• <meter id="iccwh"><ins id="iccwh"><rp id="iccwh"></rp></ins></meter>
      1.    

        羅玲,副教授,四川農業大學環境學院

        時間:2021-10-20    點擊量:381

        專家簡介:

        一、基本信息

        姓名:羅玲

        最高學位:博士

        碩/博導: 碩導

        職稱: 副教授

        教授課程:環境生態工程、生態毒理學、環境生物技術(研究生)

        研究方向:水體污染物的遷移轉化與治理;高寒濕地甲烷排放及其微生物機制

        二、主要成果

        1.科研項目

        (1)國家自然科學基金,應用生態酶化學計量探索外源氮磷輸入對若爾蓋泥炭地土壤碳的影響及其機理,2018.01-2020.12,主持

        (2)四川省特別人才計劃(2019年度),2019.01-2022.12,主持

        (3)四川省科技廳國際港澳臺合作項目,飲用水源地抗生素與抗性基因污染及治理研究,2019.01-2021.12,主持

        (4)四川省教育廳自然科學重點項目,農業廢棄物在抗生素污染治理方面的應用,2018.01-2020.12,主持

        (5)四川省人社廳2018年度留學回國人員科技活動項目擇優資助(啟動類),2018.01-2019.12,主持

        2.文章(論文、著作及教材)

        [1]Luo L., Wang G.L., Wang Z.M., Ma J.H., He Y., He J.S., Wang L.L., Liu Y., Xiao H., Xiao Y.L., Lan T., Yang H., Deng O.P.*, 2021. Optimization of Fenton process on removing antibiotic resistance genes from excess sludge by single-factor experiment and response surface methodology. Science of the Total Environment, 788: 147889. (JCR,1區)

        [2]Luo L., Zhu L.Y., Hong W., Gu, J.-D., Shi D.Z., He Y., Xiao Y.L., Tian D., Zhang S.R., Deng S.H., Lan T., Deng O.P.*, 2021. Microbial resource limitation and regulation of soil carbon cycle in Zoige Plateau peatland soils. CATENA, 205:105478. (JCR, 1區)

        [3]Luo L., Ye H.Y., Zhang D.H., Gu J.-D., Deng O.P.*, 2021. The dynamics of phosphorus fractions and the factors driving phosphorus cycle in Zoige Plateau peatland soil. Chemosphere, 278: 130501. (JCR, 1區)

        [4]He Y., Zhou X.Q., Zhang Q.Y., Gu J.-D., Zhang Y.Z., Liu Y., Wang L.L., Xiao Y.L., Shen F., Deng S.H., Zhang S.R., Luo L.*, 2021. Highly efficient removal of phosphorus from agricultural runoff by a new akadama clay barrier-vegetated drainage ditch system (VDD) and its mechanism. Journal of Environmental Management, 290: 112575. (JCR,1區)

        [5]Xiao Y.L., Du Y., Xiao Y., Zhang X.H., Wu J., Yang G., He Y., Zhou Y.Y., Peijnenburg W.J.G.M., Luo L.*, 2021. Elucidating the effects of TiO2 nanoparticles on the toxicity and accumulation of Cu in soybean plants (Glycine max L.). Ecotoxicology and Environmental Safety, 219: 112312. (JCR,1區)

        [6]Deng O.P., Chen Y.Y., Lan T., Zhang S.R., Gao X.S., Zhou W., Ou D.H., Hu Y.F., Luo L.*, 2021. Contribution of atmospheric N deposition to riverine N load in a forest-dominated watershed through field monitoring for three years. Chemosphere, 266: 128951. (JCR,1區)

        [7]Luo L., Feng J.L., Xue R., Ma J.H., Lou L.P., He J.S., Liu Y., Xiao H., Deng O.P.*, Xie L.Y., 2021. The insufficient extraction of DNA from swine manures may underestimate the abundance of antibiotic resistance genes as well as ignore their potential hosts. Journal of Environmental Management, 278: 111587. (JCR,1區)

