德赢新版app

基本信息

招生专业

博士生：微生物学（学术型）、资源与环境（工程型）

硕士生：微生物学、发酵工程、生物工程

教育与工作经历

德赢新版app:

德赢新版app:教育经历

1982.09-1986.07  华南理工大学, 生物化工, 学士

1986.09-1991.07  华南理工大学, 发酵工程, 博士

德赢新版app:工作经历

2011.09 -至今    华南理工大学, 生物科学与工程土耳其里拉兑换人民币, 教授

2004.07-2011.09  华南理工大学, 生物科学与工程土耳其里拉兑换人民币, 副教授

1993.12-2004.06  华南理工大学, 食品与生物工程土耳其里拉兑换人民币, 副教授

1991.07-1993.11  华南理工大学, 食品与生物工程土耳其里拉兑换人民币, 讲师

教学与科研情况

德赢新版app:教学

本科生教学：发酵工程、蒸馏酒工艺学

教学成果：第十届“挑战杯”广东省赛一等奖、第十二届“挑战杯”广东省赛二等奖指导老师

研究兴趣

1.环境中微生物驱动的元素生物地球化学循环：专注于难/未培养氨氧化菌（氨氧化细菌、氨氧化古菌、完全氨氧化菌）、亚硝酸盐氧化菌、硫氧化细菌等的富集和分离纯化，及其新代谢特性的研究，揭示它们在环境中的生态效应。

2.微生物相互作用机制：主要基于微生物生态学的原理和技术，研究人工和自然生态系统中微生物相互协作促进污染物降解、发酵过程、植物生长、生物能源生产等过程，并阐明其关键机制。

3.受污染环境的微生物修复：通过直接或间接的微生物作用，对水体中的氮、磷、重金属、水华藻等污染物进行生物治理，并实现工程化应用。

承担的主要科研项目

1.国家自然科学基金面上项目：典型农田土壤中氨氧化古菌对氧化亚氮释放贡献度的新认识，2020~2023，项目负责人

2.广东省自然科学基金面上项目：氨氧化古菌氨氮耐受机制的研究，2021-2023，主要参与人

3.国家自然科学基金重大研究计划培育项目：化能自养硫氧化细菌介导的硫氧化-固氮耦合反应驱动机制及生态效应研究，2020-2022，主要参与人

4.国家自然科学基金面上项目：氨氧化古菌对农田土壤氧化亚氮释放的贡献及其作用机制，2015~2018，项目负责人

5.国家自然科学基金面上项目：寡营养淡水环境中氨氧化古菌及其氨氧化特性研究，2013~2016，项目负责人

6.国家自然科学基金面上项目：珠三角地区典型水产养殖环境中氮素迁移规律及功能微生物群落分析，2011~2013，项目负责人

7.国家自然科学基金青年基金：交联晶体催化及其机理的研究，1998~2000，项目负责人

8.广东省农业科技攻关项目：畜禽养殖过程废气生物除臭关键技术研究，2008-2010，项目负责人

9.产业化合作项目：水产养殖环境亚硝酸盐生物降解技术及其产业，2007-2009，项目负责人

10.企业委托项目：鲜牛乳精深加工系列产品开发及其产业化，2004-2009，项目负责人

代表性成果

代表性论文

(37) Jiang Y#, Wu J#, Liu M, Zhu Y, Wen Q, Lin W*, Luo J*. Growth and N₂O production of Nitrosocosmicus clade in agricultural soil when responding to high ammonium inputs. Journal of Soils and Sediments, 2023, https://doi.org/10.1007/s11368-023-03547-2 (JCR Q2, IF 3.536)

(36) Mu D, Lin W*, Luo J*. on-negligible effect of native rhizobacteria on cooperation with plant growth regulators improve tolerance to cadmium: A case study using duckweed Spirodela polyrhiza as indicating plant. Journal of Plant Growth Regulation, 2023, https://doi.org/10.1007/s00344-023-10954-9 (JCR Q1, IF 4.64)

(35) Liu B#, Lin W#, Huang S, Sun Q, Yin H, Luo J*. Removal of Mg²⁺ inhibition benefited the growth and isolation of ammonia-oxidizing bacteria: An inspiration from bacterial interaction. Science of the Total Environment, 2022, 838: 155923. (JCR Q1, IF 10.753)

(34) Xie Z#, Wu F#, Lin W*, Luo J*. The utilization of photophosphorylation uncoupler to improve lipid production of Chlorella, a case study using transcriptome and functional gene expression analysis to reveal its mechanism. Biochemical Engineering Journal, 2022, 178: 108275. (JCR Q2, IF 4.446)

(33) 刘步蟾, 罗剑飞, 黄燊曦, 尹昊, 孙秋云, 林炜铁*. 重金属和抗生素胁迫对亚硝酸盐氧化菌及硝化菌群活性的影响. 环境工程学报, 2021, 15(11): 3686-3695.

