Comparison of the properties of periphyton attached to modified agro-waste carriers

详细信息    查看全文

• 作者：Juanjuan Wan ; Xuemei Liu ; Philip G. Kerr…
• 关键词：Metabolic activity ; Metabolic versatility ; Periphyton ; Peanut shell ; Rice husk
• 刊名：Environmental Science and Pollution Research
• 出版年：2016
• 出版时间：February 2016
• 年：2016
• 卷：23
• 期：4
• 页码：3718-3726
• 全文大小：626 KB
• 参考文献：Abdul Khalil HPS, Bhat AH, Ireana Yusra AF (2012) Green composites from sustainable cellulose nanofibrils: a review. Carbohydr Polym 87(2):963–979CrossRef
  Anand PSS, Kohli MPS, Roy SD, Sundaray JK, Kumar S, Sinha A, Pailan GH, Sukham MK (2013) Effect of dietary supplementation of periphyton on growth performance and digestive enzyme activities in Penaeus monodon. Aquaculture 392:59–68CrossRef
  APHA (2005) Standard methods for the examination of water and wastewater, 21st edn. American Public Health Association, Washington DC
  Armon R, Arbel T, Green M (1998) A quantitative and qualitative study of biofilm disinfection on glass, metal and PVC surfaces by chlorine, bromine and bromochloro-5,5 dimethylhydantoin (BCDMH). Water Sci Technol 38(12):175–179CrossRef
  Arrhenius Å, Backhaus T, Hilvarsson A, Wendt I, Zgrundo A, Blanck H (2014) A novel bioassay for evaluating the efficacy of biocides to inhibit settling and early establishment of marine biofilms. Mar Pollut Bull 87(1–2):292–299CrossRef
  Azim, ME (2009) Encyclopedia of inland waters. In: Likens GE (ed), pp. 184-191, Academic Press, Oxford
  Bentsen NS, Felby C, Thorsen BJ (2014) Agricultural residue production and potentials for energy and materials services. Prog Energy Combust Sci 40:59–73CrossRef
  Bernstein R, Belfer S, Freger V (2011) Bacterial attachment to RO membranes surface-modified by concentration-polarization-enhanced graft polymerization. Environ Sci Technol 45(14):5973–5980CrossRef
  Briassoulis D, Hiskakis M, Babou E (2013) Technical specifications for mechanical recycling of agricultural plastic waste. Waste Manag 33(6):1516–1530CrossRef
  Choi K-H, Dobbs FC, Wahab MA (1999) Comparison of two kinds of Biolog microplates (GN and ECO) in their ability to distinguish among aquatic microbial communities. J Microbiol Methods 36(3):203–213CrossRef
  Chorus I, Bartram J (1999) Toxic cyanobacteria in water: a guide to their public health consequences, monitoring and management. E & FN Spon, 11 New Fetter Lane, London EC4P 4EE, WHO
  Dick DP, Santos JHZ, Ferranti EM (2003) Chemical characterization and infrared spectroscopy of soil organic matter from two southern Brazilian soils. Revista Brasileira De Ciencia Do Solo 27(1):29–39CrossRef
  Felföldi T, Jurecska L, Vajna B, Barkács K, Makk J, Cebe G, Szabó A, Záray G, Márialigeti K (2015) Texture and type of polymer fiber carrier determine bacterial colonization and biofilm properties in wastewater treatment. Chem Eng J 264:824–834CrossRef
  Gaiser EE, Scinto LJ, Richards JH, Jayachandran K, Childers DL, Trexler JC, Jones RD (2004) Phosphorus in periphyton mats provides the best metric for detecting low-level P enrichment in an oligotrophic wetland. Water Res 38(3):507–516CrossRef
  Garland JL (1996) Analytical approaches to the characterization of samples of microbial communities using patterns of potential C source utilization. Soil Biol Biochem 28(2):213–221CrossRef
  Ge M, Li B, Wang L, Tao Z, Mao S, Wang Y, Xie G, Sun G (2014) Differentiation in MALDI-TOF MS and FTIR spectra between two pathovars of Xanthomonas oryzae. Spectrochim Acta A Mol Biomol Spectrosc 133:730–734CrossRef
  Giaramida L, Manage PM, Edwards C, Singh BK, Lawton LA (2013) Bacterial communities’ response to microcystins exposure and nutrient availability: linking degradation capacity to community structure. Int Biodeterior Biodegrad 84:111–117CrossRef
  Gil-Allué C, Schirmer K, Tlili A, Gessner MO, Behra R (2015) Silver nanoparticle effects on stream periphyton during short-term exposures. Enviro Sci Technol 49(2):1165–1172CrossRef
  Gilcreas F (1966) Standard methods for the examination of water and waste water. Am J Public Health Nat Health 56(3):387CrossRef