        [8]Deng O.P., Li X., Deng L.J., Zhang S.R., Gao X.S., Lan T., Zhou W., Tian D., Xiao Y.L., Yang J., Ou D.H., Luo L.*, 2020. Emission of CO2 and CH4 from a multi-ditches system in rice cultivation region: Flux, temporal-spatial variation and effect factors. Journal of Environmental Management, 270: 110918. (JCR, 1區)

        [9]Chen Y.X., Hu C.Y., Deng D.H., Li Y.G., Luo L.*, 2020. Factors affecting sorption behaviors of tetracycline to soils: Importance of soil organic carbon, pH and Cd contamination. Ecotoxicology and Environmental Safety, 197: 110572. (JCR, 1區)

        [10]Wang G.L., Deng D.H., Hu C.Y., Lou L.P., Luo L.*, et al., 2020. More effective removal of antibiotic resistance genes from excess sludge by microwave integrated fenton treatment. International Biodeterioration& Biodegradation, 149: 104920. (JCR, 1區)

        [11]Luo L.*, Wang G.L., Shi G.Z., et al., 2019. The characterization of biochars derived from rice straw and swine manure, and their potential and risk in N and P removal from water. Journal of Environmental Management, 245, 1-7. (JCR, 1區)

        [12]王國蘭,馮金露,樓莉萍,羅玲*, 2019.污水處理廠中四環素和磺胺類抗生素 抗性基因的分布、傳播及去除.應用生態學報, 8(30): 1-8. (CSCD)

        [13]Chen T.W., Luo L.*, Deng S.H., et al., 2018. Sorption of tetracycline on H3PO4 modified biochar derived from rice straw and swine manure. Bioresource Technology, 267, 431-437. (JCR, 1區)

        [14]Luo L.*, Meng H., Wu R.N., et al., 2018. Influence of macrofaunal burrows on extracellular enzyme activity and microbial abundance in subtropical mangrove sediment. Microbial Ecology, 76(1), 92-101. (JCR, 1區)

        [15]Luo L., Wu R.N., Gu J.-D.*, et al., 2018. Influence of mangrove roots on microbial abundance and ecoenzyme activity in sediments of a subtropical coastal mangrove ecosystem. International Biodeterioration& Biodegradation, 132: 10-17. (JCR, 1區)

        [16]Luo L., Gu J.-D.*, 2018. Nutrient limitation status in a subtropical mangrove ecosystem revealed by analysis of enzymatic stoichiometry and microbial abundance for sediment carbon cycling. International Biodeterioration& Biodegradation, 128: 3-10. (JCR, 1區)

        [17]Luo L.*, Meng H., Wu R.N., et al., 2017. Impact of nitrogen pollution/deposition on extracellular enzyme activity, microbial abundance and carbon storage in coastal mangrove sediment. Chemosphere, 177: 275-283. (JCR, 1區)

        [18]Luo L., Meng H., Gu J.-D.*, 2017. Microbial extracellular enzymes in biogeochemical cycling of ecosystems. Journal of Environmental Management, 197:539-549. (JCR, 1區)

        [19]Luo L., Gu J.-D.*, 2016. Alteration of extracellular enzyme activity and microbial abundance by biochar addition: Implication for carbon sequestration in subtropical mangrove sediment. Journal of Environmental Management, 182: 29-36. (JCR, 1區)

        [20]Luo L., Wu R.N., Meng H., et al., 2016. Seasonal and spatial variations in diversity and abundance of bacterial laccase-like genes in sediments of a subtropical mangrove ecosystem. International Biodeterioration & Biodegradation, 114: 260-267. (JCR, 1區)

        [21]Luo L., Zhou Z-C., Gu J.-D.*, 2015. Distribution, diversity and abundance of bacterial laccase-like genes in different particle size fractions of sediments in a subtropical mangrove ecosystem. Ecotoxicology, 24(7): 1508-1516. (JCR, 2區)

        [22]Luo L., Lou L.P., Cui X.Y., et al., 2011. Sorption and desorption of pentachlorophenol to black carbon of three different origins. Journal of Hazardous Materials, 185(2-3): 639-46. (JCR, 1區)

