丁永祯
作者: 来源: 2023-02-03
基本情况:
姓名:丁永祯
政治面貌:无党派人士
学历:博士研究生
职称:研究员
任现职时间:2017.1
联系电话:13752739259
邮箱:dingyongzhen@caas.cn
个人简介:
丁永祯,2007年6月毕业于中国科学院研究生院,获理学博士学位;2017年1月晋升为研究员;2018年1月遴选为博士生导师;2019-2020年受国家留学基金委资助赴英国詹姆斯赫顿研究所开展访问学者研究。入选天津市“131”创新型人才第一层次人选,担任天津市欧美同学会(天津市留学人员联谊会)理事会理事,农业农村部绿色种养循环农业试点专家指导组成员,华中农大、河南农大、沈阳农大、天津农学院等高校兼职教授,SCI期刊Int. J. Environ. Res. Public Health编委兼专刊主编。曾多次赴美、英、日等发达国家开展学术交流,先后主持科研项目近20项;主著/编著作2部,参编著作4部;发表论文近120篇,其中SCI论文70余篇;授权发明专利8件,实用新型专利10件,获软件著作权6件;成果获省部级奖3项;指导培养博士/硕士研究生13名。
研究方向:
耕地安全利用与质量提升
农业农村废弃物处理与利用
主持项目:
1. 主持“十四五”国家重点研发计划子课题:微生境调控有机组分快速水解智能学习复配技术研究,2022.11-2027.10,90万元
2. 主持“十三五”国家重点研发计划课题:北方农业废弃物好氧发酵技术示范与工程化应用,2016.01-2020.12,582万元
3. 主持国家自然科学基金项目:硒、砷互作对旱稻砷吸收与代谢的影响机制及相关调控,2015.01-2018.12,90万元
4. 主持国家自然科学基金项目:旱稻吸收、累积砷的基因型差异及其机理研究,2012.01-2014.12,25万元
5. 主持“十二五”国家科技支撑计划任务:城郊乡村污染场地修复与废弃物处理技术研究,2015.07-2017.12,102万元
6. 主持农业农村部政府购买服务项目:肥料产品安全性评价监测评价,2021.4- 2021.12,10万元
7. 主持农业农村部政府购买服务项目:农产品质量安全监管专项经费,2020.5- 2020.12,25万元
8. 主持天津市人才项目:天津市“131”创新型人才第一层次人选培养项目,2019.01-2020.12,10万元
9. 主持中央级科研院所基础前沿项目:粪便堆肥过程中重金属、抗生素和耐药基因的互作效应与机制,2022.04- 2023.04,20万元
10. 主持广西大环江流域大安乡合龙屯受污染农田治理工程项目,2018.11-2020.10,156万元
代表著作:
农业废弃物好氧发酵技术与智能控制设备研究. 科学出版社, 95万字, 2022.(主著)
乡村环境保护典型技术与模式. 中国农业出版社, 26万字, 2016.(主编)
代表论文:
[1] Microplastics as an underestimated emerging contaminant in solid organic waste and their biological products: Occurrence, fate and ecological risks. Journal of Hazardous Materials, 2023, 445, 130596.(通讯作者)
[2] Copper exposure effects on antibiotic degradation in swine manure vary between mesophilic and thermophilic conditions. Science of The Total Environment, 2022, 841, 156759.(通讯作者)
[3] Role of selenite on the nitrogen conservation and greenhouse gases mitigation during the goat manure composting process. Science of The Total Environment, 2022, 838, 155799.(通讯作者)
[4] Comprehensive understanding the impacts of dietary exposure to polyethylene microplastics on genetically improved farmed tilapia (Oreochromis niloticus): tracking from growth, microbiota, metabolism to gene expressions. Science of The Total Environment, 2022.156571.(通讯作者)
[5] Effect of micronutrient selenium on greenhouse gas emissions and related functional genes during goat manure composting. Bioresource Technology, 2022, 349: 126805.(共同一作)
[6] Selective oxidation of cellulose into formic acid over heteropolyacid-based temperature responsive catalysts. Renewable Energy, 2022, 185: 139-146. (通讯作者)
[7] Removal of cadmium in aqueous solutions using a ball milling-assisted one-pot pyrolyzed iron-biochar composite derived from cotton husk. Environmental Science and Pollution Research, 2022, DOI: 10.1007/s11356-022-22828-w.(通讯作者)
[8] Response of Antibiotic Resistance Genes and Related Microorganisms to Arsenic during Vermicomposting of Cow Dung. International Journal of Environmental Research and Public Health, 2022, 19, 14475.(通讯作者)
[9] Prevalence of high-risk β-lactam resistance genes in family livestock farms in Danjiangkou Reservoir Basin, Central China. International Journal of Environmental Research and Public Health, 2022, 19, 6036.(通讯作者)
[10] Current progress in natural degradation and enhanced removal techniques of antibiotics in the environment: A review. International Journal of Environmental Research and Public Health, 2022, 19: 10919.(通讯作者)
[11] Application of inorganic selenium to reduce accumulation and toxicity of metals and metalloids in plants: The main mechanisms, concerns, and risks. Science of The Total Environment, 2021, 771:144776.(通讯作者)
[12] Physiological responses and transcriptome analyses of upland rice following exposure to arsenite and arsenate. Environmental and Experimental Botany, 2021,183:1-10.(通讯作者)
