大连“7·16”溢油事故后5年间烃的降解与细菌丰度变化研究

为了解大连新港7.16溢油事故发生后5年间大连湾受污染海区生态恢复程度,同时探究大连湾表层海水和沉积物中微生物对石油污染的长期响应策略,对大连湾表层海水和沉积物中石油烃含量的分布、异养细菌和石油烃降解菌丰度的年度变化特征,以及细菌丰度与环境因子间相关性进行了研究。结果表明,溢油事故发生后2年间,大连湾表层海水中石油烃含量由溢油初期2010年9月的0.22~0.67 mg/L降到0.0025~0.05 mg/L(2012年5月),海水质量也由三类海水转变为一类海水;沿岸站位BQ012表层沉积物中石油烃含量也由2011年12月的7 133μg/g降低到2014年的926μg/g,其表层沉积物质量也由三类转变为一类沉积物质量标准。溢油后2个月内表层海水中异养细菌及石油烃降解菌丰度升高至105CFU/m L和104CFU/m L,随着时间推移各站位细菌丰度基本呈下降趋势,5年后细菌丰度回落了1~2个数量级并恢复到溢油前的历史水平。表层沉积物中石油烃降解菌丰度由溢油后2个月的105CFU/g降低到2013年的102CFU/g。石油烃降解菌与异养细菌的比值(HDB/HB)与石油烃含量呈极显著的正相关(P0.01),而与营养盐和溶解氧等主要环境因子相关性不大,因此认为其可作为海水中石油烃类污染评价的指标。     

海洋微生物对石油烃降解的研究 Ⅰ.浙江省海岛海域石油烃降解细菌的生态分布

本文报导了浙江省海岛海域中石油烃降解细菌的丰度分布及其种群组成。在整个浙江海域所布设的１０２个站位中，９６％的站位可以分离到石油烃降解细菌，其数量分布范围在３．０×１０２～１．１×１０５个／ｄｍ３；低值出现在南麂列岛附近海域；在杭州湾南部水域所布设的２６个站位中１００％的站位可以分离到石油烃降解细菌，其数量分布范围在４０×１０２～１．２×１０５个／ｄｍ３；石油烃降解细菌与异养细菌比值的高低与该海区受油类物质污染程度呈正相关关系；本海区所分离到的石油烃降解菌的优势菌为假单胞杆菌属Ｐｓｅｕｄｏｍｏｎａｓ和黄单胞菌属Ｘａｎｔｈｏｍｏｎａｓ。     

北部湾北部海域水体异养细菌的时空分布特征研究

为探讨环境因素对异养细菌丰度的影响,2016年9月至2017年8月通过月度航次调查对北部湾北部海域异养细菌丰度的时空分布特征进行了系统研究。结果表明,调查海区异养细菌丰度介于（2.75~56.86）×105 cell/mL,平均值为（11.01±6.31）×105 cell/mL。各季节细菌丰度从高至低依次为:夏季、春季、冬季、秋季。异养细菌丰度由近岸海域向西南深水区方向逐渐降低,在近岸浅水区垂直分布均匀,在水深大于20 m的海区出现季节性分层现象:表层细菌丰度较高,底层细菌丰度较低。主成分分析显示温度对异养细菌时空分布有重要影响,秋、冬季异养细菌丰度与温度呈显著负相关,在春、夏季呈显著正相关。细菌丰度与盐度呈显著负相关,说明海水盐度变化是细菌时空分布重要影响因素。异养细菌丰度与叶绿素a和溶解氧含量呈显著正相关,表明浮游植物初级生产过程影响了异养细菌的时空分布。在秋、冬和春3季异养细菌丰度与营养盐水平呈显著负相关,二者关系受浮游植物生物量间接影响。异养细菌时空分布差异取决于环境条件的变化,温度、盐度、叶绿素a和溶解氧含量是影响异养细菌丰度分布的主要因素。     