        [23]Luo L., Gu J.-D.*, 2015. Seasonal variability of extracellular enzymes involved in carbon mineralization in sediment of a subtropical mangrove wetland. Geomicrobiology Journal, 32(1): 68-76. (JCR, 2區)

        [24]Meng H.#,Luo L.#, Chan H.W., et al., 2016. Higher diversity and abundance of ammonia-oxidizing archaea than bacteria detected at the Bayon Temple of Angkor Thom in Cambodia. International Biodeterioration& Biodegradation,115:234-243.(#共同一作) (JCR, 1區)

        [25]Lou L.P., Luo L., Yang Q., et al., 2012. Release of pentachlorophenol from black carbon-inclusive sediments under different environmental conditions. Chemosphere, 88(5): 598-604. (JCR, 1區)

        [26]Lou L.P., Luo L., Cheng G.H., et al., 2012. The sorption of pentachlorophenol by aged sediment supplemented with black carbon produced from rice straw and fly ash. Bioresource Technology, 112: 61-66. (JCR, 1區)

        [27]Lou L.P., Luo L., Wang W., et al., 2011. Impact of black carbon originated from fly ash and soot on the toxicity of pentachlorophenol in sediment. Journal of Hazardous Materials, 190(1-3):474-479. (JCR, 1區)

        [28]Lou L.P., Luo L., Wang L.N., et al., 2011. The influence of acid demineralization on surface characteristics of black carbon and its sorption for pentachlorophenol. Journal of Colloid and Interface Science, 361(1):226-31. (JCR, 1區)

        3.教學(包括指導學生科研興趣活動及競賽)

        (1)優秀學士學位論文:陳雨軒(2016級)

        (2)創新訓練計劃:

        陳雨軒(負責人)、鄧達行、胡春妍、李懿根,五種典型土壤對四環素與鎘的吸附解吸行為研究,2018,省級

        王遠帆(負責人)、薛睿、洪雯、張丹華、肖芯雨,城市污泥處理系統剩余污泥中抗生素抗性基因及耐藥菌的健康風險評價,2020,省級

        (3)科研興趣培養計劃:

        肖曉雪(負責人)、陳雨軒、蔡冬芬、李楊、劉家昊,生物質炭減緩溫室效應的影響研究,2016,校級

        米九龍(負責人)、王嘉敏、葉皓陽、李杭炬、劉煒,水體富營養化對沉積物中有機碳的影響研究,2016,校級

        張大順(負責人)、林小雪、林桔、余海躍,一種復合混合材料對四環素的去除研究,2019,校級

        李可心(負責人)、王遠帆、黃欣,異位發酵過程中四環素抗性基因豐度及其影響因素,2019,校級

        薛睿(負責人)、王遠帆、洪雯、張丹華、肖芯雨,基于脫硫石膏改良的赤泥堿性調控研究,2021,校級

        李欣怡(負責人)、袁龍、楊璇、馮治涵、朱思漫,納米ZnO和ZVI對底泥中抗性基因的去除研究,2021,校級

        (4)專業技能提升計劃:

        農村生活污水處理工程設計競賽,2018,校級

        四、獎勵及榮譽

        四川省特別人才計劃

        四川省海外高層次留學人才

        四川農業大學本科教學質量二等獎

        香港政府Reaching out award

        浙江大學優秀畢業生

        五、社會兼職

        擔任Environmental Pollution、Carbohydrate Polymers、Journal of Cleaner Production、Applied Microbiology & Biotechnology、Chemosphere、Science of the Total Environment、Journal of Environmental Management、International Biodeterioration & Biodegradation、Ecotoxicology、Applied Biochemistry &Biotechnology、Journal of Residuals Science & Technology等多個SCI期刊審稿人。

