张庆华,男,教授,博士,博士生导师,江西省高层次高技能领军人才,江西省杰青,国家自然科学基金通讯评审专家,江西省\云南省\大北农科技成果奖评审专家,江西以及湖北省自然科学基金重大项目评审专家,美国加州大学戴维斯分校访问学者,江西省微生物学会理事、江西省沙巴体育试玩网站学会理事,沙巴体育副院长(主持工作),江西农业大学“未来之星”。主持国家自然科学基金4项、省部级项目10项,企业横向课题5项。现为Bioresource Technology、Journal of Hazardous Materials等国内外期刊的特邀审稿人,近年来先后在"Bioresource Technology"、"Journal of Hazardous Materials"、"Journal of cleaner production"、"环境科学学报"等国内外主流刊物上发表论文70余篇,其中第一及通讯作者SCI论文36篇(JCR一区论文24篇),累积总影响因子达230.6,申请/授权发明专利6项,以第一完成人身份荣获江西省自然科学奖三等奖1项。指导学生获省级以上竞赛奖项2项、获江西省优秀硕士毕业论文3篇。
沙巴体育:E -mail:zqh_net@163.com
主要研究方向:
环境微生物的作用机制、废弃物的生物降解与高效转化、生物有机肥、微生物发酵技术、益生菌及功能性发酵食品开发、高浓度高毒污染物的高效生物处置
获奖情况:
张庆华,毛忠贵,朱向东,唐蕾. 木薯燃料乙醇“零污染、低能耗”制造关键技术及其相关机理研究,江西省自然科学奖三等奖,2020年7月。
主持科研项目情况:
1、国家自然科学基金《嗜热厌氧芽孢杆菌的偶氮染料降解分子机制及代谢途径解析》,2019-2022年,48万,主持。
2、国家自然科学基金《沙巴体育》,2022-2025年,40.8万,主持。
3、国家自然科学基金《嗜热微好氧偶氮染料降解复合菌系的高效降解机制解析》,2017-2020年,46.8万,主持。
4、国家自然科学基金《一组高效纤维素降解复合菌系的关键降解因子及其作用机制研究》,2013-2016年,50万,主持。
5、江西省高层次高技能领军人才,2023-2025年,10万,主持。
6、江西省杰出青年人才资助计划项目,2017-2019年,15万,主持。
7、江西省自然科学基金重点项目《多组学整合精准解析硫氰酸盐高效降解复合菌群的作用机制》,2021-2024年,20万,主持。
8、江西省重点研发专项项目《农业废弃物生物转化腐殖土育苗基质高值化关键技术》,2019-2021年,10万,主持。
9、江西省自然科学基金《嗜热偶氮染料高效降解复合菌系的微生物学机制研究》,2015-2017年,5万,主持。
10、江西省科技支撑计划项目《农业废弃物协同高效生物处置与沼气资源化关键技术研究》,2015-2017年,15万,主持。
11、江西省自然科学基金《一组高效纤维素降解复合菌系的关键降解因子研究》,2012-2013年,2.5万,主持。
12、江西省教育厅重点项目《农业废弃物高效转化生物有机肥关键技术研究,2019-2021年,5万,主持。
13、江西省教育厅科技项目《嗜热偶氮染料降解复合菌系的关键功能菌及降解工艺研究》,2014-2016年,2.5万,主持。
14、江西省教育厅教改重点项目《沙巴体育试玩网站专业多层次递进式实验教学模式的创新与探索——以江西农业大学为例》,2017-2019年,2.0万,主持。
15、江西省教育厅教改项目《新工科背景下农林院校沙巴体育试玩网站专业课程思政的实施路径探究》,2022-2024年,0.5万,主持。
16、横向课题:焦化废水活性污泥菌株优化,2018-2019年,10万,主持。
17、横向课题:焦化废水生物脱色工艺研究,2019-2021年,15万,主持。
18、横向课题:焦化废水处理菌剂的开发及规模化生产研究,2021-2023年,15万元,主持。
19、横向课题:焦化废水COD降解菌剂的制备、大规模生产与生物强化研究,2021-2023年,20万元,主持。
20、横向课题:焦化废水硫代硫酸盐降解菌剂的制备与生物强化研究,2022-2023,3万元,主持。
部分代表性研究成果:
1. Molecular response of Anoxybacillus sp. PDR2 under azo dye stress: An integrated analysis of proteomics and metabolomics. Journal of hazardous materials, 2022, 438: 129500. (SCI, IF=13.6, 通讯作者)
2. Novel thermo-alkali-stable cellulase-producing Serratia sp. AXJ-M cooperates with Arthrobacter sp. AXJ-M1 to improve degradation of cellulose in papermaking black liquor. Journal of hazardous materials, 2022, 421: 126811. (SCI, IF=13.6,通讯作者)
3. Effect of bioaugmentation on lignocellulose degradation and antibiotic resistance genes removal during biogas residues composting. Bioresource Technology. 2021, 340: 125742. (SCI, IF=11.889,通讯作者)
4. Evaluation of bioremediation and detoxification potentiality for papermaking black liquor by a new isolated thermophilic and alkali-tolerant Serratia sp. AXJ-M. Journal of hazardous materials, 2021, 406: 124285. (SCI, IF=14.224, 通讯作者)
5. Effect of bioaugmentation on lignocellulose degradation and antibiotic resistance genes removal during biogas residues composting. Bioresource Technology. 2021, 340: 125742. (SCI, IF=11.889,通讯作者)
