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杨凤霞

作者: 来源: 2023-02-04

个人简介:

杨凤霞,女,无党派人士,博士,副研究员,硕士生导师。2017年毕业于南开大学环境科学与工程学院,获理学博士学位;现任农业农村部环境保护科研监测所养殖业污染防治创新团队科研骨干,主要从事农业环境中新型污染物的污染过程与机理、农业废弃物的无害化处理与安全利用等方面的研究。主持参加科研项目近10项,包括主持国家自然科学基金项目2项、中国博士后基金1项、农业农村部项目1项等。发表论文近50篇,其中SCI论文30余篇;主编著作1部,参编1部;授权发明专利2件、实用新型2件。


研究领域:

环境污染与健康;农业废弃物的无害化与资源化


研究兴趣:

1)新型污染物抗生素/耐药基因的环境风险评估;

2)环境中耐药基因与病原微生物的污染阻控技术;

3)畜禽粪污的高值转化与利用技术研究。


主要承担项目:

1)国家自然科学基金面上项目,粪肥源耐药基因在稻油轮作系统中的传播效应与机制,2023.01-2026.12,主持

2)国家自然科学基金青年基金,猪场粪污中耐药基因的环境归趋及传播机制研究,2019.01-2021.12,主持

3)中国博士后科学基金面上项目(一等),猪场粪污及其处置过程中耐药基因的传播机制及归趋研究, 2018.09-2019.09,主持

4)农业农村部政府采购项目,有机肥产品安全性分析及环境影响评价,2022.01-2022.12,主持

5)中央级科研院所基础前沿任务,畜禽粪肥还田过程中抗生素耐药基因的迁移及消长机制,2021.01-2021.12,主持

6)国家自然科学基金面上项目,蚯蚓转化牛粪过程中耐药基因消长的机制及驱动因素,2021.01-2024.12,项目执行人


代表性论文:#为并列一作;*为通讯作者)

[1] Mu, M.R., Yang, F.X.*, Han, B.J., Ding, Y.Z., Zhang, K.Q.* (2023). Insights into the panorama of antibiotic resistome in cropland soils amended with vermicompost in China. Science of the Total Environment, https://doi.org/10.1016/j.scitotenv.2023.161658.

[2] Yang, F.X.#, Wang, X.L. #, Tian, X.L. #, Zhang, Z.L., Zhang, K., Zhang, K.Q.* (2023). Cow manure simultaneously reshaped antibiotic and metal resistome in the earthworm gut tract by metagenomic analysis. Science of the Total Environment, 856, 159010.

[3] Yang, F.X., Shen, S.Z., Gao, W.X., Ma, Y.J., Han, B.J., Ding, Y.Z., Wang, X.L.*, Zhang, K.Q.* (2022). Deciphering discriminative antibiotic resistance genes and pathogens in agricultural soil following chemical and organic fertilizer. Journal of Environmental Management, 322, 116110.

[4] Yang, F.X., Zhang, Z.L., Li, Z.J., Han, B.J., Zhang, K.Q.*, Yang, P., Ding, Y.Z.*(2022). Prevalence of high-risk beta-lactam resistance genes in family livestock farms in Danjiangkou Reservoir Basin, Central China, International Journal of Environmental Research and Public Health, 19, 6036.

[5] Mu, M.R., Yang, F.X.*, Han, B.J., Tian, X.L., Zhang K.Q.*(2022). Manure application: A trigger for vertical accumulation of antibiotic resistance genes in cropland soils. Ecotoxicology and Environmental Safety, 237,113555.

[6] Zhang, K.*, Li, K.J., Liu, Z.Y., Li, Q.D., Li, W.P., Chen, Q., Xia, Y.C., Hu, F.Y., Yang, F.X.* (2022). The Sources and Potential Hosts Identification of Antibiotic Resistance Genes in the Yellow River, Revealed by Metagenomic Analysis. International Journal of Environmental Research and Public Health, 19, 10420.