        產品與服務
        聯系我們
        • TEL:028-87422267
        • ADD:成都市高新產業園區金周路595號4棟1101號/甘孜藏族自治州康定爐城鎮東方阿爾卑斯情歌風情小鎮二期3幢2單元ⅹ2-12-3號
        手機端二維碼
        四川工小為科技
        copyright ?2019 四川省永忠工程管理有限公司 all rights reserved.
        人力資源部電話:秦 總:13981898294    市場營銷電話:劉 總: 13550132129 曾 總: 13980750649    備案號: 蜀ICP備16020373號-1

        羅玲,副教授,四川農業大學環境學院

        2021-10-20

        專家簡介:

        一、基本信息

        姓名:羅玲

        最高學位:博士

        碩/博導: 碩導

        職稱: 副教授

        教授課程:環境生態工程、生態毒理學、環境生物技術(研究生)

        研究方向:水體污染物的遷移轉化與治理;高寒濕地甲烷排放及其微生物機制

        二、主要成果

        1.科研項目

        (1)國家自然科學基金,應用生態酶化學計量探索外源氮磷輸入對若爾蓋泥炭地土壤碳的影響及其機理,2018.01-2020.12,主持

        (2)四川省特別人才計劃(2019年度),2019.01-2022.12,主持

        (3)四川省科技廳國際港澳臺合作項目,飲用水源地抗生素與抗性基因污染及治理研究,2019.01-2021.12,主持

        (4)四川省教育廳自然科學重點項目,農業廢棄物在抗生素污染治理方面的應用,2018.01-2020.12,主持

        (5)四川省人社廳2018年度留學回國人員科技活動項目擇優資助(啟動類),2018.01-2019.12,主持

        2.文章(論文、著作及教材)

        [1]Luo L., Wang G.L., Wang Z.M., Ma J.H., He Y., He J.S., Wang L.L., Liu Y., Xiao H., Xiao Y.L., Lan T., Yang H., Deng O.P.*, 2021. Optimization of Fenton process on removing antibiotic resistance genes from excess sludge by single-factor experiment and response surface methodology. Science of the Total Environment, 788: 147889. (JCR,1區)

        [2]Luo L., Zhu L.Y., Hong W., Gu, J.-D., Shi D.Z., He Y., Xiao Y.L., Tian D., Zhang S.R., Deng S.H., Lan T., Deng O.P.*, 2021. Microbial resource limitation and regulation of soil carbon cycle in Zoige Plateau peatland soils. CATENA, 205:105478. (JCR, 1區)

        [3]Luo L., Ye H.Y., Zhang D.H., Gu J.-D., Deng O.P.*, 2021. The dynamics of phosphorus fractions and the factors driving phosphorus cycle in Zoige Plateau peatland soil. Chemosphere, 278: 130501. (JCR, 1區)

        [4]He Y., Zhou X.Q., Zhang Q.Y., Gu J.-D., Zhang Y.Z., Liu Y., Wang L.L., Xiao Y.L., Shen F., Deng S.H., Zhang S.R., Luo L.*, 2021. Highly efficient removal of phosphorus from agricultural runoff by a new akadama clay barrier-vegetated drainage ditch system (VDD) and its mechanism. Journal of Environmental Management, 290: 112575. (JCR,1區)

        [5]Xiao Y.L., Du Y., Xiao Y., Zhang X.H., Wu J., Yang G., He Y., Zhou Y.Y., Peijnenburg W.J.G.M., Luo L.*, 2021. Elucidating the effects of TiO2 nanoparticles on the toxicity and accumulation of Cu in soybean plants (Glycine max L.). Ecotoxicology and Environmental Safety, 219: 112312. (JCR,1區)

        [6]Deng O.P., Chen Y.Y., Lan T., Zhang S.R., Gao X.S., Zhou W., Ou D.H., Hu Y.F., Luo L.*, 2021. Contribution of atmospheric N deposition to riverine N load in a forest-dominated watershed through field monitoring for three years. Chemosphere, 266: 128951. (JCR,1區)

        [7]Luo L., Feng J.L., Xue R., Ma J.H., Lou L.P., He J.S., Liu Y., Xiao H., Deng O.P.*, Xie L.Y., 2021. The insufficient extraction of DNA from swine manures may underestimate the abundance of antibiotic resistance genes as well as ignore their potential hosts. Journal of Environmental Management, 278: 111587. (JCR,1區)

