生态环境学报
生態環境學報
생태배경학보
ECOLOGY AND ENVIRONMENT
2013年
8期
1395-1400
,共6页
廖旭%胡安谊%杨晓永%陈进生%于昌平%林建清
廖旭%鬍安誼%楊曉永%陳進生%于昌平%林建清
료욱%호안의%양효영%진진생%우창평%림건청
空气微生物%PM2.5%细菌%真核微型生物%T-RFLP%克隆文库
空氣微生物%PM2.5%細菌%真覈微型生物%T-RFLP%剋隆文庫
공기미생물%PM2.5%세균%진핵미형생물%T-RFLP%극륭문고
airborne microorganisms%PM2.5%bacteria%eukaryotic microorganisms%T-RFLP%clone library
近年来由于雾霾事件频发,有关细颗粒物PM2.5的来源、组成及迁移转化规律已经引起了人们的广泛关注,然而对于PM2.5颗粒物中微生物的组成和来源还知之甚少。本文应用T-RFLP、克隆文库和测序方法研究厦门2012年冬季PM2.5颗粒物中细菌和真核微型生物的群落组成,并分析其潜在的来源环境。研究结果表明:与克隆文库方法相比,T-RFLP分析所得的物种数量(TRF峰)相对较多,说明T-RFLP是快速、灵敏分析空气微生物群落特征的高效手段之一。T-RFLP和克隆文库结果表明,PM2.5颗粒物中细菌和真核微型生物群落多样性较高,其中2%的细菌16S rRNA基因和42%的真核微型生物18S rRNA基因序列与已知序列的相似度低于97%。分类分析表明,Bacteroidetes、Actinobacteria、Firmicutes和Proteobacteria是PM2.5颗粒物细菌的主要类群,其相对丰度分别为2.91%、10.68%、41.75%和44.66%;Stramenopiles、Alveolata、Metazoa、Fungi和Viridiplantae是PM2.5颗粒物真核微型生物的主要类群,其相对丰度分别为5%、7%、15%、20%和39%。然而,尚有14%的真核微型生物18S rRNA基因序列未能分类到已知门类,说明气溶胶真核微型生物方面的研究尚存在较大空白。与文献对比分析表明,厦门城区空气微生物的动态性较强,环境来源多变。环境来源分析表明,厦门虽然属于典型海滨城市,但其空气微生物的重要环境源可能为淡水,其次是土壤、水体沉积物、污水系统和动物粪便等。而季节性气团输送可能是厦门冬季气溶胶微生物多来源于淡水的原因之一。
近年來由于霧霾事件頻髮,有關細顆粒物PM2.5的來源、組成及遷移轉化規律已經引起瞭人們的廣汎關註,然而對于PM2.5顆粒物中微生物的組成和來源還知之甚少。本文應用T-RFLP、剋隆文庫和測序方法研究廈門2012年鼕季PM2.5顆粒物中細菌和真覈微型生物的群落組成,併分析其潛在的來源環境。研究結果錶明:與剋隆文庫方法相比,T-RFLP分析所得的物種數量(TRF峰)相對較多,說明T-RFLP是快速、靈敏分析空氣微生物群落特徵的高效手段之一。T-RFLP和剋隆文庫結果錶明,PM2.5顆粒物中細菌和真覈微型生物群落多樣性較高,其中2%的細菌16S rRNA基因和42%的真覈微型生物18S rRNA基因序列與已知序列的相似度低于97%。分類分析錶明,Bacteroidetes、Actinobacteria、Firmicutes和Proteobacteria是PM2.5顆粒物細菌的主要類群,其相對豐度分彆為2.91%、10.68%、41.75%和44.66%;Stramenopiles、Alveolata、Metazoa、Fungi和Viridiplantae是PM2.5顆粒物真覈微型生物的主要類群,其相對豐度分彆為5%、7%、15%、20%和39%。然而,尚有14%的真覈微型生物18S rRNA基因序列未能分類到已知門類,說明氣溶膠真覈微型生物方麵的研究尚存在較大空白。與文獻對比分析錶明,廈門城區空氣微生物的動態性較彊,環境來源多變。環境來源分析錶明,廈門雖然屬于典型海濱城市,但其空氣微生物的重要環境源可能為淡水,其次是土壤、水體沉積物、汙水繫統和動物糞便等。而季節性氣糰輸送可能是廈門鼕季氣溶膠微生物多來源于淡水的原因之一。
근년래유우무매사건빈발,유관세과립물PM2.5적래원、조성급천이전화규률이경인기료인문적엄범관주,연이대우PM2.5과립물중미생물적조성화래원환지지심소。본문응용T-RFLP、극륭문고화측서방법연구하문2012년동계PM2.5과립물중세균화진핵미형생물적군락조성,병분석기잠재적래원배경。연구결과표명:여극륭문고방법상비,T-RFLP분석소득적물충수량(TRF봉)상대교다,설명T-RFLP시쾌속、령민분석공기미생물군락특정적고효수단지일。T-RFLP화극륭문고결과표명,PM2.5과립물중세균화진핵미형생물군락다양성교고,기중2%적세균16S rRNA기인화42%적진핵미형생물18S rRNA기인서렬여이지서렬적상사도저우97%。분류분석표명,Bacteroidetes、Actinobacteria、Firmicutes화Proteobacteria시PM2.5과립물세균적주요류군,기상대봉도분별위2.91%、10.68%、41.75%화44.66%;Stramenopiles、Alveolata、Metazoa、Fungi화Viridiplantae시PM2.5과립물진핵미형생물적주요류군,기상대봉도분별위5%、7%、15%、20%화39%。연이,상유14%적진핵미형생물18S rRNA기인서렬미능분류도이지문류,설명기용효진핵미형생물방면적연구상존재교대공백。여문헌대비분석표명,하문성구공기미생물적동태성교강,배경래원다변。배경래원분석표명,하문수연속우전형해빈성시,단기공기미생물적중요배경원가능위담수,기차시토양、수체침적물、오수계통화동물분편등。이계절성기단수송가능시하문동계기용효미생물다래원우담수적원인지일。
