科学研究
邱忠平教授团队长期致力于资源微生物技术研究,开发了多种复合微生物菌剂,应用于固体废物处理与资源化、生态农业等领域,获得了原创性的研究成果,取得了一定的社会效益、环境效益和经济效益。
研究领域
■ 资源微生物技术
研究方向
■ 固体废物处理与资源化
■ 药用微生物技术
■ 农业微生物技术
科研项目
[1] 国家自然科学基金面上项目:“基于氨同化-氨氧化双途径协同的鸡粪堆肥合成菌群构建及保氮促腐机制(项目编号:52570179)”,项目周期:2026-01至2029-12
[2] 国家自然科学基金面上项目:“生物强化加速降解填埋场内木质纤维素的特性及机理研究(项目编号:51978576)”,项目周期:2020-01至 2023-12
[3] 国家重点研发项目:“城市固废大数据挖掘及全生命周期管控新技术(项目编号:2019YFC1905600)”,项目周期:2020-01至 2023-12
[4] 四川省重点研发项目:“四川典型粮油作物促生抗逆生物制剂研发与应用(项目编号:2023YFSY0011)”,项目周期:2023-01至2024-12
[5] 四川省科技成果转移转化示范项目:“多功能生态有机肥制备关键技术应用与示范(项目编号:2023ZHCG0058)”,项目周期:2023-01至2024-12
[6] 成都市重点研发支撑计划:“生物强化食用菌菌渣堆肥快速腐质化的关键技术研究(项目编号:2024-YF05-02323-SN)”,项目周期:2024-9至2025-9
[7] 成都市重点研发支撑计划:“畜禽粪便堆肥中抗生素残留控制关键技术研究,(项目编号:2022-YF05-00909-SN)”,2022-12至2023-12
[8] 中国烟草总公司四川省烟草公司科技项目:“植烟土壤碳库调控及耕层优化关键技术研究与应用”(项目编号:SCYC202616),2026-02月至2028-12
[9] 中国烟草总公司四川省烟草公司科技项目:“凉山烟区粮烟复合种植下植烟土壤健康调控技术研究与应用”(项目编号:SCYC202409),2024-01月至2026 -12
[10] 中国烟草总公司四川省公司科技项目:“烟草促生抗旱生物制剂的研发与应用(项目编号:SCYC202109)”,项目周期:2021-1至2023-12
[11] 四川省国有资产经营投资管理有限责任公司项目:“一种新型生物防控微生物菌剂的研发与应用(项目编号:KYL202411-0157)”,项目周期:2024-12至2026-11
[12] 农业微生物四川省重点实验室开放基金项目:“土壤氮素固持功能微生物制剂创制与应用(项目编号:AMAKL-2025-3)”,项目周期:2025-12至2027-12
[13] 四川省重点研发项目:“基于化肥农药减施增效的菌肥联用技术研究与示范(项目编号:2019YFN0027)”,项目周期:2019-01至2022-01
[14] 成都市科技惠民技术研发项目:“畜禽粪便堆肥复合菌剂研制与生态有机肥制备的关键技术研究,(项目编号:2016-HM01-00502-SF)”,项目周期:2017-07至2019-06
[15] 四川省环境保护公益示范项目:“利用高校科研平台,开展体验式环保教育,项目周期:2018-07至2018-12
[16] 四川省科技支撑计划:“复合菌剂-畜禽废物制备多功能生态有机肥的关键技术研究(项目编号:2015NZ0097)”,项目周期:2015-01至2016-12
[17] 中国环境科学研究院:“四川省典型垃圾填埋场地下水污染特征研究及风险评估(项目编号:2016H01427)”,项目周期:2016-01至2017-03
[18] 甘肃省科技支撑计划项目:“复合菌剂在垃圾填埋场无害化处理中的应用技术研究(项目编号:1504FKCA058)”,2015-09至2018-03
[19] 四川省科技支撑计划:“复合型生物反应器填埋场的关键技术研究(项目编号:2011SZ0229)”,2011-05至2013-08
[20] 四川省科技支撑计划:“复合型生物反应器填埋场的开发与研究(项目编号:2008SZ0008)”,2008-01至2010-12
[21] 四川省应用基础项目:“垃圾渗滤液微生物降解特性的研究(项目编号:04JY029-059-1)”,2004-01至2006-01
论文成果
[1] Wu Minghui, Zhang Han, Yin Zhiyan, Li Wenjian, Pan Zhengyong, Chen Yi, Zhang Ruotong, Qiu Zhongping*. Machine learning optimization of Cr(VI) bioreduction using novel strain CR9 immobilized on compost-derived humic acid gel microspheres[J]. Process Safety and Environmental Protection, 2026, 209: 108605.