6. Cellulolytic bacterium characterization and genome functional analysis: an attempt to lay the foundation for waste management. Bioresource Technology, 2021, 321: 124462. (SCI, IF=11.889,通讯作者)
7. Deep eutectic solvent assists Bacillus australimaris to transform alkali lignin waste into small aromatic compounds. Journal of cleaner production, 2021, 320: 128719. (SCI, IF=11.072,通讯作者)
8. A newly developed consortium with a highly efficient thiocyanate degradation capacity: A comprehensive investigation of the degradation and detoxification potential, Environmental Pollution, 2023, 318: 120878. (SCI, IF=9.988,通讯作者)
9. Thiocyanate-degrading microflora alleviates thiocyanate stress on tomato seedlings by improving plant and rhizosphere microenvironment. Environmental Research, 2023, 232: 116423. (SCI, IF=8.3, 通讯作者)
10. Revealing the degrading-possibility of methyl red by two azor沙巴体育ctases of Anoxybacillus sp. PDR2 based on molecular docking. Chemosphere, 2024, 351: 141173. (SCI, IF=8.8, 通讯作者)
11. New insights into the typical nitrogen-containing heterocyclic compound-quinoline degradation and detoxification by microbial consortium: Integrated pathways, meta-transcriptomic analysis and toxicological evaluation. Journal of hazardous materials, 2024, 465: 133158. (SCI, IF=13.6,通讯作者)
12. Detoxification of azo dye Direct Black G by thermophilic Anoxybacillus sp. PDR2 and its application potential in bioremediation. Ecotoxicology and Environmental Safety, 2021, 214: 112084. (SCI, IF=7.129,通讯作者)
13. Anaerobic co-digestion of rice straw and pig manure pretreated with a cellulolytic microflora: methane yield evaluation and kinetics analysis. Frontiers in Bioengineering and Biotechnology, 2021, 8: 579405. (SCI, IF=6.064, 通讯作者)
14. Effect of organic loading rate on anaerobic co-digestion of rice straw and pig manure with or without biological pretreatment. Bioresource Technology. 2018, 250:155–162. (SCI, IF=6.669,通讯作者)
15. Biodegradation and detoxification of Direct Black G textile dye by a newly isolated thermophilic microflora. Bioresource Technology. 2018, 250: 650–657. (SCI, IF=6.669,通讯作者)
16. Insight into the Characteristics and New Mechanism of Nicosulfuron Biodegradation by a Pseudomonas sp. LAM1902. Journal of Agricultural and Food Chemistry. 2020, 68:826−837 (SCI, IF=5.279,通讯作者)
17. Integrated metagenomic and metaproteomic analyses reveal potential degradation mechanism of azo dye-Direct Black G by thermophilic microflora. Ecotoxicology and Environmental Safety. 2020, 196C:110557 (SCI, IF=6.291,通讯作者)
18. Genome and transcriptome analysis of a newly isolated azo dye degrading thermophilic strain Anoxybacillus sp. Ecotoxicology and Environmental Safety. 2020, 203C:111047 (SCI, IF=6.291,通讯作者)
19. Comparative assessment of the methanogenic steps of single and two-stage processes without or with a previous hydrolysis of cassava distillage. Bioresource Technology. 2013, 147: 1–6. (SCI, IF=5.039,第一作者和通讯作者)