(32) 曲珊珊, 严洪珊, 罗剑飞*, 林炜铁*. 化能自养硫氧化细菌Halothiobacillus sp. LS2介导的以乙炔为电子受体的硫氧化反应. 微生物学报, 2021, 61(6): 1488-1495.

(31) Xie, Z, Lin, W*, Luo, J*. Co-cultivation of microalga and xylanolytic bacterium by a continuous two-step strategy to enhance algal lipid production. Bioresource Technology, 2021, 330: 124953. (JCR Q1, IF 9.642)

(30) Liu, L, Liu, M, Jiang, Y, Lin, W*, Luo, J*. Production and excretion of polyamines to tolerate high ammonia, a case study on soil ammonia-oxidizing archaeon “Candidatus Nitrosocosmicus agrestis”. mSystems, 2021, 6: e01003-20. (JCR Q1, IF 6.496)

(29) Xie, Z#, Li, S#, Lin, W*, Luo, J*. Parasulfuritortus cantonensis gen. nov., sp. nov., a microaerophilic sulfur-oxidizing bacterium isolated from freshwater sediment. International Journal of Systematic and Evolutionary Microbiology, 2021, 71(2):004657. (JCR Q3, IF 2.747)

(28) Xie, Z#, Lin W#, Liu J*, Luo J*. Mixotrophic cultivation of Chlorella for biomass production by using pH-stat culture medium: Glucose-Acetate-Phosphorus (GAP). Bioresource Technology, 2020, 313: 123506. (JCR Q1, IF 7.539)

(27) Wang X#, Liu L#, Lin W*, Luo J*. Development and characterization of an aerobic bacterial consortium for autotrophic biodegradation of thiocyanate. Chemical Engineering Journal, 2020, 398: 125461. (JCR Q1, IF 10.652)

(26) Hu J, Liu H, Shukal P, Lin W*, Luo J*. Nitrogen and phosphorus removals by the agar-immobilized Chlorella sacchrarophila with long-term preservation at room temperature. Chemosphere, 2020, 251: 126406. (JCR Q1, IF 5.778)

(25) Mu D, Liu H, Lin W*, Shukla P*, Luo J*. Simultaneous biohydrogen production from dark fermentation of duckweed and waste utilization for microalgal lipid production. Bioresource Technology, 2020, 302: 122879. (JCR Q1, IF 7.539)

(24) Liu L, Li S, Han J, Lin W*, Luo J*. A two-step strategy for the rapid enrichment of Nitrosocosmicus-like ammonia-oxidizing thaumarchaea. Frontiers in Microbiology, 2019, 10: 875. (JCR Q1, IF 4.259)

(23) Liu K, Han J, Li S, Lin W*, Luo J*. Insight into the diversity of antibiotic resistance genes in the intestinal bacteria of shrimp Penaeus vannamei by culture-dependent and independent approaches. Ecotoxicology and Environmental Safety, 2019, 172: 451-459. (JCR Q1, IF 4.527)

(22) Ban S, Lin W*, Luo Z, Luo J*. Improving hydrogen production of Chlamydomonas reinhardtii by reducing chlorophyll content via atmospheric and room temperature plasma. Bioresource Technology, 2019, 275: 425-429. 

(21) Ban S, Lin W*, Luo J*. Ca²⁺ enhances algal photolysis hydrogen production by improving the direct and indirect pathways. International Journal of Hydrogen Energy, 2019, 44: 1466-1473.

(20) Tu Z#, Liu L#, Lin W#, Xie Z, Luo J*. Potential of using sodium bicarbonate as external carbon source to cultivate microalga in non-sterile condition. Bioresource Technology, 2018, 266: 109-115.

(19) Lin W, Zhao D, Luo J*. Distribution of alkaline phosphatase genes in cyanobacteria and the role of alkaline phosphatase on the acquisition of phosphorus from dissolved organic phosphorus for cyanobacterial growth. Journal of Applied Phycology, 2018, 30: 839-850.

(18) Ban S#, Lin W#, Wu F, Luo J*. Algal-bacterial cooperation improves algal photolysis-mediated hydrogen production. Bioresource Technology, 2018, 251: 350-357.

(17) Luo J, Tan X, Liu K, Lin W*. Survey of sulfur-oxidizing bacterial community in the Pearl River water using soxB, sqr, and dsrA as molecular biomarkers.3 BIOTECH, 2018, 8:73.

(16) Xie Z#, Lin W#, Luo J*. Comparative phenotype and genome analysis of Cellvibrio sp. PR1, a xylanolytic and agarolytic bacterium from the Pearl River. BioMed Research International, 2017, 6304248.

