氯霉素高效降解菌的筛选研究任务书

 2021-10-23 20:18:36

1. 毕业设计(论文)的内容和要求

(一) 整体要求1、文献查阅掌握文献查阅的一般方法,学会利用计算机在中国期刊网、维普数据网、超星数字图书馆、美国化学学会(ACS)、CA 、SCI等检索资源上查阅与筛菌相关的文献。

2、文献阅读及综述仔细阅读与所做课题相关的中英文文献,了解相关背景以及目前国内外的研究动态,撰写文献综述。

3、明确实验任务,拟定实验方案 根据所查文献的内容,结合大学所学课程相关知识,确定实验内容及方案,拟定科学可行的研究计划。

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2. 参考文献

(1)MIKESELL M D,BOYD S A. Complete reductive dechlorination and mineralization of pentachlorophenol by anaerobic microorganisms [J]. Applied and Environmental Microbiology, 1986, 52(4): 861-865.(2)SIMARRO R, GONZALEZ N, BAUTISTA L F, et al. Biodegradation of high-molecular-weight polycyclic aromatic hydrocarbons by a wood-degrading consortium at low temperatures [J]. Fems Microbiology Ecology, 2013, 83(2):438-449.(3)TAKAGI K, KATAOKA R,YAMAZAKI K. Recent technology on bio-remediation of POPs and persistent pesticides [J]. Jarq-Japan Agricultural Research Quarterly, 2011, 45(2): 129-136.(4)LIN J, ZHANGX W, LI ZJ, et al. Biodegradation of Reactive blue 13 in a two-stage anaerobic/aerobic fluidized beds system with a Pseudomonas sp isolate [J]. Bioresource Technology, 2010, 101(1): 34-40.(5)WUH F, WANG S H. Impacts of operating parameters on oxidation-reduction potential and pretreatment efficacy in the pretreatment of printing and dyeing wastewater by Fenton process [J]. Journal of Hazardous Materials, 2012, 243: 86-94.(6)ZAHARIA C, SUTEU D. Coal fly ash as adsorptive material for treatment of a real textile effluent: operating parameters and treatment efficiency [J].(7)Environmental Science and Polution Research, 2013, 20(4): 2226-2235. LOGAN B E, RABAEY K. Conversion of wastes into bioelectricity and chemicals by using microbial electrochemical technologies [J]. Science, 2012, 337(6095): 686-690.(8)BABAUTA J, RENSLOW R, LEWANDOWSKI Z, et al. Electrochemically active biofilms: facts and fiction. A review [J]. Biofouling, 2012, 28(8): 789- 812.(9)HOU B, SUN J, HU Y Y. Effect of enrichment procedures on performance and microbial diversity of microbial fuel cell for Congo red decolorization and electricity generation [J]. Applied Microbiology and Biotechnology, 2011, 90(4): 1563-1572.(10)SUN J A, BI Z, HOU B, et al. Further treatment of decolorization liquid of azo dye coupled with increased power production using microbial fuel cell equipped with an aerobic biocathode [J]. Water Research, 2011, 45(1): 283-291.(11)CAIPJ, XIAO X, HE Y R, et al. Involvement of c-type cytochrome CymA in the electron transfer of anacrobic nitrobenzene reduction by Shewanella oneidensis MR-1 [J]. Biochemical Engineering Journal, 2012, 68: 227-230.(12)MALVANKAR N S, TUOMINEN M T, LOVLEY D R. Lack of cytochrome involvement in long-range electron transport through conductive biofilms and nanowires of Geobacter sulfurreducens [J]. Energy 371-377.(24)RABAEY K, ROZENDAL R A. Microbial electrosynthesis - revisiting the electrical route for microbial production [J]. Nature Reviews Microbiology, 2010, 8(10): 706-716.(25)ZHANG J w, ZHANG E R, SCOTT K, et al. Enhanced electricity production by use of reconstituted artificial consortia of estuarine bacteria grown as biofilms [J]. Environmental Science 2241-2248.(28)FENG C H, LI F B, MAI H J, et al. Bio-electro-fenton process driven by microbial fuel cell for wastewater treatment []. Environmental Science Technology, 2010, 44(5): 1875-1880.(29)QIAN F, BAUM M, GU Q, et al. A 1.5 mu L microbial fuel cell for on-chip bioclectricity generation [J]. Lab on a Chip, 2009, 9(21): 3076-3081.(30)WANG X, CHENG S A, FENG Y J, et al. Use of carbon mesh anodes and the effect of different pretreatment methods on power production in microbial fuel cells [J]. Environmental Science Technology, 2009, 43(17): 6870-6874.(31)FENG Y J, YANG Q, WANG X, et al. Treatment of carbon fiber brush anodes for improving power generation in air-cathode microbial fuel cells [J]. Journal of Power Sources, 2010, 195(7): 1841-1844.(32)SCOTT K, RIMBU G A, KATURI K P, et al. Application of modified carbon anodes in microbial fuel cells [J. Process Safety and Environmental Protection,2007, 85(B5): 481-488.(33)ROSENBAUM M,SCHRODER U,SCHOLZ F. Investigation of theelectrocatalytic oxidation of formate and cthanol at platinum black under microbial fuel cell conditions [J]. Journal of Solid State Electrochemistry, 2006,10(10): 872-878.(34)PARK D H, ZEIKUS J G. Improved fuel cell and clectrode designs for producing electricity from microbial degradation [J]. Biotechnology and Bioengineering, 2003, 81(3): 348-355.(35)QIAO Y, LI C M, BAO S J, et al. Carbon nanotube/polyaniline composite as anode material for microbial fuel cells []. Journal of Power Sources, 2007,170(1): 79-84.(36)ZOU Y J, XIANG C L, YANG L N, et al, A mediatorless microbial fuel cell using polypytrole coated carbon nanotubes composite as anode material [J],Intemational Jourmal of Hydrogen Energy, 2008, 33(18): 4856-4862.

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