[2] Li Mingxing, Jiang Hui, Li Ruiding, Liu Lifeng, Liu Wendong, Xie Yong, Wu Wenchan, Li Xing, Chen Yulan, Deng Quan*, Qiu Zhongping*. Biostimulants accelerate lignin degradation in semi-aerobic landfills, assisting overall lifecycle management and sustainable development of landfills[J]. Journal of Cleaner Production, 2025, 501: 145267.
[3] Jianpeng Li, Minghui Wu, Han Wu, Qin Han, Yongxiang Gao, Maoxiang Tang, Can Wang, Fangfang Yan, Bin Li, Xing Li, Zhongping Qiu*. Bioremediation of cadmium-phoxim co-contamination by an autochthonous pollutant-resistant consortium enhances Ligusticum Chuanxiong Hort. resistance[J]. Journal of Environmental Sciences. 2025, 4406
[4] Minghui Wu, Yiqian Tao, Qilu Zeng, Zhengyong Pan, Han Zhang, Zhiyan Yin, Wenjian Li, Yanxin Liu, Xing Li, Zhongping Qiu*. Deciphering the driving mechanism of microbial community for rapid stabilization and lignocellulose degradation during waste semi-aerobic bioreactor landfilling with multifunctional microbial inoculum[J]. Waste Management. 2025, 194, 88-103.
[5] Minghui Wu*, Yi Chen, Han Zhang, Zhiyan Yin, Zhengyong Pan, Zhongping Qiu*. Multiple sites air quality prediction using a novel deep learning model integrating multi-scale spatiotemporal features and spatial heterogeneity[J]. Process Safety and Environmental Protection, 2025, 201: 107539.
[6] Li Mingxing, Jiang Hui, Li Ruiding, Liu Wendong, Xie Yong, Wu Wenchan, Liu Dongyang*, Wu Minghui, Qiu Zhongping*. Effects of biochar-loaded microbial agent in regulating nitrogen transformation and integration into humification for straw composting[J]. Bioresource Technology, 2025, 417: 131873.
[7] Mingxing Li, Hui Jiang, Xiang Mo, Ruiding Li, Lifeng Liu, Wenchan Wu, Wendong Liu, Yong Xie, Xing Li, Fangfang Yan, Zhongping Qiu*. Biostimulation accelerates landfill stabilization and resource utilization efficiency, providing feasible technical support for the overall lifecycle management of landfills[J]. Chemosphere. 2024, 142984.
[8] Yunxia Fu, Mingxing Li, Jianpeng Li, Dilin Chen, Tianhui Ye, Can Wang, Fangfang Yan, Zhongping Qiu*. Soil microbial community variation in vanadium-enriched farmland surrounding vanadium titanomagnetite tailing in Southwest China[J]. Applied Soil Ecology. 2024, 105318.
[9] Haitao Ma, Keke Wang, Qilu Zeng, Peihan Li, Shiping Lyu, Bohan Li, Xia Luo, Liyue Jiang, Min Cao, Bing Liao, Zhongping Qiu, Likai Hao, Can Wang. Photocatalytic properties and antibacterial mechanisms of microbial-derived ZnS/CuS nanocomposites[J]. Journal of Environmental Chemical Engineering, 2023, 11, 111425.
[10] Wang,Qiqi., Lai, Yuting., Zhang, Han., Li, Jianpeng., Zeng, Qilu., Pan, Zhengyong., Wu, Han., Wu, Minghui.,Qiu, Zhongping*.,Enhancement of superoxide dismutase activity using mixed Lactobacillus casei and Saccharomyces cerevisiae cultures in simulated gastrointestinal conditions with encapsulation[J]. Biochemical Engineering Journal. 2023, 200, 109037.
[11] Minghui Wu, Qiqi Wang, Han Zhang, Zhengyong Pan, Qilu Zeng, Weizhen Fang, Jilong Mao, Jianpeng Li, Han Wu, Qiu Zhongping*. Performance and mechanism of co-culture of Monascus purpureus, Lacticaseibacillus casei, and Saccharomyces cerevisiae to enhance lovastatin production and lipid-lowering effects[J]. Bioprocess and Biosystems Engineering. 2023, 46, 1411-1426.
[12] Jia Yinxue, Niu Huan, Zhao Peng, Li Xing, Yan Fangfang, Wang Can, Qiu Zhongping*.Correction to: Synergistic biocontrol of Bacillus subtilis and Pseudomonas fluorescens against early blight disease in tomato[J]. Applied Microbiology and Biotechnology. 2023, 107:6071–6083.
[13] Jia Yinxue, Li Jianpeng, Niu Huan, Ma Haitao, Han Qin, Wang Can, Li Bin, Qiu Zhongping*. Synergistic antagonism mechanism of Bacillus-Pseudomonas consortium against Alternaria solani[J]. European Journal of Plant Pathology. 2023, 167:715–726.