Due to recent frequent occurrence of fog and haze,the sources,components,migration and transformation of fine air particulate (PM2.5) have received increasing attention. However,little is known about microbial community associated with PM2.5. Here,we analyzed community composition and environmental sources of bacteria and eukaryotic microorganisms in PM2.5 using T-RFLP and clone library sequencing. Our results indicated that species richness of PM2.5 microbial communities assessed based on T-RFLP (i.e. TRF) were higher than those of clone libraries,implying that T-RFLP provide a sensitive and rapid approach to monitor airborne microbial community. Moreover,both of T-RFLP and clone library sequencing revealed highly diverse PM2.5 bacterial and eukaryotic microbial communities. BLAST analysis indicated that 2% of bacterial 16S rRNA gene and nearly half (42%) of eukaryotic 18S rRNA gene sequences from PM2.5 are distantly related to known sequences (<97% similarity). The results of RDP Classifier analysis indicated that PM2.5 bacterial community was mainly composed of Bacteroidetes,Actinobacteria,Firmicutes and Proteobacteria,accounting for 2.91%、10.68%、41.75%and 44.66%respectively,while PM2.5 eukaryotic microbial community were numerically dominated by Stramenopiles, Alveolata, Metazoa, Viridiplantae and Fungi, accounting for 5%、7%、15%、15%and 20%respectively. However, 39% of eukaryotic 18S rRNA gene sequences could not be assigned into any known eukaryotic phyla, suggesting that further studies are needed to shed light on eukaryotic airborne community. Taken together with the findings of a previous winter study investigating airborne microbial community in Xiamen, these results indicated that the airborne microbial community in Xiamen displays high temporal variation, and also airborne microbes may originate from various environments. Although Xiamen is a typical coastal city in China, freshwater, soils, sediments, wastewater and animal feces might be important sources of microorganisms to the atmosphere of Xiamen. Seasonal air mass transport may be an important reason that freshwater are an important source of airborne microbes of Xiamen.