[7] Zheng, S.M., Wang, Y.D., Chen, C.H., Zhou, X.J., Liu, Y., Yang, J.M., Geng, Q.J., Chen, G., Ding, Y.Z*, Yang, F.X.* (2022). Current Progress in Natural Degradation and Enhanced Removal Techniques of Antibiotics in the Environment: A Review. International Journal of Environmental Research and Public Health, 19, 10919.

[8] Lin, H., Cheng, Q.L., Sun, W.C., Yang, F.X., Ding, Y.Z.*, Ma, J.W. (2022). Copper exposure effects on antibiotic degradation in swine manure vary between mesophilic and thermophilic conditions. Science of the Total Environment, 841, 156759.

[9] Zhang, K.*, Li, K.J., Tong, M.H., Xia, Y.C., Cui, Y.X., Liu, Z.Y., Chen, Q., Li, Q.D., Hu, F,Y., Yang, F.X.* (2022). Distribution Pattern and Influencing Factors of Heavy Metal Resistance Genes in the Yellow River Sediments of Henan Section. International Journal of Environmental Research and Public Health, 19, 10724.

[10] Chen, C. #, Yang, F.X.#, Beesley, L., Trakal, M., Ma, Y.F., Sun, Y.B., Zhang, Z.L., Ding, Y.Z*. (2022). 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, doi.org/10.1007/s11356-022-22828-w.

[11] Yang, F.X., Tian, X.L., Han, B.J., Zhao, R., Li, J.J., Zhang, K.Q.*. (2021). Tracking high-risk β-lactamase gene (bla gene) transfers in two Chinese intensive dairy farms. Environmental Pollution, 274, 116593.

[12] Tian, X.L., Han, B.J., Liang, J.F., Yang, F.X.*, Zhang K.Q.*. (2021). Tracking antibiotic resistance genes (ARGs) during earthworm conversion of cow dung in northern China. Ecotoxicology and Environmental Safety, 222, 112538.

[13] Han, B.J., Yang, F.X.*, Tian, X.L., Mu, M.R., Zhang K.Q.*. (2021). Tracking antibiotic resistance gene transfer at all seasons from swine waste to receiving environments. Ecotoxicology and Environmental Safety, 219, 112335.

[14] Yang, F.X., Mu, M.R., Zhang K.Q.*. (2021). Ultralong NiSe nanowire anchored on graphene nanosheets for enhanced electrocatalytic performance of triiodide reduction. RSC Advances, 2021, 11, 27681.

[15] Yang, F.X., Han, B.J., Gu, Y.R., Zhang, K.Q.*. (2020). Swine liquid manure: a hotspot of mobile genetic elements and antibiotic resistance genes. Scientific Reports, 10, 15037.

[16] Gu, Y.R., Shen, S.Z., Han, B.J., Tian, X.L., Yang, F.X.*, Zhang K.Q.*. (2020). Family livestock waste: an ignored pollutant resource of antibiotic resistance genes. Ecotoxicology and Environmental Safety, 197, 110567.

[17] Yang, F.X., Gu, Y.R., Zhou, J., Zhang, K.Q.*. (2019). Swine waste: A reservoir of high-risk blaNDM and mcr-1. Science of the Total Environment, 683, 308-316.

[18] Yang, F.X., Zhang, K.Q.*, Zhi, S.L., Li, J.J., Tian, X.L., Gu, Y.R., Zhou, J. (2019). High prevalence and dissemination of β-lactamase genes in swine farms in northern China. Science of the Total Environment, 651, 2507-2513.

[19] Yang, F.X., Tian, X.L., Gu, Y.R., Zhang, K.Q.*, Liu, L*. (2019). Mesoporous NiCo2O4 nanoflower constructed from nanosheets as electroactive materials for dyesensitized solar cells. RSC Advances, 9, 24880.