胶州湾异养细菌及大肠菌群的分布及对陆源污染的指示

2002年2月—2004年11月对胶州湾异养细菌和大肠菌群进行长期调查发现,胶州湾异养细菌丰度在105—106cells/ml之间,其中河口区域和近岸区域数量较高,其它区域相对较低。从季节上来看,夏季、秋季细菌丰度较高(分别为7.4×105、7.2×105cells/ml),冬季和春季丰度较低(分别为4.1×105cells/ml、5.9×105cells/ml),且在一年内呈现出一定的规律性波动。从季节尺度上看异养细菌丰度与温度呈现很好的正相关性(R=0.54)。对大肠菌群的研究表明,河口区域的大肠菌群数量显著高于其它区域,并且河口区域大肠菌群常年处于严重超标状态(最高为1.1×106cells/L,超过国家前三类水质标准的100倍)。根据大肠菌群的数量状况可以将胶州湾分为三个区域,即严重污染区、中度污染区和轻度污染区。该区域划分与通过营养盐对胶州湾区域的划分(富营养区、中度营养区、贫营养区)结果一致。     

胶州湾水域异养细菌、大肠菌群和石油降解菌的生态分布

通过对1991～1998年的胶州湾10个常规监测站的有关微生物方面的分析研究,发现胶州湾水域中异养细菌、大肠菌群、石油降解菌的数量普遍较高,三者在表层水体中的最高值分别达1．1×106,4.6×104,4.6×102个／ml;异养细菌和大肠菌群的数量在胶州湾沿岸区域数量最高,湾心、湾口、湾外数量减少;大肠菌群和异养细菌的数量随季节变化明显,夏天数量多,冬天数量少,春、秋数量居中,与水温有着紧密的关系;石油降解菌的数量一年四季变化不大;异养细菌和大肠菌群之间存在着相关关系,且二者的数量与水域中的溶解有机碳、无机氮、无机磷等营养盐的含量有着一定的关系。     

海洋微生物对石油烃降解的研究：Ⅰ.浙江省海岛海域石油烃降解细菌的…

本文报导了浙江省海岛海域中石油烃降解细菌的丰度分布及其种群组成。在整个浙江海域所布设的１０２个站位中，９６％的站位可以分离到石油烃降解细菌、其数量分布范围在３．０×１０＾２－１．１×１０＾５个／ｄｍ＾３，低值出现在南麂列岛附近海域；在杭州湾南部水域所布设的２６个站位中１００％的站位可以分离到石油烃降解细菌，其数量分布范围在４０×１０＾２－１．２×１０＾５个／ｄｍ＾３；石油烃降解到石油烃降解细菌其数     

褐藻酸降解菌在海带(Laminaria japonica)幼苗藻体表面数量分布特点及其对海带回染的初步研究

在威海泊于、崮山及荣成 3家海带育苗场 ,采用回染实验方法对采集的海带藻体表面褐藻酸降解菌数量分布及特点进行了初步研究。结果表明 ,采自荣成的病烂海带幼苗上 ,其总异养细菌数量 ( 1 2 2× 1 0 8cfu/g)比威海两家育苗场的正常海带幼苗上总异养细菌数量 (崮山 :1 1 5× 1 0 6cfu/g及泊于 :1 1 1× 1 0 6cfu/g)高 1 0 0多倍 ,其褐藻酸降解菌的数量 ( 4 88× 1 0 7cfu/g)比后两家 (崮山 :8 0× 1 0 4 cfu/g及泊于 :4 3× 1 0 5cfu/g)的高 1 0 0— 5 0 0倍。与正常海带幼苗相比 ,烂苗脱落后的总异养细菌数量较高 ( 2 42× 1 0 7∶1 1 1× 1 0 6) ,而褐藻酸降解菌的数量相对更高 ( 1 5 0× 1 0 7∶4 3× 1 0 5) ;其中 ,脱落烂苗上的褐藻酸降解菌数量约占其总异养细菌数量的61 98%。将分离、纯化的部分褐藻酸降解菌对海带孢子体组织块进行回染实验 ,能引起海带组织产生绿烂现象 ,证明褐藻酸降解菌是海带烂苗的条件致病菌。     

东海、黄海浮游病毒及异养细菌的分布研究

采用流式细胞仪对2009年春季东海、黄海浮游病毒和异养细菌的丰度进行了大尺度(119.5°—129°E, 25°—39°N)研究, 并分析了浮游病毒丰度、异养细菌丰度以及其与环境因子之间的相关性。结果表明, 研究海域浮游病毒、异养细菌的丰度范围分别为3.38×105—2.26×107个/mL(平均6.24×106个/mL)、5.83×103—1.23×106个/mL(平均1.22×105个/mL)。在水平分布上, 浮游病毒与异养细菌的变化趋势基本一致, 且均在山东半岛周边养殖海域、浙江东南沿海养殖区及舟山渔场北部形成明显的高值区; 黄海浮游病毒与异养细菌的丰度平均值均高于东海。在垂直分布上, 东海浮游病毒与异养细菌丰度值随水深呈明显下降趋势, 表层丰度值与30m以下各层差异显著(P<0.05); 在黄海, 二者丰度随水深降低趋势不明显。Pearson相关性分析显示: 调查海域浮游病毒丰度与异养细菌丰度显著正相关(r =0.288, P<0.01), 浮游病毒丰度与温度显著负相关(r = -0.243, P<0.05), 异养细菌丰度与盐度显著负相关(r = -0.245, P<0.05)。     

