环境科学
環境科學
배경과학
CHINESE JOURNAL OF ENVIRONMENTAL SCIENCE
2015年
5期
1739-1748
,共10页
田美%刘汉湖%申欣%赵方庆%陈帅%姚永佳
田美%劉漢湖%申訢%趙方慶%陳帥%姚永佳
전미%류한호%신흔%조방경%진수%요영가
百乐克(BIOLAK)%宏基因组%活性污泥%生物多样性%氮代谢%反硝化
百樂剋(BIOLAK)%宏基因組%活性汙泥%生物多樣性%氮代謝%反硝化
백악극(BIOLAK)%굉기인조%활성오니%생물다양성%담대사%반초화
BIOLAK%metagenome%activated sludge%biodiversity%nitrogen metabolism%denitrification
百乐克(BIOLAK)是一种在全球范围内得到成功推广的多级活性污泥工艺,然而,迄今对于百乐克工艺的核心元件---活性污泥的生物群落及其功能尚鲜见报道.以连云港市大浦工业区废水处理厂为例,借助于新一代高通量测序技术,获得百乐克活性污泥中大规模的宏基因组数据(428588条高质量 DNA 序列).鉴定出47个门类、872个属及1351个物种.细菌域(289933条序列)中包含33个门,其中变形菌门 Proteobacteria 是生物量最丰富的门(62.54%),其次是拟杆菌门Bacteroidetes(11.29%)、硝化螺旋菌门 Nitrospirae(5.65%)和浮霉菌门 Planctomycetes(4.79%),显示这些生物类群在百乐克废水处理系统中发挥着关键作用.在748个细菌属中,硝化螺菌属 Nitrospira(5.60%)最为丰富,为活性污泥氮循环过程中的关键菌群.其次为芽单胞菌属 Gemmatimonas(2.45%),是生物除磷过程的重要菌属.在古菌域(1019条序列)中鉴定出3个门及39个属.在真核域(1055序列),鉴定出10个门及60个属,其中,纤毛虫门 Ciliophora 是最大的门(257条序列).同时,检测到448条病毒序列,主要为噬菌体.在百乐克活性污泥中,参与氮、芳香化合物和磷代谢的功能基因比例分别为2.50%、2.28%和1.56%,均高于美国和澳大利亚两个废水处理厂活性污泥中功能基因的比例.在氮代谢的4个过程中,反硝化相关基因所占比重最高,达到80.81%,其次是氨化(12.78%)、硝化(4.38%)和固氮(2.04%).总之,在百乐克活性污泥中蕴藏着惊人的生物多样性,同时,参与氮、芳香化合物和磷代谢的功能基因非常丰富.
百樂剋(BIOLAK)是一種在全毬範圍內得到成功推廣的多級活性汙泥工藝,然而,迄今對于百樂剋工藝的覈心元件---活性汙泥的生物群落及其功能尚鮮見報道.以連雲港市大浦工業區廢水處理廠為例,藉助于新一代高通量測序技術,穫得百樂剋活性汙泥中大規模的宏基因組數據(428588條高質量 DNA 序列).鑒定齣47箇門類、872箇屬及1351箇物種.細菌域(289933條序列)中包含33箇門,其中變形菌門 Proteobacteria 是生物量最豐富的門(62.54%),其次是擬桿菌門Bacteroidetes(11.29%)、硝化螺鏇菌門 Nitrospirae(5.65%)和浮黴菌門 Planctomycetes(4.79%),顯示這些生物類群在百樂剋廢水處理繫統中髮揮著關鍵作用.在748箇細菌屬中,硝化螺菌屬 Nitrospira(5.60%)最為豐富,為活性汙泥氮循環過程中的關鍵菌群.其次為芽單胞菌屬 Gemmatimonas(2.45%),是生物除燐過程的重要菌屬.在古菌域(1019條序列)中鑒定齣3箇門及39箇屬.在真覈域(1055序列),鑒定齣10箇門及60箇屬,其中,纖毛蟲門 Ciliophora 是最大的門(257條序列).同時,檢測到448條病毒序列,主要為噬菌體.在百樂剋活性汙泥中,參與氮、芳香化閤物和燐代謝的功能基因比例分彆為2.50%、2.28%和1.56%,均高于美國和澳大利亞兩箇廢水處理廠活性汙泥中功能基因的比例.在氮代謝的4箇過程中,反硝化相關基因所佔比重最高,達到80.81%,其次是氨化(12.78%)、硝化(4.38%)和固氮(2.04%).總之,在百樂剋活性汙泥中蘊藏著驚人的生物多樣性,同時,參與氮、芳香化閤物和燐代謝的功能基因非常豐富.