        [8]Deng O.P., Li X., Deng L.J., Zhang S.R., Gao X.S., Lan T., Zhou W., Tian D., Xiao Y.L., Yang J., Ou D.H., Luo L.*, 2020. Emission of CO2 and CH4 from a multi-ditches system in rice cultivation region: Flux, temporal-spatial variation and effect factors. Journal of Environmental Management, 270: 110918. (JCR, 1區)

        [9]Chen Y.X., Hu C.Y., Deng D.H., Li Y.G., Luo L.*, 2020. Factors affecting sorption behaviors of tetracycline to soils: Importance of soil organic carbon, pH and Cd contamination. Ecotoxicology and Environmental Safety, 197: 110572. (JCR, 1區)

        [10]Wang G.L., Deng D.H., Hu C.Y., Lou L.P., Luo L.*, et al., 2020. More effective removal of antibiotic resistance genes from excess sludge by microwave integrated fenton treatment. International Biodeterioration& Biodegradation, 149: 104920. (JCR, 1區)

        [11]Luo L.*, Wang G.L., Shi G.Z., et al., 2019. The characterization of biochars derived from rice straw and swine manure, and their potential and risk in N and P removal from water. Journal of Environmental Management, 245, 1-7. (JCR, 1區)

        [12]王國蘭,馮金露,樓莉萍,羅玲*, 2019.污水處理廠中四環素和磺胺類抗生素 抗性基因的分布、傳播及去除.應用生態學報, 8(30): 1-8. (CSCD)

        [13]Chen T.W., Luo L.*, Deng S.H., et al., 2018. Sorption of tetracycline on H3PO4 modified biochar derived from rice straw and swine manure. Bioresource Technology, 267, 431-437. (JCR, 1區)

        [14]Luo L.*, Meng H., Wu R.N., et al., 2018. Influence of macrofaunal burrows on extracellular enzyme activity and microbial abundance in subtropical mangrove sediment. Microbial Ecology, 76(1), 92-101. (JCR, 1區)

        [15]Luo L., Wu R.N., Gu J.-D.*, et al., 2018. Influence of mangrove roots on microbial abundance and ecoenzyme activity in sediments of a subtropical coastal mangrove ecosystem. International Biodeterioration& Biodegradation, 132: 10-17. (JCR, 1區)

        [16]Luo L., Gu J.-D.*, 2018. Nutrient limitation status in a subtropical mangrove ecosystem revealed by analysis of enzymatic stoichiometry and microbial abundance for sediment carbon cycling. International Biodeterioration& Biodegradation, 128: 3-10. (JCR, 1區)

        [17]Luo L.*, Meng H., Wu R.N., et al., 2017. Impact of nitrogen pollution/deposition on extracellular enzyme activity, microbial abundance and carbon storage in coastal mangrove sediment. Chemosphere, 177: 275-283. (JCR, 1區)

        [18]Luo L., Meng H., Gu J.-D.*, 2017. Microbial extracellular enzymes in biogeochemical cycling of ecosystems. Journal of Environmental Management, 197:539-549. (JCR, 1區)

        [19]Luo L., Gu J.-D.*, 2016. Alteration of extracellular enzyme activity and microbial abundance by biochar addition: Implication for carbon sequestration in subtropical mangrove sediment. Journal of Environmental Management, 182: 29-36. (JCR, 1區)

        [20]Luo L., Wu R.N., Meng H., et al., 2016. Seasonal and spatial variations in diversity and abundance of bacterial laccase-like genes in sediments of a subtropical mangrove ecosystem. International Biodeterioration & Biodegradation, 114: 260-267. (JCR, 1區)

        [21]Luo L., Zhou Z-C., Gu J.-D.*, 2015. Distribution, diversity and abundance of bacterial laccase-like genes in different particle size fractions of sediments in a subtropical mangrove ecosystem. Ecotoxicology, 24(7): 1508-1516. (JCR, 2區)