  Gomez-Suarez C, Pasma J, van der Borden AJ, Wingender J, Flemming HC, Busscher HJ, van der Mei HC (2002) Influence of extracellular polymeric substances on deposition and redeposition of Pseudomonas aeruginosa to surfaces. Microbiology 148:1161–1169CrossRef
  Graba M, Sauvage S, Moulin FY, Urrea G, Sabater S, Sanchez-Pérez JM (2013) Interaction between local hydrodynamics and algal community in epilithic biofilm. Water Res 47(7):2153–2163CrossRef
  Ivar do Sul JA, Costa MF, Wahab MA (2014) The present and future of microplastic pollution in the marine environment. Environ Pollut 185(0):352–364CrossRef
  Janjaroen D, Ling F, Monroy G, Derlon N, Mogenroth E, Boppart SA, Liu W-T, Nguyen TH (2013) Roles of ionic strength and biofilm roughness on adhesion kinetics of Escherichia coli onto groundwater biofilm grown on PVC surfaces. Water Res 47(7):2531–2542CrossRef
  Keshavanath P, Gangadhar B, Ramesh TJ, Rooij JM, Beveridge MCM, Baird D, Verdegem MCJ (2001) Use of artificial substrates to enhance production of fresh water herbivorous fish in pond culture. Aquac Res 32:189–197CrossRef
  Khatoon H, Yusoff F, Banerjee S, Shariff M, Bujang JS (2007) Formation of periphyton biofilm and subsequent biofouling on different substrates in nutrient enriched brackishwater shrimp ponds. Aquaculture 273(4):470–477CrossRef
  Kroll A, Behra R, Kaegi R, Sigg L (2014) Extracellular polymeric substances (EPS) of freshwater biofilms stabilize and modify CeO2 and Ag nanoparticles. PLoS One 9:e110709CrossRef
  Lakshmi K, Muthukumar T, Doble M, Vedaprakash L, Kruparathnam X, Dineshram R, Jayaraj K, Venkatesan R (2012) Influence of surface characteristics on biofouling formed on polymers exposed to coastal sea waters of India. Colloids Surf B: Biointerfaces 91(0):205–211CrossRef
  Li TL, Bo LJ, Yang F, Zhang SQ, Wu YH, Yang LZ (2012) Comparison of the removal of COD by a hybrid bioreactor at low and room temperature and the associated microbial characteristics. Bioresour Technol 108:28–34CrossRef
  Liu H, Yang F, Shi S, Liu X (2010) Effect of substrate COD/N ratio on performance and microbial community structure of a membrane aerated biofilm reactor. J Environ Sci 22(4):540–546CrossRef
  Lou Z, Shen D, Wang Y (2015) Preliminary-summation-based principal component analysis for non-Gaussian processes. Chemom Intell Lab Syst 146:270–289CrossRef
  Lower SK, Hochella MF Jr, Beveridge TJ (2001) Bacterial recognition of mineral surfaces: nanoscale interactions between Shewanella and alpha-FeOOH. Science 292(5520):1360–1363CrossRef
  Luo J, Hao T, Wei L, Mackey HR, Lin Z, Chen G-H (2014) Impact of influent COD/N ratio on disintegration of aerobic granular sludge. Water Res 62:127–135CrossRef
  Maher W, Krikowa F, Wruck D, Louie H, Nguyen T, Huang WY (2002) Determination of total phosphorus and nitrogen in turbid waters by oxidation with alkaline potassium peroxodisulfate and low pressure microwave digestion, autoclave heating or the use of closed vessels in a hot water bath: comparison with Kjeldahl digestion. Anal Chim Acta 463(2):283–293CrossRef
  Martinez-Cordova LR, Emerenciano M, Miranda-Baeza A, Martinez-Porchas M (2015) Microbial-based systems for aquaculture of fish and shrimp: an updated review. Rev Aquac 7(2):131–148CrossRef
  Mohammed JS (2015) Micro- and nanotechnologies in plankton research. Prog Oceanogr 134:451–473CrossRef
  Moschini-Carlos V, Henry R, Pompêo MM (2000) Seasonal variation of biomass and productivity of the periphytic community on artificial substrata in the Jurumirim Reservoir [2pt] (São Paulo, Brazil). Hydrobiologia 434(1-3):35–40CrossRef
  Preston-Mafham J, Boddy L, Randerson PF (2002) Analysis of microbial community functional diversity using sole-carbon-source utilisation profiles— a critique. FEMS Microbiol Ecol 42(1):1–14
  Prosser RS, Brain RA, Malia Andrus J, Hosmer AJ, Solomon KR, Hanson ML (2015) Assessing temporal and spatial variation in sensitivity of communities of periphyton sampled from agroecosystem to, and ability to recover from, atrazine exposure. Ecotoxicol Environ Saf 118:204–216CrossRef
  Renner LD, Weibel DB (2011) Physicochemical regulation of biofilm formation. MRS Bull 36(5):347–355CrossRef