[20] Yang, F.X., Huang, L., Li, L.Y., Yang, Y., Mao, D.Q.*, Luo, Y.*. (2017). Discharge of KPC-2 genes from the WWTPs contributed to their enriched abundance in the receiving river. Science of the Total Environment, 581-582, 136-143.

[21] Yang, F.X., Mao, D.Q.*, Zhou, H., Wang, X.L., Luo, Y.*. (2016). Propagation of new Delhi metallo-β-lactamase genes (blaNDM-1) from a wastewater treatment plant to its receiving river. Environmental Science and Technology Letters, 3, 138-143.

[22] Yang, F.X., Mao, D.Q.*, Zhou, H., Luo, Y.*. (2016). Prevalence and fate of carbapenemase genes in a wastewater treatment plant in northern China. PloS one, 11, e0156383.

[23] Zhai, W.C.#, Yang, F.X.#, Mao, D.Q.*, Luo, Y.*. (2016). Fate and removal of various antibiotic resistance genes in typical pharmaceutical wastewater treatment systems. Environmental Science and Pollution Research, 11, 12030-12038.

[24] Luo, Y., Yang, F.X., Mathieu, J., Mao, D.Q.*, Wang, Q., Alvarez, P. J. J.* (2014). Proliferation of Multidrug-Resistant New Delhi Metallo-β-lactamase Genes in Municipal Wastewater Treatment Plants in Northern China. Environmental Science and Technology Letters, 1, 26-30.

[25] 田雪力,李仲瀚,杨凤霞*,韩秉君,张克强*. (2022). 重金属铜对蚯蚓转化牛粪过程中抗生素抗性基因的影响.中国环境科学, 2(10)4688~4695

[26] 牟美睿, 杨凤霞*, 田雪力, 韩秉君, 李仲瀚, 张克强*. (2021). 蚯蚓堆肥对畜禽粪污耐药基因的影响研究进展, 农业资源与环境学报, doi: 10.13254/j.jare.2021.

[27] 韩秉君, 沈仕洲, 杨凤霞*, 高文萱, 丁永祯, 张克强*. (2021). 不同施肥模式对洱海流域稻田土壤中耐药 基因污染的影响, 农业环境科学学报, 40(11), 2503-2512.

[28] 韩秉君, 牟美睿, 杨凤霞*, 田雪力, 张克强*. (2021). 畜禽养殖环境中抗生素抗性基因污染与扩散研究进展, 农业资源与环境学报, doi: 10.13254/j.jare.2021.

[29] 谷艳茹, 韩秉君, 黄继元, 杨凤霞*, 张克强*. (2019). 天津市家庭农场养殖粪污耐药基因赋存特征及风险评估, 农业环境科学学报, 39(2), 394-402.

[30] 杨凤霞, 毛大庆*, 罗义, 汪庆, 母全华. (2013). 环境中抗生素抗性基因的水平传播扩散. 应用生态学报24(10), 2993-3002.


著作:

1)《畜禽养殖源抗生素和耐药基因研究进展》,主编,中国农业出版社,2020年;

2)《环境中抗生素抗性基因及其健康风险》,参编,科学出版社,2022年。


专利:

1 一种高效提取蚯蚓肠道内容物及其胞外DNA的方法,发明专利,ZL 202210217674.1,排名1/6

2 蚯蚓前肠和/或中肠内容物在修复β-内酰胺类抗生素和/或耐药基因污染的土壤中的应用,发明专利,202210170026.5,排名1/7;

3 同步吸附镉与土霉素的铁碳复合材料及其制备方法,发明专利,ZL 202210276135.5,排名3/8

4 一种污泥资源化处理设备,实用新型,ZL 202122997766.X,排名3/6

5 一种高效的园林花卉肥料搅拌装置,ZL 202122929712.X,实用新型,排名5/9


标准:

设施农用有机肥重金属镉风险控制要求(DB12/T 935—2020),第6完成人

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