连云港邻近海域网采浮游植物分布特征及其影响因素

根据2014年8月(夏季)、2014年11月(秋季)、2015年1月(冬季)和2015年5月(春季)对连云港邻近海域的网采浮游植物的调查,共鉴定出浮游植物8门68属155种(含变种、变型),主要由硅藻(115种)和甲藻(30种)组成.冬季细胞丰度(230.13×10~4cells/m~3)显著高于春(24.67×10~4cells/m~3)、夏(119.78×104cells/m~3)、秋(90.25×10~4cells/m~3)三季,优势种主要有密连角毛藻(Chaetoceros densus)、中肋骨条藻(Skeletonema costatum)、三叶原甲藻(Prorocentrum triestinum)、卡氏角毛藻(Chaetoceros castracanei)和微小细柱藻(Leptocylindrus minimus)等.浮游植物群落参数(种类数、细胞丰度、Shannon-Wiener多样性、Margalef丰富度、Pielou均匀度等指数)和环境因子(温度、盐度、p H值、DO、COD和营养盐)均存在季节显著差异.聚类、多维尺度和相似性分析结果也表明,浮游植物群落组成季节差异显著.冗余分析表明,浮游植物群落的主要影响因子为营养盐、悬浮物、盐度和COD.结合历史数据分析表明,浮游植物优势种由硅藻占主要优势演替为硅藻和甲藻联合占优势.营养盐结构已有较大变化:硝酸盐浓度急剧升高,由20世纪80年代的1.30μmol/dm~3升至2014~2015年的24.58μmol/dm~3;磷酸盐浓度也由20世纪80年代的0.19μmol/dm~3升至2014~2015年的0.48μmol/dm~3;N/P由8.3升高至91.9.     

南海油田烃类氧化菌生态分布初步研究

报道了冬季南海珠江口盆地4大油田(陆丰13-1油田、流花11-1油田、CACT惠州油田和西江30-2/24-3油田)烃类氧化菌的分布和变化状况。在所有站位都检出烃类氧化菌,数量介于3.00×104～2.05×105个/L。各油田平台附近的测值高;表层的测值高于10m层。烃类氧化菌的数量与水域中的营养盐含量及其它水质因子有一定的关系。     

石油烃降解细菌对正烷烃的降解作用研究

报道使用气相色谱法测定了石油烃降解 细菌对柴油的正烷烃的降解作用。结果表明,石油烃降解细菌对正烷烃有明显的降解作用, 混合菌株的降解率明显高于单菌株的降解率;在20℃的条件下,经过21d后,绝大部分的正 烷烃被降解。总的降解率为94.93%, 其中细菌的降解率为75.67%, 理化因子降解率为19.26% ;温度对正烷烃的降解率有明显的影响,在10℃时,其降解速度较慢,20℃降解加快,35℃ 温度使正烷烃的降解速度最快。     

Bacterial communities fluctuate in abundance and diversity under simulated oil-contaminated seawater conditions

Marine bacteria have recently been identified as a potent solution for petroleum hydrocarbon degradation in response to hazardous oceanic oil spills. In this study, a mesocosm experiment simulating a petroleum spill event was performed to investigate changes in the abundance, structure, and productivity of bacterial communities in response to oil pollution. Cultured heterotrophic bacteria and total bacteria showed a consistent trend involving an immediate decrease in abundance, followed by a slight increase, and a steady low-level thereafter. However, the changing trend of bacterial productivity based on bacterial biomass and bacterial volume showed the opposite trend. In addition, the density of oil-degrading bacteria increased initially, then subsequently declined. The change in the bacterial community structure at day 0 and day 28 were also analyzed by amplified ribosomal DNA restriction analysis (ARDRA), which indicated that the species diversity of the bacterial community changed greatly after oil pollution. Alphaproteobacteria (40.98%) replaced Epsilonproteobacteria (51.10%) as the most abundant class, and Gammaproteobacteria (38.80%) became the second most dominant class in the whole bacterial community. The bacterial communities in oil-contaminated seawater (32 genera) became much more complex than those found in the natural seawater sample (16 genera). The proportion of petroleum-degrading bacteria in the oil-contaminated seawater also increased. In this study, culture-dependent and culture-independent approaches were combined to elucidate changes in both bacterial productivity and community structure. These findings will contribute to a better understanding of the role that bacteria play in material cycling and degradation in response to oil pollution.     