  Ricardo AR, Carvalho G, Velizarov S, Crespo JG, Reis MAM (2012) Kinetics of nitrate and perchlorate removal and biofilm stratification in an ion exchange membrane bioreactor. Water Res 46(14):4556–4568CrossRef
  Salta M, Wharton JA, Blache Y, Stokes KR, Briand JF (2013) Marine biofilms on artificial surfaces: structure and dynamics. Environ Microbiol 15(11):2879–2893
  Singh CK, Sahu JN, Mahalik KK, Mohanty CR, Mohan BR, Meikap BC (2008) Studies on the removal of Pb(II) from wastewater by activated carbon developed from Tamarind wood activated with sulphuric acid. J Hazard Mater 153(1鈥?):221–228CrossRef
  Shangguan HD, Liu JZ, Zhu Y, Tong ZG, Wu YH (2015) Start-up of a spiral periphyton bioreactor (SPR) for removal of COD and the characteristics of the associated microbial community. Bioresour Technol 193:456–462CrossRef
  Song XD, Xue XY, Chen DZ, He PJ, Dai XH (2014) Application of biochar from sewage sludge to plant cultivation: influence of pyrolysis temperature and biochar-to-soil ratio on yield and heavy metal accumulation. Chemosphere 109:213–220CrossRef
  Tan X, Sheldon F, Bunn S, Zhang Q (2013) Using diatom indices for water quality assessment in a subtropical river, China. Environ Sci Pollut Res 20(6):4164–4175CrossRef
  Vadeboncoeur Y (2009) Encyclopedia of inland waters. Likens GE (ed), pp. 52–59, Academic Press, Oxford.
  Wingard GL, Lorenz JJ (2014) Integrated conceptual ecological model and habitat indices for the southwest Florida coastal wetlands. Ecol Indic 44:92–107CrossRef
  Wood SA, Kuhajek JM, de Winton M, Philips NR (2012) Species composition and cyanotoxin production in periphyton mats from three lakes of varying trophic status. FEMS Microbiol Ecol 79:312–326CrossRef
  Wu Y, Hu Z, Kerr PG, Yang L (2011a) A multi-level bioreactor to remove organic matter and metals, together with its associated bacterial diversity. Bioresour Technol 102(2):736–741CrossRef
  Wu Y, Hu ZY, Yang LZ, Graham B, Kerr PG (2011b) The removal of nutrients from non-point source wastewater by a hybrid bioreactor. Bioresour Technol 102(3):2419–2426CrossRef
  Wu Y, Xia L, Liu N, Gou S, Nath B (2014) Cleaning and regeneration of periphyton biofilm in surface water treatment systems. Water Sci Technol 69(2):235–243CrossRef
  Xu G, Zhang W, Xu H (2015) Can dispersions be used for discriminating water quality status in coastal ecosystems? A case study on biofilm-dwelling microbial eukaryotes. Ecol Indic 57:208–214CrossRef
  Xu H, Zhang W, Jiang Y (2014a) Do early colonization patterns of periphytic ciliate fauna reveal environmental quality status in coastal waters? Environ Sci Pollut Res 21(11):7097–7112CrossRef
  Xu H, Zhang W, Jiang Y, Yang EJ (2014b) Use of biofilm-dwelling ciliate communities to determine environmental quality status of coastal waters. Sci Total Environ 470–471:511–518CrossRef
  Xu H, Zhang W, Jiang Y, Zhu M, Al-Rasheid KS (2012) Influence of sampling sufficiency on biodiversity analysis of microperiphyton communities for marine bioassessment. Environ Sci Pollut Res 19(2):540–549CrossRef
  Yang X-L, Jiang Q, Song H-L, Gu T-T, Xia M-Q (2015) Selection and application of agricultural wastes as solid carbon sources and biofilm carriers in MBR. J Hazard Mater 283:186–192CrossRef
  Zhang H, Li G, Song X, Yang D, Li Y, Qiao J, Zhang J, Zhao S (2013) Changes in soil microbial functional diversity under different vegetation restoration patterns for Hulunbeier Sandy Land. Acta Ecol Sin 33(1):38–44CrossRef
  Zhang X, Mei X (2013) Periphyton response to nitrogen and phosphorus enrichment in a eutrophic shallow aquatic ecosystem. Chin J Oceanol Limnol 31(1):59–64CrossRef
  Zhang Y, Xu J, Dong F, Liu X, Wu X, Zheng Y (2014) Response of microbial community to a new fungicide fluopyram in the silty-loam agricultural soil. Ecotoxicol Environ Saf 108:273–280CrossRef
  Zhao J, Xiuwen W, Hu J, Liu Q, Shen D, Xiao R (2014) Thermal degradation of softwood lignin and hardwood lignin by TG-FTIR and Py-GC/MS. Polym Degrad Stab 108:133–138CrossRef
  Zhou Q, Zhang P, Zhang G, Peng M (2015) Biomass and pigments production in photosynthetic bacteria wastewater treatment: effects of photoperiod. Bioresour Technol 190:196–200CrossRef
  