[13] Cadmium uptake reduction in paddy rice with a combination of water management, soil application of calcium magnesium phosphate and foliar spraying of Si/Se. Environmental Science and Pollution Research, 2021, 28 (36): 50378-50387.(通讯作者)
[14] Effects of EDTA and plant growth-promoting rhizobacteria on plant growth and heavy metal uptake of hyperaccumulator Sedum alfredii Hance. Journal of Environmental Sciences, 2020, 88: 361-369.(通讯作者)
[15] Selenite Foliar Application Alleviate Arsenic Uptake, Accumulation, Migration and Increase Photosynthesis of Different Upland Rice Varieties. International Journal of Environmental Research and Public Health, 2020, 17, 3621.(第一作者)
[16] Accumulation and fixation of Cd by tomato cell wall pectin under Cd stress. Environmental and Experimental Botany, 2019, 167: 1-10. (通讯作者)
[17] Microbial arsenic methylation in soil and uptake and metabolism of methylated arsenic in plants: A review. International Journal of Environmental Research and Public Health, 2019, 16, 5012.(通讯作者)
[18] Adsorption of Pb2+ by ameliorated alum plasma in water and soil. Plos One, 2019, 14(1): e0210614.(通讯作者)
[19] Effects of foliar dressing of selenite and silicate alone or combined with different soil ameliorants on the accumulation of As and Cd and antioxidant system in Brassica campestris. Ecotoxicology and Environmental Safety, 2017, 142: 207-215.(第一作者)
[20] Effects of Double Harvesting on Heavy Metal Uptake by Six Forage Species and the Potential for Phytoextraction in Field. Pedosphere, 2016, 26(5):717-724.(通讯作者)
[21] The effect of selenium on the subcellular distribution of antimony to regulate the toxicity of antimony in paddy rice. Environmental Science and Pollution Research, 2015, 22(7): 5111- 5123.(第一作者)
[22] A dual effect of Se on Cd toxicity: evidence from plant growth, root morphology and responses of the antioxidative systems of paddy rice. Plant Soil, 2014, 375: 289-301.(第一作者)
[23] Interaction of organic acids and pH on multi-heavy metal extraction from alkaline and acid mine soils. International Journal of Environmental Science and Technology, 2014, 11(1): 33-42.(第一作者)
[24] Elevated Atmospheric CO2 Enhances Copper Uptake in Crops and Pasture Species Grown in Copper-Contaminated Soils in a Micro-Plot Study. Clean-Soil, Air, Water, 2014, 42(3): 347-354.(通讯作者)
[25] 球磨法合成钒基催化剂及其催化生物质制备甲酸. 农业环境科学学报, 2021, 40(1): 211-218.(通讯作者)
[26] 不同水分条件下水稻对硒的吸收与转运. 农业环境科学学报, 2019,38(10): 2263-2269. (通讯作者)
[27] 不同水分条件下硒对水稻镉吸收与转运分配的影响. 天津大学学报(自然科学与工程技术版), 2018, 51(12):1309-1315.(通讯作者)
[28] 亚硒酸盐对旱稻吸收、转运砷及其氧化性胁迫的影响研究. 农业环境科学学报, 2017, 36(5): 817-825.(通讯作者)
[29] 农田镉砷污染防控与作物安全种植技术探讨. 农业环境科学学报, 2017, 36(4): 613-619.(通讯作者)
[30] 旱稻吸收砷、镉的基因型差异研究. 农业环境科学学报, 2016, 35(8): 1436-1443.(通讯作者)
[31] 改性明矾浆对土壤中镉、铅可提取性的影响研究. 农业环境科学学报, 2014, 33(8): 1526-1531.(通讯作者)
[32] 大气CO2浓度升高对红三叶和高丹草Cs、K竞争吸收与转运的影响. 环境科学学报,2014, 34(5): 1324-1330.(通讯作者)
专利:
[1] 发明专利:同步吸附水中镉和土霉素的高效铁碳复合材料及其制备方法,ZL 202210276135.5,排名1/8
[2] 发明专利:一种利用观赏植物红苋修复镉污染土壤的方法. ZL 201010248670.7,排名1/8
[3] 发明专利:一种高效提取蚯蚓肠道内容物及其胞外DNA的方法,ZL 202210217674.1,排名4/6
[4] 发明专利:一种阻控小白菜重金属砷锌累积的土壤改良剂. ZL 201410230381.2,排名4/6
[5] 发明专利:利用植物促生菌与CO2联合作用提高植物修复效率的方法. ZL 201010600934.0,排名4/6
[6] 发明专利:一种抗重金属植物促生菌制剂及其施用方法. ZL 201410245790.X,排名5/6
[7] 发明专利:NaHS作为阻控水稻累积镉的叶面调理剂的应用. ZL 200910070348.7,排名5/6
[8] 发明专利:一种农村生活污水人工湿地系统及净化方法,ZL 201510390125.4,排名5/6
软著:
[1] 不同蔬菜对镉的吸收差异分析系统. 软著登字第3195726号
[2] 世界各国食品中污染物限量查询系统. 软著登字第1539853号
[3] 乡村固体废弃物产排量与理化特征查询系统. 软著登字第1525964号
获奖:
[1] 天津市“131”创新型人才第一层次人选
[2] 神农中华农业科技奖优秀创新团队奖,排名4/19
[3] 全国农牧渔业丰收奖二等奖:重金属污染产地叶菜类蔬菜安全生产关键技术示范与应用,排名3/15
[4] 天津市科学技术进步二等奖:CO2诱导植物修复技术研究与污染农田修复试验示范,排名4/8
[5] 农业部环境保护科研监测所青年科技标兵