Seasonal variations in abundance,growth and mortality of heterotrophic bacteria in Kagoshima Bay

Seasonal changes in abundance, growth and mortality of heterotrophic bacteria were investigated monthly from collections and dilution experiments in Kagoshima Bay, the southernmost of Japan. Bacteria occurred abundantly with considerable variation in the surface layers where chlorophyll a concentrations were high, whereas seasonal variations were obscure below 100 m. Especially, bacteria showed a decline of cell density toward summer when heterotrophic nano-flagellates increased their abundance. Seasonal and vertical variations in bacterial cell number during the study period were positively correlated with those of water temperature and pico-sized chlorophyll a concentration. Maximum growth and mortality rates showed positive correlations with water temperature but no positive relationships to size-fractionated chlorophyll a. Net increase rate (i.e. in situ rate if abundance changes) was negatively correlated with cell density of heterotrophic nano-flagellates. It is concluded that bacterial abundance is controlled by the resultant (i.e. net growth rate) of the balance between maximum growth and predatory mortality by heterotrophic nano-flagelllates which are both dependent on ambient temperature.     

Ecological characteristics of the abundance and distribution of bacteria in the waters nearby the front of the Hangzhou Bay

- Abundance of total bacteria, heterotrophic bacteria, coliform and oil degradable bacteria and their relations with salinity and suspended matter in the frontal waters in the Hangzhou Bay are described. The results obtained show that the highest abundances of total bacteria , heterotrophic bacteria are encountered around the front and near the northern shore of the Hangzhou Bay, where a positive correlation ( r =0. 70) between the total bacteria abundance and the total suspended matter (TSM) is persent. Moreover,the abundance of oil degradable bacteria being an indicator of oil pollution, is also high in that region.     

温度对微型鞭毛虫摄食细菌的影响

为研究温度对微型鞭毛虫（Nanoflagellates,NF）摄食细菌的影响,于广西近岸海区采集NF自然群落,置于实验室不同温度下（14℃、22℃、28℃）培养9天,观察细菌和NF的丰度变化。并以荧光细菌标记法研究不同温度下异养微型鞭毛虫（Hetertrophic Nanoflagellates,HNF）和含色素微型鞭毛虫（Pigmented Nanoflagellates,PNF）对细菌的摄食率,计算不同类型NF的群落摄食率。此外,研究还比较了不同粒径PNF （<3 μm和3~10 μm）对细菌的摄食。结果表明,不同类型的NF对细菌的摄食率由大到小为:3~10 μm PNF、HNF、小于3 μm PNF。较之PNF,HNF的摄食受温度影响较小。PNF的摄食率在22℃最大。而且,不同大小PNF的摄食对温度的响应有所不同。升温可以提高3~10 μm PNF的摄食率,但会抑制小于3 μm PNF的摄食。而降温抑制3~10 μm PNF的摄食,但降温对小于3 μm PNF摄食的抑制作用比升温小。但无论是3~10 μm PNF还是小于3 μm PNF,升温均会降低其丰度。而由于丰度减小对群落摄食率的影响更大,因此,升温降低PNF的群落摄食率。     

三门湾微型浮游生物丰度的时空变化特征

粒径小于20 μm的微型浮游生物能迅速响应海洋环境变化,因而在海洋环境监测中起着重要作用。本文应用流式细胞技术研究了三门湾表层与底层海水中微型浮游生物（包括细菌、聚球藻、微型真核生物以及病毒）丰度的时空分布特征,探讨了微型浮游生物丰度与水体理化因子之间的关系。结果表明,三门湾海域微型浮游生物丰度范围:细菌,6.98×105~9.84×106 cells/mL;聚球藻,1.10×103~3.71×104 cells/mL;微型真核生物,1.04×103~3.75×104 cells/mL;病毒,1.01×106~3.47×107 mL-1。夏、秋两季表层微型浮游生物丰度均高于底层;秋季细菌、聚球藻和病毒丰度低于夏季,但微型真核生物丰度高于夏季;温度是造成微型浮游生物丰度季节差异的主要因素。微型浮游生物丰度的水平分布在夏季无显著规律,但秋季表底层均由内湾向外湾递减。秋季,除底层的细菌外,微型浮游生物丰度水平分布与pH和盐度呈显著负相关,同时与亚硝氮、硝氮、铵氮、叶绿素a呈显著正相关。     