백악극(BIOLAK)시일충재전구범위내득도성공추엄적다급활성오니공예,연이,흘금대우백악극공예적핵심원건---활성오니적생물군락급기공능상선견보도.이련운항시대포공업구폐수처리엄위례,차조우신일대고통량측서기술,획득백악극활성오니중대규모적굉기인조수거(428588조고질량 DNA 서렬).감정출47개문류、872개속급1351개물충.세균역(289933조서렬)중포함33개문,기중변형균문 Proteobacteria 시생물량최봉부적문(62.54%),기차시의간균문Bacteroidetes(11.29%)、초화라선균문 Nitrospirae(5.65%)화부매균문 Planctomycetes(4.79%),현시저사생물류군재백악극폐수처리계통중발휘착관건작용.재748개세균속중,초화라균속 Nitrospira(5.60%)최위봉부,위활성오니담순배과정중적관건균군.기차위아단포균속 Gemmatimonas(2.45%),시생물제린과정적중요균속.재고균역(1019조서렬)중감정출3개문급39개속.재진핵역(1055서렬),감정출10개문급60개속,기중,섬모충문 Ciliophora 시최대적문(257조서렬).동시,검측도448조병독서렬,주요위서균체.재백악극활성오니중,삼여담、방향화합물화린대사적공능기인비례분별위2.50%、2.28%화1.56%,균고우미국화오대리아량개폐수처리엄활성오니중공능기인적비례.재담대사적4개과정중,반초화상관기인소점비중최고,체도80.81%,기차시안화(12.78%)、초화(4.38%)화고담(2.04%).총지,재백악극활성오니중온장착량인적생물다양성,동시,삼여담、방향화합물화린대사적공능기인비상봉부.
The BIOLAK is a multi-stage activated sludge process, which has been successfully promoted worldwide. However, the biological community and function of the BIOLAK activated sludge (the core component in the process) have not been reported so far. In this study, taking Lianyungang Dapu Industrial Zone WWTP as an example, a large-scale metagenomic data (428 588 high-quality DNA sequences) of the BIOLAK activated sludge were obtained by means of a new generation of high-throughput sequencing technology. Amazing biodiversity was revealed in the BIOLAK activated sludge, which included 47 phyla, 872 genera and 1 351 species. There were 33 phyla identified in the Bacteria domain (289 933 sequences). Proteobacteria was the most abundant phylum (62. 54% ), followed by Bacteroidetes (11. 29% ), Nitrospirae (5. 65% ) and Planctomycetes (4. 79% ), suggesting that these groups played a key role in the BIOLAK wastewater treatment system. Among the 748 bacterial genera, Nitrospira (5. 60% ) was the most prevalent genus, which was a key group in the nitrogen cycle. Followed by Gemmatimonas (2. 45% ), which was an important genus in the biological phosphorus removal process. In Archaea domain (1 019 sequences), three phyla and 39 genera were detected. In Eukaryota domain (1 055 sequences), 60 genera and 10 phyla were identified, among which Ciliophora was the largest phylum (257 sequences). Meanwhile, 448 viral sequences were detected in the BIOLAK sludge metagenome, which were dominated by bacteriophages. The proportions of nitrogen, aromatic compounds and phosphorus metabolism in the BIOLAK sludge were 2. 50% , 2. 28% and 1. 56% , respectively, which were higher than those in the sludge of United States and Australia. Among four processes of nitrogen metabolism, denitrification-related genes were most abundant ( 80. 81% ), followed by ammonification ( 12. 78% ), nitrification (4. 38% ) and nitrogen fixation (2. 04% ). In conclusion, the BIOLAK activated sludge had amazing biodiversity, meanwhile, functional genes involved in nitrogen, aromatic compounds and phosphorus metabolism were very abundant.