[1] Peng Y-K (彭宇科), Lu J-L (路俊玲), Chen H-P (陈慧萍), et al. Dynamic changes of nitrogen transforming and phosphorus accumulating bacteria along with the formation of cyanobacterial blooms. Environmental Science (环境科学), 2018, 39(11): 1-9 (in Chinese) [2] Chen N (陈 楠). Relationship between Microbial Community Structure and Nutrient Cycles and Algal Bloom in Taihu Lake. PhD Thesis. Beijing: China Agricultural University, 2015 (in Chinese) [3] Hu Y (胡 颖), Jiang H-L (江和龙), He C-Q (何超群). Characteristic of physics and chemistry of grass/algae type zone sediments in Lake Taihu and effect on polyphosphate accumulation. Ecology and Environmental Sciences (生态环境学报), 2012, 21(11): 1859-1864 (in Chinese) [4] Dongye M-X (东野脉兴), Fan Z-Q (樊竹青), Zhang Z (张 灼), et al. Experimental reseaches on phosphorus decomposing and concentrating of microorganism in Dianchi Lake: An example of modern phosphorus deposition and microorganism mineralization. Journal of Jilin University (Earth Science) (吉林大学学报: 地球科学版), 2003, 33(3): 282-289 (in Chinese) [5] Xia X-H (夏学惠), Dongye M-X (东野脉兴), Zhou J-M (周建民), et al. Geochemistry and influence to environment of phosphorus in modern sediment in Dianchi Lake. Acta Sedimentologica Sinica (沉积学报), 2002, 20(3): 416-420 (in Chinese) [6] Weissbrodt DG, Holliger C, Morgenroth E. Modeling hydraulic transport and anaerobic uptake by PAOs and GAOs during wastewater feeding in EBPR granular sludge reactors. Biotechnology & Bioengineering, 2017, 114: 1688-1702 [7] Chan C, Guisasola A, Baeza JA. Enhanced biological phosphorus removal at low sludge retention time in view of its integration in A-stage systems. Water Research, 2017, 118: 217-226 [8] Wisniewski K, Kowalski M, Makinia J. Modeling nitrous oxide production by a denitrifying-enhanced biologically phosphorus removing (EBPR) activated sludge in the presence of different carbon sources and electron acceptors. Water Research, 2018, 142: 55-64 [9] García Martín H, Ivanova N, Kunin V, et al. Meta-genomic analysis of two enhanced biological phosphorus removal (EBPR) sludge communities. Nature Biotechnology, 2006, 24: 1263-1269 [10] Hupfer M, Gloess S, Grossart HP. Polyphosphate-accumulating microorganisms in aquatic sediments. Aquatic Microbial Ecology, 2007, 47: 299-311 [11] Gonzalez-Gil G, Holliger C. Dynamics of microbial community structure of and enhanced biological phosphorus removal by aerobic granules cultivated on propionate or acetate. Applied and Environmental Microbiology, 2011, 77: 8041-8051 [12] Qiao Z-H (乔子涵), Qi R (齐 冉),Wang Z (王振), et al. Effects of carbon supplementary modes on phosphorus bioaccumulation/phosphorus harvesting process in a tidal flow constructed wetland. Chinese Journal of Applied Ecology (应用生态学报), 2018, 29(8): 2753-2762 (in Chinese) [13] Zhang L-M (张丽敏), Zeng W (曾 薇), Wang A-Q (王安其), et al. Community structures and quantitative analyses of Candidatus accumulibacter in municipal wastewater treatment plants. Acta Scientiae Circumstantiae (环境科学学报), 2016, 36(4): 1226-1235 (in Chinese) [14] Skennerton CT, Barr JJ, Slater FR, et al. Expanding our view of genomic diversity in Candidatus Accumulibacter clades. Environmental Microbiology, 2015, 17: 1574-1585 [15] Zhu Y-X (朱艳霞). Research on Metagenomie DNA and Biodiversity of Phosphorus-accumulating Organisms in the Sediments from Water Inlet of Taihu Lake. Master Thesis. Suzhou: Suzhou University of Science and Technology, 2012 (in Chinese) [16] Li Y, Cao WZ, Su CX, et al. Nutrient sources and composition of recent algal blooms and eutrophication in the northern Jiulong River, Southeast China. Marine Pollution Bulletin, 2011, 63: 249-254 [17] Lin J (林 佳), Zhong Y-P (钟燕平), Su Y-P (苏玉萍), et al. Research on the carbon, nitrogen, phosphrous