[14] Peng Zhao, Mingxing Li, Xiang Mo, Junwei Yang, Lifeng Liu, Yuanxia Huang, Zhongping Qiu*, Development and properties evaluation of multi-strain probiotic with cholesterol-lowering potential in vitro[J]. Letters in Applied Microbiology, 2023, ovad038.
[15] Yu Wang, Hang Qiu, Huan Niu, Hao Liu, Jinchang Liu, Yinxue Jia, Haitao Ma, Fei Xu, Likai Hao, Zhongping Qiu*, Can Wang. Effect and mechanism of simultaneous cadmium-tetracycline removal by a self-assembled microbial-photocatalytic coupling system[J]. Journal of Hazardous Materials. 2023, 449: 131018.
[16] Wang Can, Jia Yinxue, Li Jianpeng, Li Peng, Wang Yu, Yan Fangfang, Wu Minghui, Fang Weizhen, Xu Fei, Qiu Zhongping*. Influence of microbial augmentation on contaminated manure composting: metal immobilization, matter transformation, and bacterial response[J]. Journal of Hazardous Materials, 2023, 441: 129762.
[17] Can Wang, Yinxue Jia, Jianpeng Li, Yu Wang, Huan Niu, Hang Qiu, Xing Li, Weizhen Fang, Zhongping Qiu*. Effect of bioaugmentation on tetracyclines influenced chicken manure composting and antibiotics resistance[J]. Science of The Total Environment. 2023, 161457.
[18] Minghui Wu, Qiqi Wang, Can Wang, Qilu Zeng, Jianpeng Li, Han Wu, Bin Wu, Heng Xu, Zhongping Qiu*. Strategy for enhancing Cr(VI)-contaminated soil remediation and safe utilization by microbial-humic acid-vermiculite-alginate immobilized biocomposite[J]. Ecotoxicology and Environmental Safety. 2022, 113956.
[19] Can Wang, Minghui Wu, Chuanhai Peng, Fangfang Yan, Yinxue Jia, XingLi, Mingxing Li, Bin Wu, Heng Xu, Zhongping Qiu*. Bacterial dynamics and functions driven by a novel microbial agent to promote kitchen waste composting and reduce environmental burden[J]. Journal of Cleaner Production. 2022, 130491.
[20] Can Wang, Yinxue Jia, Qiqi Wang, Fangfang Yan, Minghui Wu, Xing Li, Weizhen Fang, Fei Xu, Huakang Liu, Zhongping Qiu*. Responsive change of crop-specific soil bacterial community to cadmium in farmlands surrounding mine area of Southeast China[J]. Environmental Research. 2022, 113748.
[21] Wang Can, Jianpeng Li, Weizhen Fang, Wenjing Chen, Meihui Zou, XingLi, Zhongping Qiu*, Heng Xu. Lipid degrading microbe consortium driving micro-ecological evolvement of activated sludge for cooking wastewater treatment[J]. Science of The Total Environment. 2021, 150071.
[22] Zhongping Qiu*, Mingxing Li, Liyan Song, Can Wang, Shu Yang, Zhiying Yan, Yangqing Wang. Study on nitrogen-retaining microbial agent to reduce nitrogen loss during chicken manure composting and nitrogen transformation mechanism[J]. Journal of Cleaner Production. 2021, 285: 124813.
[23] Ying Wang , Lin Li, Zhongping Qiu*, Kaixiong Yang, Yunping Han, Fengguang Chai, Pengyu Li, Yanjie Wang. Trace volatile compounds in the air of domestic waste landfifill site: Identifification, olfactory effect and cancer risk[J]. Chemosphere. 2021,272 :129582.
[24] Mingxing Li, Xiaosong He, Jian Tang,Xing Li, Rui Zhao, YiqianTao, Can Wang, Zhongping Qiu*. Influence of moisture content on chicken manure stabilization during microbial agent-enhanced composting[J]. Chemosphere. 2021, 264: 128549.
[25] Peng Wen,Yuyu Huang, Zhongping Qiu*, Qibin Li. Microbial response during treatment of different types of landfill leachate in a semi aerobic aged refuse biofilter[J]. Chemosphere. 2021, (262): 127822.
[26] Zhongping Qiu, Mingxing Li, Luziping Zhang, Rui Zhao, Min Li. Effect of waste compaction density on stabilization of aerobic bioreactor landfills[J]. Environmental Science and Pollution Research. 2020, 27: 4528-4535.
[27] Jian Xiao,Yawen Wang, Zhongping Qiu*,Yu Peng. Ni-Catalyzed Intramolecular Reductive 1,2-Dicarbofunctionalization of Alkene: Facile Access to Podophyllum Lignans Core[J].Synlett. 2020, 31(16): 1662-1664.