(15) Lin W, Li P, Liao Z, Luo J*. Detoxification of ammonium to Nannochloropsis oculata and enhancement of lipid production by mixotrophic growth with acetate. Bioresource Technology, 2017, 227: 404-407.

(14) Li P, Lin W, Liu X, Wang X, Gan X, Luo L*, Lin W*. Effect of bioaugmented inoculation on microbiota dynamics during solid-state fermentation of Daqu starter using autochthonous of Bacillus, Pediococcus, Wickerhamomyces and Saccharomycopsis. Food Microbiology, 2017, 61: 83-92.

(13) Li P, Lin W, Liu X, Li S, Luo L*, Lin W*. Paenibacillus aceti sp nov., isolated from the traditional solid-state acetic acid fermentation culture of Chinese cereal vinegar. International Journal of Systematic and Evolutionary Microbiology, 2016, 66: 3426-3431.

(12) Xie Z#, Lin W#, Luo J*. Promotion of microalgal growth by co-culturing with Cellvibrio pealriver using xylan as feedstock. Bioresource Technology, 2016, 200: 1050-1054.

(11) Xie Z, Lin W*, Luo J*. Genome sequence of Cellvibrio pealriver PR1, a xylanolytic and agarolytic bacterium isolated from freshwater. Journal of Biotechnology, 2015, 214: 57-58.

(10) Li P, Aflakpui FWK, Yu H, Luo L*, Lin W*. Characterization of activity and microbial diversity of typical types of Daqu for traditional Chinese vinegar. Annals of Microbiology, 2015, 65: 2019-2027.

(9) Li P, Liang H, Lin WT, et al. Microbiota dynamics associated with environmental conditions and potential roles of celluloytic communities in traditional Chinese cereal starter solid-state fermentation. Applied and Environmental Microbiology, 2015, 81: 5144-5156.

(8) Zhang B, Zeng XA, Lin WT, et al. Effects of electric field treatments on phenol compounds of brandy aging in oak barrels. Innovative Food Science & Emerging Technologies, 2013, 20: 106-114.

(7) Luo J, Wang Y, Tang S, Liang J, Lin W*, Luo L*. Isolation and Identification of Algicidal Compound from Streptomyces and Algicidal Mechanism to Microcystis aeruginosa. PLoS ONE 2013, 8: e76444.

(6) Luo J, Tian G, Lin W*. Enrichment, isolation and identification of sulfur-oxidizing bacteria from sulfide removing bioreactor. Journal of Environmental Sciences, 2013, 25: 1393-1399.

(5) Luo J, Lin W*, Cai X, Li J. Optimization of fermentation media for enhancing nitrite-oxiding activity by artificial neural network coupling genetic algorithm. Chinese Journal of Chemical Engineering, 2012, 20: 950-957.

(4) Luo J, Lin W*, Guo Y. Functional genes based analysis of sulfur-oxidizing bacteria community in sulfide removing bioreactor. Applied Microbiology and Biotechnology, 2011, 90: 769-778.

(3) Lin W*, Luo J, Guo Y. Comparison and characterization of microbial communities in sulfide-rich wastewater with and without Propidium Monoazide treatment. Current Microbiology, 2011, 62: 374-381.

(2) Luo J, Lin W*, Guo Y. Method to detect only viable cells in microbiology. Applied Microbiology and Biotechnology, 2010, 86: 377-384.

(1) Ren J, Lin WT*, Shen YJ, et al. Optimization of batch fermentation media for nitrite oxidizing bacteria using sequential statistical design. Bioresource Technology, 2008, 99: 7923-7927.

授权专利

(7) 罗剑飞, 林炜铁, 谢章彰, 陈伟峰. 一种通过稳定pH快速培养小球藻的培养基及其应用, 201910098697.3

(6) 林炜铁, 唐水水, 樊杰, 朱雅楠. 一种高效废水生物脱氮的方法, 200910042269.5.

(5) 林炜铁, 张星, 樊杰, 昝继清. 一种微生态制剂喷雾除家畜家禽养殖场恶臭的方法, 200810198305.2.

(4) 林炜铁, 朱雅楠, 张星, 王周. 一种硝化细菌16SrDNA的荧光原位杂交检测方法, 200810198303.3.

(3) 林炜铁, 崔华平, 朱雅楠, 罗剑飞. 一种固定硝化细菌降解养殖废水亚硝酸盐的工艺, 200810198302.9.

(2) 林炜铁, 任杰. 一体化硝化菌培养与保藏的方法及反应器, 200710032495.6.

(1) 林炜铁, 任杰. 一种用于一体化硝化菌培养与保藏的反应器, 200720061537.4.