and microalgae of sediments in Xipi Reservoir of Jiulong River. Journal of Fujian Teachers University (Natural Science) (福建师范大学学报:自然科学版), 2015, 31(5): 63-69 (in Chinese) [18] Weng C-Y (翁彩云). Analyses on water environment problems and engineering treating counter measure of surrounding in Sanshiliujiao Lake in Pingtan County. Energy and Environment (能源与环境), 2009(3): 11-13 (in Chinese) [19] Chen Y-M (陈燕明). Analysis of the causes of water eutrophication and countermeasures in Dongyaxi reservoir. Straits Science (海峡科学), 2016(6): 44-46 (in Chinese) [20] Ruban V, López-Sánchez JF, Pardo P, et al. Harmonized protocol and certified reference material for the determination of extractable contents of phosphorus in freshwater sediments: A synthesis of recent works. Fresenius Journal of Analytical Chemistry, 2001, 370: 224-228 [21] Ludwig F, Mehlig L, Eschenhagen M, et al. Development of new primer systems for the detection of the polyphosphate kinase gene in activated sludge. Water Science and Technology, 2009, 30: 213-218 [22] Yin C-M (尹承苗), Wang G-S (王功帅), Li Y-Y (李园园), et al. Assessment of fungal diversity in apple replanted orchard soils by T-RFLP analysis. Acta Ecologica Sinica (生态学报), 2014, 34(4): 837-846 (in Chinese) [23] Chen Z-H (陈志豪), Liang X (梁 雪), Li Y-C (李永春), et al. Effects of different fertilization regimes on soil fungal communities under Phyllostachys violascens stand. Chinese Journal of Applied Ecology (应用生态学报), 2017, 28(4): 1168-1176 (in Chinese) [24] Hu Y (胡 颖), Wang S-H (王世和), Jiang H-L (江和龙), et al. Effect of different carbon resources on the enrichment of polyphosphate accumulating organisms in sediments from Taihu Lake. Safety and Environmental Engineering (安全与环境工程), 2011, 18(6): 49-52 (in Chinese) [25] Qiu C-S (邱春生), Nie H-L (聂海伦), Sun L-P (孙力平), et al. Metabolic properties of phosphorus-accumulating organisms at different carbon sources. Chinese Journal of Environmental Engineering (环境工程学报), 2014, 8(6): 2191-2197 (in Chinese) [26] Sun X (孙 雪), Zhu W-J (朱为静), Wang L (王亮), et al. Review on the main microorganisms and their metabolic mechanisms in enhanced biological phos-phorus removal (EBPR) systems. Chinese Journal of Applied Ecology (应用生态学报), 2014, 25(3): 892-902 (in Chinese) [27] Wang Y-D (王亚东), Wang S-P (王少坡), Zheng S-S (郑莎莎), et al. Poly-P accumulating microorga-nisms and identifying methods for biological phosphorus removal system. Environmental Engineering(环境工程), 2015, 33(2): 21-26 (in Chinese) [28] Wu S-Y (伍思宇), Zhou Z-R (周志如), You Q (尤青). Screening and characterization of soil phosphate accumulating bacteria from Dongzhaigang mangrove wetlands in Hainan, China. Chinese Journal of Applied & Environmental Biology (应用与环境生物学报), 2016, 22(3): 397-401 (in Chinese) [29] Liu H-L (刘鸿亮), Jin X-C (金相灿), Jing Y-F (荆一凤). Environmental dredging technology of lake sediment. Engineering Sciences (中国工程科学), 1999, 1(1): 81-84 (in Chinese) [30] He S, Gall DL, McMahon KD. Candidatus Accumulibacter population structure in enhanced biological phosphorus removal sludges as revealed by polyphosphate kinase genes. Applied and Environmental Microbiology, 2007, 73: 5865-5874 [31] Kunin V, He S, Warnecke F, et al. A bacterial meta-population adapts locall to phase predation despite global dispersal. Genome Research, 2008, 18: 293-297 [32] Hideyuki T, Yuji S, Satoshi H. Comparative analysis of bacterial diversity in fresh water sediment of a shallow eutrophic lake by molecular and improved cultivation-based techniques. Applied and Environmental Microbio-logy, 2005, 71: 2162-2169 [33] Schwarz JIK, Eckert W, Conrad R. Community structure of Archaea and Bacteria in a profundal lake sediment Lake Kinneret (Israel). Systematic and Applied Micro-biology, 2007, 30: 239-254 |