-781.
29.李亮芳,李春华,叶春,初元满,李秀宇,张钰珮,冼汉标,谢自建,魏伟伟,董旭辉. (2022). 兴凯湖百余年营养演化历史及营养物基准. 地球环境学报,13(5).
30.唐司尘,杨肖松,张万通,穆静,谢自建,王金枝,胡正义. (2020). 鸟粪石及生物炭包膜缓释肥在石灰性土壤中的氮磷释放特性. 中国科学院大学学报,37(6),773-783.
【社会工作】
1.2020~2024年联合培养硕士研究生6名
2.任Climate Smart Agriculture、长江流域资源与环境、江苏大学学报(自然科学版)等期刊青年编委
【其他】
代表性发明专利:
1.张帆,谢自建,叶春,等. SPOLERC土壤磷淋溶风险评估软件. 软著登记号:2021SR1530420.
2.李春华,魏伟伟,谢自建,等. Polymetallic hydroxide for treating phosphorus-rich water and preparation method and use thereof. 专利号:150827051205(国际专利)
3.李春华,魏伟伟,谢自建,等. Biological nest water body purification system and method thereof. 专利号:F/PT/C/2023/7599(国际专利)
标准/指南:
1.《河湖生态缓冲带保护修复技术指南》(环办水体函[2021]558号)
2.《出入湖河口生境改善工程技术指南》(DB32/T 4044-2021)
3.《西藏自治区水污染防治条例》(2024年8月1日实施)