The role of water mass dynamics in controlling bacterial abundance and production in the middle Adriatic Sea

Month-to-month fluctuations in the abundance of bacteria and heterotrophic nanoflagellates (HNF) and bacterial production, as well as various chemical (nutrients, oxygen) and physical (salinity, temperature) parameters were analysed at a station located in the open middle Adriatic Sea during one decade (1997-2006). Being influenced by both coastal waters and open Adriatic circulation in the surface layer, and by the deep Adriatic water masses in the deep layers (100 m), this station is quite suitable for detecting the environmental changes occurring in the open Adriatic Sea with respect to the circulation of its water masses and their long-term changes and anomalies. Multivariate methods were used to identify seasonal and inter-annual changes of the investigated parameters, associating observed changes to the changes in Adriatic water masses and circulation regimes. The analyses showed that bacterial abundance and production were controlled by different water mass dynamics during 1997-2001 compared to 2002-2006 period, particularly noticeable in different seasonal patterns of biological parameters. The interplay between North Adriatic Dense Water (NAdDW) and Levantine Intermediate Water (LIW) resulted in a change in the available nutrients (NAdDW is poor in orthophosphates), and as a consequence different bacterial abundance and production. A few periods were examined in detail, such as 2004, when LIW inflow was particularly strong and was accompanied by an increase of bacterial and HNF abundances, as well as of bacterial production.     

2001—2002年粤东柘林湾浮游动物的生态学研究

2001年4月-2002年4月,利用生态学方法对粤东柘林湾浮游动物进行的周年调查结果表明,粤东柘林湾浮游动物有桡足类34属60种,枝角类3属3种,及端足类、磷虾、糠虾、多毛类、毛颚类、被囊类、水母和各种浮游幼体虫.浮游动物的群落构成小型化趋势明显,因为体长不足0.6 mm的小型优势种强额拟哲水蚤(Paracalanus crassirostris)、短角长腹剑水蚤(Oithona brevicornis)和鸟喙尖头(氵蚤)(Penilia avirostris)在浮游动物总个体数中所占比例合计高达57.1 %.浮游动物的种类数、总个体数和生物量的平面分布模式大体相似,即湾外大于湾内,外侧大于内侧,东部大于西部.总个体数与生物量的周年变化曲线与水温的变化趋势非常相似,高峰位于高温季节的8-9月,低谷位于冬季2月.调查期间柘林湾浮游动物非常丰富,年均总个体数达15.8×103 ind/m3,生物量达227.8mg*dW/m3.在单一调查年度内,浮游动物丰度与水温、浮游植物细胞数呈显著正相关关系.在不同年份,浮游动物丰度与浮游植物密度则表现为负相关的趋势.     

黄海冷水团海域微型异养鞭毛虫与细菌的弱耦合关系

A study was carried out to investigate the grazing pressure of heterotrophic nanoflagellates(HNF) on bacteria assemblages in the Yellow Sea Cold Water Mass(YSCWM) area in October, 2006. The results show that the HNF abundance ranges from 303 to 1 388 mL-1, with a mean of 884 mL-1. The HNF biomass is equivalent to 10.6%–115.6% of that of the bacteria. The maximum abundance of the HNF generally occurred in the upper 30 m water layer, with a vertical distribution pattern of surface layer abundance greater than middle layer abundance, then bottom layer abundance. The hydrological data show that the YSCWM is located in the northeastern part of the study area, typically 40 m beneath the surface. A weak correlation is found between the abundances of HNF and bacteria in both the YSCWM and its above water layer. One-way ANOVA analysis reveals that the abundance of HNF and bacteria differs between inside the YSCWM and in the above water mass. The ingestion rates of the HNF on bacteria was 8.02±3.43 h-1 in average. The grazing rate only represented 22.75%±6.91% of bacterial biomass or 6.55%+4.24% of bacterial production, implying that the HNF grazing was not the major factor contributing to the bacterial loss in the YSCWM areas.