[28] Jian Tang, Junguo He, Hengjun Tang, Haiyue Wang, Weiping Sima, Chao Liang, Zhongping Qiu. Heavy metal removal effffectiveness, flow direction and speciation variations in the sludge during the biosurfactant-enhanced electrokinetic remediation[J]. Separation and Purifification Technology. 2020, 246: 116918.
[29] 唐茂翔, 李斌, 闫芳芳, 李鹏, 李建鹏, 韩勤, 高永翔, 刘东阳*, 邱忠平*. 促生抗旱微生物对烟草抗旱性的调控作用[J]. 江苏农业学报, 2025(12): 2315-2325.
[30] 李明星, 江慧, 李锐定, 陶逸倩, 李星, 邱忠平*. 功能菌剂偶联有机肥强化秸秆还田[J].中国环境科学, 2025, 45(02): 870-881.
[31] 毛继龙, 张建辉, 王璨, 赵芃, 陈文静, 邱忠平*. 一株高产洛伐他汀红曲霉的筛选与液态发酵条件优化[J]. 微生物学通报. 2022, 49 (6): 2221-2232.
[32] 刘洋,邱忠平,孟涛,龚正君,王东梅,樊超. 高效产纤维素酶曲霉生物转化纤维素乙醇研究[J]. 西南交通大学学报. 2020, 55 (01): 225-230.
[33] 黄元霞,彭传海,丁宁,邱忠平*,李星,邹美慧. 一种三联乳酸菌的体外降胆固醇和抗氧化能力研究[J]. 生物技术通报. 2020, 36 (12): 17-23.
专利
发明专利
[1] 邱忠平, 韩勤, 高永翔, 吴明蔧, 李建鹏, 李明星, 李锐定, 唐茂翔. 一种胶质类芽孢杆菌及其相关产品和应用: 中国, ZL 202411552941.6.(授权)
[2] 邱忠平, 刘力风等. 一种特基拉芽孢杆菌及其相关产品和应用, ZL 202411552942.0(授权)
[3] 邱忠平, 李斌, 贾寅雪, 闫芳芳, 官宇, 李建鹏. 一种荧光假单胞菌和含有荧光假单胞菌的菌剂及其制备方法和应用, 2023-07-19, 中国, ZL 202310887628.7(授权)
[4] 邱忠平, 陈家宏, 韩云平, 周俊强, 冯猛, 王倩, 周丽萍, 童霏. 生活垃圾高效降解功能复合菌剂及其应用, 2010-10-22, 中国, ZL 2010 1 0100179.X(授权)
[5] 邱忠平, 刘洋, 刘源月, 唐建, 冯猛, 华建军, 廖禧, 付春霞, 刘志刚, 柯佳闻, 王强. 好氧生物反应器填埋场处理城市生活垃圾的控制工艺, 2016-10-5, 中国, ZL201510111362.2(授权)
[6] 刘洋, 邱忠平, 孟涛, 龚正君, 王冬梅, 樊超, 李明星, 汤国雄. 一种高产纤维素酶的密丝明孢曲霉及其发酵方法与应用, 2020-9-25, 中国, ZL 201811273756.8(授权)
[7] 王璨, 邱忠平, 王宇, 徐绯, 张良奇, 马海涛, 刘晋畅, 牛欢, 邱航. 微生物-光催化偶联降解材料及制备方法和废水处理方法, 2023-7-25, 中国, ZL 2022 1 0756197.6(授权)
[8] 邱忠平, 吴明蔧等. 一种乳酸菌-酵母菌共培养体系及其构建与应用, CN202311059711.1(公开)
[9] 邱忠平, 李红等. 一种果蔬酵素及其制备方法.CN202010083466.8(公开)
[10] 邱忠平, 何偲等. 一种微生物发酵菌剂及其制备方法和应用.CN202010083497.3(公开)
[11] 梁辉, 邱忠平等. 一种促生抗旱解硅复合菌剂及其制备方法及应用. CN202411552468.1(公开)
[12] 陈玉蓝, 邱忠平等. 解硅型矿物生物有机肥及其制备方法和应用. CN202511200937.8(公开)
实用新型专利
[1] 邱忠平, 冯明, 张余, 冯云浩 一种餐厨垃圾预处理成套装置2021-11-02中国, ZL 2020 2 3276946.0(授权)
[2] 闫芳芳, 邱忠平, 赖玉婷, 刘艳鑫, 吴明蔧 一种好氧堆肥反应装置, 2024-10-01中国, ZL 2024 2 0416541.1(授权)
[3] 李明星, 闫芳芳, 邱忠平, 江慧, 官宇, 刘汶东 一种堆肥除臭一体化装置, 2024-10-01中国, ZL 2024 2 0369084.5(授权)