        [22]Luo L., Lou L.P., Cui X.Y., et al., 2011. Sorption and desorption of pentachlorophenol to black carbon of three different origins. Journal of Hazardous Materials, 185(2-3): 639-46. (JCR, 1區)

        [23]Luo L., Gu J.-D.*, 2015. Seasonal variability of extracellular enzymes involved in carbon mineralization in sediment of a subtropical mangrove wetland. Geomicrobiology Journal, 32(1): 68-76. (JCR, 2區)

        [24]Meng H.#,Luo L.#, Chan H.W., et al., 2016. Higher diversity and abundance of ammonia-oxidizing archaea than bacteria detected at the Bayon Temple of Angkor Thom in Cambodia. International Biodeterioration& Biodegradation,115:234-243.(#共同一作) (JCR, 1區)

        [25]Lou L.P., Luo L., Yang Q., et al., 2012. Release of pentachlorophenol from black carbon-inclusive sediments under different environmental conditions. Chemosphere, 88(5): 598-604. (JCR, 1區)

        [26]Lou L.P., Luo L., Cheng G.H., et al., 2012. The sorption of pentachlorophenol by aged sediment supplemented with black carbon produced from rice straw and fly ash. Bioresource Technology, 112: 61-66. (JCR, 1區)

        [27]Lou L.P., Luo L., Wang W., et al., 2011. Impact of black carbon originated from fly ash and soot on the toxicity of pentachlorophenol in sediment. Journal of Hazardous Materials, 190(1-3):474-479. (JCR, 1區)

        [28]Lou L.P., Luo L., Wang L.N., et al., 2011. The influence of acid demineralization on surface characteristics of black carbon and its sorption for pentachlorophenol. Journal of Colloid and Interface Science, 361(1):226-31. (JCR, 1區)

        3.教學(包括指導學生科研興趣活動及競賽)

        (1)優秀學士學位論文:陳雨軒(2016級)

        (2)創新訓練計劃:

        陳雨軒(負責人)、鄧達行、胡春妍、李懿根,五種典型土壤對四環素與鎘的吸附解吸行為研究,2018,省級

        王遠帆(負責人)、薛睿、洪雯、張丹華、肖芯雨,城市污泥處理系統剩余污泥中抗生素抗性基因及耐藥菌的健康風險評價,2020,省級

        (3)科研興趣培養計劃:

        肖曉雪(負責人)、陳雨軒、蔡冬芬、李楊、劉家昊,生物質炭減緩溫室效應的影響研究,2016,校級

        米九龍(負責人)、王嘉敏、葉皓陽、李杭炬、劉煒,水體富營養化對沉積物中有機碳的影響研究,2016,校級

        張大順(負責人)、林小雪、林桔、余海躍,一種復合混合材料對四環素的去除研究,2019,校級

        李可心(負責人)、王遠帆、黃欣,異位發酵過程中四環素抗性基因豐度及其影響因素,2019,校級

        薛睿(負責人)、王遠帆、洪雯、張丹華、肖芯雨,基于脫硫石膏改良的赤泥堿性調控研究,2021,校級

        李欣怡(負責人)、袁龍、楊璇、馮治涵、朱思漫,納米ZnO和ZVI對底泥中抗性基因的去除研究,2021,校級

        (4)專業技能提升計劃:

        農村生活污水處理工程設計競賽,2018,校級

        四、獎勵及榮譽

        四川省特別人才計劃

        四川省海外高層次留學人才

        四川農業大學本科教學質量二等獎

        香港政府Reaching out award

        浙江大學優秀畢業生

        五、社會兼職

        擔任Environmental Pollution、Carbohydrate Polymers、Journal of Cleaner Production、Applied Microbiology & Biotechnology、Chemosphere、Science of the Total Environment、Journal of Environmental Management、International Biodeterioration & Biodegradation、Ecotoxicology、Applied Biochemistry &Biotechnology、Journal of Residuals Science & Technology等多個SCI期刊審稿人。

        彩票快三计划 <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <文本链> <文本链> <文本链> <文本链> <文本链> <文本链>