• 作者单位：Juanjuan Wan (1) (2)
  Xuemei Liu (1)
  Philip G. Kerr (3)
  Chenxi Wu (4)
  Yonghong Wu (2)
  
  1. School of Civil Engineering, East China Jiaotong University, 808, Shuang Gang East Road, Nanchang, 330013, Jiangxi, China
  2. State Key Laboratory of Soil and Sustainable Agriculture, Institute of Soil Sciences, Chinese Academy of Sciences, 71 East Beijing Road, Nanjing, 210008, Jiangsu, People’s Republic of China
  3. School of Biomedical Sciences, Charles Sturt University, Wagga Wagga, NSW, 2678, Australia
  4. State Key Laboratory of Freshwater Ecology and Biotechnology, Institute of Hydrology, Chinese Academy of Sciences, Wuhan, 430072, China
  
• 刊物类别：Earth and Environmental Science
• 刊物主题：Environment
  Environment
  Atmospheric Protection, Air Quality Control and Air Pollution
  Waste Water Technology, Water Pollution Control, Water Management and Aquatic Pollution
  Industrial Pollution Prevention
  
• 出版者：Springer Berlin / Heidelberg
• ISSN：1614-7499

文摘

Periphyton is a valuable, environmentally benign resource widely used in environmental remediation. A protocol for reusing agro-wastes to improve the metabolic activity and versatility of periphyton was tested in this study. Peanut shell (PS), decomposed peanut shell (DPS), acidified peanut shell (APS), rice husks (RHs), acidified rice husks (ARHs), and a commonly used synthetic carrier, ceramsite (C), were used to support periphyton attachment and growth. The results show that the modified carriers have more hydrophilic groups, higher periphyton biomass, and autotrophic indices than the unmodified carriers. As a consequence, they promote the metabolic versatility of periphyton microbial communities. Thus, the periphyton attached to modified agro-wastes (DPS, APS, and ARH) grew in a stable and sustainable manner. This study suggests that modified PS and RH are effective and environmentally benign carriers that enhance periphyton activity and functionality. Development of periphytic carriers using agro-wastes is also a sustainable method of reusing these materials. Keywords Metabolic activity Metabolic versatility Periphyton Peanut shell Rice husk