Sequencing batch reactor(SBR)for enhanced biological phosphorus removal(EBPR)processes was used to investigate the impact of the temperature shock on the competition between phosphorus-accumulating organisms(PAOs)and ...Sequencing batch reactor(SBR)for enhanced biological phosphorus removal(EBPR)processes was used to investigate the impact of the temperature shock on the competition between phosphorus-accumulating organisms(PAOs)and glycogen accumulating organisms(GAOs)in start-up stage.During the 34 days operation,SBR was set with temperature variation(0-5 d,22±1℃;6-13 d,29±1℃;14-34 d,14±1℃).PAOs and GAOs were analyzed by fluorescent in situ hybridization(FISH),and intracellular polyphosphate granules were stained by Neisser-stain.The results showed that the influence of temperature shock on PAOs’abundance was more serious than that on GAOs in the enriching process.Under sudden and substantially temperature variation,from 22±1℃ to 29±1℃ and then to 14±1℃,the domination of PAOs was deteriorated.After temperature shock,PAOs’competitive advantages at low temperature that concluded in other study did not appear in our study.As mesophilic,GAOs(indicated by Alphaproteobacteria and Gammaproteobacteria)were more temperature adaptive and better grew and took the domination at 14±1℃ in the end.In the competition process,organisms of tetrad forming organisms(TFOs)-like shape which were considered as typical GAOs,were observed.With the evidence of poly-P granules containing by Neisser-straining and result of FISH,these organisms of TFOs-like shape were better to be assumed as adaption state or a special self-protecting shape of PAOs.展开更多
为了解聚糖菌在污泥颗粒化中的脱氮能力及其微生物生态特性,采用反应器工艺、批式试验、显微技术和荧光原位杂交技术来评估其反硝化能力,揭示其微生物群落的微观结构,探索聚糖菌和聚磷菌在不同粒径污泥中的分布特征.结果表明,污泥对有...为了解聚糖菌在污泥颗粒化中的脱氮能力及其微生物生态特性,采用反应器工艺、批式试验、显微技术和荧光原位杂交技术来评估其反硝化能力,揭示其微生物群落的微观结构,探索聚糖菌和聚磷菌在不同粒径污泥中的分布特征.结果表明,污泥对有机物的吸收率稳定在90%以上.颗粒污泥的沉降指数(SVI10)稳定在30-50 mL g-1,远低于接种污泥的108.2 mL g-1.聚醣菌颗粒污泥对硝酸盐氮和亚硝酸盐氮的反硝化去除率分别达到了65%和70%,氮气为主要气态产物.聚糖菌颗粒污泥被大量的四联球菌结构所充斥,丝状菌在其中起到了重要的构架和搭桥的作用.荧光原位杂交结果表明聚糖菌可生存于各尺寸颗粒化污泥内;而聚磷菌受到严重抑制只能较少地分布在颗粒污泥的外围空间.上述结果表明,在SBR反应器中采用厌氧搅拌—排水—好氧曝气的处理模式成功培育出具有聚糖特性的颗粒化微生物聚集体,培育成功的颗粒污泥对硝酸盐氮和亚硝酸盐氮均具有良好的反硝化特性.在整体颗粒污泥微生物群落中聚糖菌为优势种群.展开更多
基金This research was supported by the National Nature Science Foundation of China(Grant No.50821002,National Creative Research Groups)Mega-Projects of Science Research for Water(No.2008ZX07207-005-003)the National Natural Science Foundation of China(Grant No.50638020).
文摘Sequencing batch reactor(SBR)for enhanced biological phosphorus removal(EBPR)processes was used to investigate the impact of the temperature shock on the competition between phosphorus-accumulating organisms(PAOs)and glycogen accumulating organisms(GAOs)in start-up stage.During the 34 days operation,SBR was set with temperature variation(0-5 d,22±1℃;6-13 d,29±1℃;14-34 d,14±1℃).PAOs and GAOs were analyzed by fluorescent in situ hybridization(FISH),and intracellular polyphosphate granules were stained by Neisser-stain.The results showed that the influence of temperature shock on PAOs’abundance was more serious than that on GAOs in the enriching process.Under sudden and substantially temperature variation,from 22±1℃ to 29±1℃ and then to 14±1℃,the domination of PAOs was deteriorated.After temperature shock,PAOs’competitive advantages at low temperature that concluded in other study did not appear in our study.As mesophilic,GAOs(indicated by Alphaproteobacteria and Gammaproteobacteria)were more temperature adaptive and better grew and took the domination at 14±1℃ in the end.In the competition process,organisms of tetrad forming organisms(TFOs)-like shape which were considered as typical GAOs,were observed.With the evidence of poly-P granules containing by Neisser-straining and result of FISH,these organisms of TFOs-like shape were better to be assumed as adaption state or a special self-protecting shape of PAOs.
文摘为了解聚糖菌在污泥颗粒化中的脱氮能力及其微生物生态特性,采用反应器工艺、批式试验、显微技术和荧光原位杂交技术来评估其反硝化能力,揭示其微生物群落的微观结构,探索聚糖菌和聚磷菌在不同粒径污泥中的分布特征.结果表明,污泥对有机物的吸收率稳定在90%以上.颗粒污泥的沉降指数(SVI10)稳定在30-50 mL g-1,远低于接种污泥的108.2 mL g-1.聚醣菌颗粒污泥对硝酸盐氮和亚硝酸盐氮的反硝化去除率分别达到了65%和70%,氮气为主要气态产物.聚糖菌颗粒污泥被大量的四联球菌结构所充斥,丝状菌在其中起到了重要的构架和搭桥的作用.荧光原位杂交结果表明聚糖菌可生存于各尺寸颗粒化污泥内;而聚磷菌受到严重抑制只能较少地分布在颗粒污泥的外围空间.上述结果表明,在SBR反应器中采用厌氧搅拌—排水—好氧曝气的处理模式成功培育出具有聚糖特性的颗粒化微生物聚集体,培育成功的颗粒污泥对硝酸盐氮和亚硝酸盐氮均具有良好的反硝化特性.在整体颗粒污泥微生物群落中聚糖菌为优势种群.