20. Exploration of the key microbes involved in the cellulolytic activity of a microbial consortium by serial dilution. Bioresource Technology. 2013, 132: 395–400. (SCI, IF=5.039,第一作者和通讯作者)
21. Recent advances in the treatment of lignin in papermaking wastewater. World Journal of Microbiology and Biotechnology, 2022, 38:116. (SCI, IF=4.253,通讯作者)
22. Optimization of thermal-dilute sulfuric acid pretreatment for enhancement of methane production from cassava residues. Bioresource Technology. 2011, 102: 3958–3965. (SCI, IF=4.980,第一作者)
23. Enhancement of methane production from cassava residues by biological pretreatment using a constructed microbial consortium. Bioresource Technology. 2011, 102: 8899–8906. (SCI, IF=4.980,第一作者)
24. A novel full recycling process through two-stage anaerobic treatment of distillery wastewater for bioethanol production from cassava. Journal of Hazardous Materials. 2010, 179: 635–641. (SCI, IF=3.723,第一作者)
25. Establishment and assessment of a novel bioethanol and efficient biogas coupling fermentation system integrated with the pretreatment of a cellulolytic microbial consortium. Journal of cleaner production, 2014, 83:142-150. (SCI, IF=3.844,第一作者和通讯作者)
26. Enhanced butanol production by solvent tolerance Clostridium acetobutylicum SE25 from cassava flour in a fibrous bed bioreactor. Bioresource Technology, 2016, 221:412-418. (SCI, IF=5.651,通讯作者)
27. Enhancement of butanol production in Clostridium acetobutylicum SE25 through accelerating phase shift by different phases pH regulation from cassava flour. Bioresource Technology,2016, 201:148-155. (SCI, IF=5.651,通讯作者)
28. Exploration of the key functional proteins from an efficient cellulolytic microbial consortium using dilution-to-extinction approach. Journal of Environmental Sciences. 2016, 43: 199-207. (SCI, IF=2.865,第一作者和通讯作者)
29. Exploration of the key functional strains from an azo dye degradation microbial community by DGGE and high-throughput sequencing technology. Environmental Science and Pollution Research, 2019, 26: 24658- 24671 (SCI, IF=2.9,通讯作者)
30. Cellulolytic Microflora Pretreatment Increases the Efficiency of Anaerobic Co-digestion of Rice Straw and Pig Manure. BioEnergy Research, 2019, 12:703–713 (SCI, IF=2.5,通讯作者)
31. Treatment of thiocyanate-containing wastewater: a critical review of thiocyanate destruction in industrial effluents. World Journal of Microbiology and Biotechnology, 2023, 39:35. (SCI, IF=4.253, 通讯作者)
32. Effect of moisture content on the evolution of bacterial communities and organic matter degradation during bioaugmented biogas residues composting. World Journal of Microbiology and Biotechnology, 2023, 39:1. (SCI, IF=4.253, 通讯作者)
33. Progress in polystyrene biodegradation by insect gut microbiota. World Journal of Microbiology and Biotechnology, 2024, 40:143. (SCI, IF=4.0,通讯作者)
