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1.
《海洋科学集刊》2017,(0)
本文通过传统微生物分离培养方法从富营养化环境中分离培养出可高效处理多种底物的污水并具备胞外电子传递能力和产电潜力的兼性厌氧光合细菌。在光照培养条件下,利用改良的能够将光合细菌富集/分离的培养基分离培养光合细菌,从形态学和16S rDNA的分子生物学角度鉴定菌株。运用多个指标检测光合细菌处理不同底物的污水培养基的能力,如化学需氧量(chemical oxygen demand,COD)、总氮(total nitrogen,TN)、总磷(total phosphate,TP),并在电化学工作站检测光合细菌的产电能力。结果表明,获取的光合细菌菌株DH-3与光合细菌类球红细菌(Rhodobacter sphaeroides)有97%的相似性。该菌株拥有在多种底物的污水培养基中生长的能力,其中在以乙酸为底物的培养基中生长最好。通过检测发现该菌株对污水的COD、TN和TP均具有较高的去除率。电化学工作站检测结果表明,菌株DH-3的最大产电流量能达到7.5m A/m~2,最大功率密度达到0.056W/m~2。由此可见,光合细菌DH-3在污水处理及资源再循环利用等方面具有十分重要的应用潜力。 相似文献
2.
对一株分泌热稳定κ-卡拉胶酶印尼热泉菌进行了种属鉴定, 并采用响应面法对该菌发酵产酶条件进行了优化。鉴定结果表明, 该菌株属于芽孢杆菌属(Bacillus), 命名为Bacillus sp. Car19(GeneBank: KT865196)。发酵条件优化结果显示, 9个环境因子影响Bacillus sp. Car19产酶量。其中影响Bacillus sp. Car19产酶量的三个主要因素分别为培养温度、培养基中Cu2+浓度和培养基中NaCl浓度。综合次要因素对Bacillus sp. Car19产酶影响, Bacillus sp. Car19最佳产酶发酵条件为: 培养温度52.31℃、Cu2+浓度6.93 mmol/L、NaCl浓度37.03 g/L, 培养基pH为6, 接种量1%, 培养时间36h, 半乳糖浓度0.3 g/L,硝酸铵浓度7g/L, 卡拉胶浓度0.5g/L。优化后发酵上清液酶活力达到15.21 U/mL, 与优化前相比提高了1.5 倍。 相似文献
3.
《应用海洋学学报》2015,(3)
为获得深海可培养微生物资源,利用2216E培养基,采用涂布平板法从南大西洋热液区沉积物中分离可培养细菌,并通过16S rRNA基因进行分类鉴定.同时测定各菌株产淀粉酶、蛋白酶、果胶酶、木聚糖酶、褐藻酸酶和脂肪酶(三丁酸甘油酯和吐温80)的能力.分离共获得216株菌株,经16S rRNA基因序列比对,共获得71株不同的菌株.其中包括变形菌纲62株、放线菌纲3株、芽孢杆菌纲2株和拟杆菌纲4株,分布于27个属,41个种.酶活检测结果显示,具有淀粉酶、蛋白酶、脂肪酶(底物为三丁酸甘油酯)和脂肪酶(底物为吐温80)的产酶细菌分别为18、14、25、32株,供测细菌中未检出产果胶酶、木聚糖酶和褐藻酸酶的菌株.这些菌株为进一步研究开发提供了深海微生物资源. 相似文献
4.
河口富营养化与流域氮、磷营养物的输入直接相关,制定河口营养物基准,可用于控制河口及其近岸海域富营养化,为环境管理的科学决策提供依据。大辽河是渤海最大的入海河流之一,河口污染较为严重;本文采用频数分布法、非参数分析法和实验室模拟压力响应关系法探讨大辽河口及近岸海域营养物基准的推导,最终得到大辽河口总氮(TN)、总磷(TP)及叶绿素a(Chl-a)推荐基准值分别为1.008 mg/L,0.067 mg/L和1.175 mg/m3,以期为大辽河口及其近岸海域富营养化评估和营养物标准制定提供科学依据。 相似文献
5.
海洋来源的菌株在高盐污水类修复处理中有重要的应用前景,而烃类物质是污水中的重要组成部分,其中含有多个苯环的芳香烃族化合物,对人类和环境具有较大的毒性,而目前关于多环芳烃(PAHs)厌氧代谢的相关报道相对较少。本研究以PAHs(萘、菲和芘等)为唯一碳源和能源,通过厌氧富集对太平洋深海沉积物中的PAHs降解菌展开研究。富集物细菌菌群分析结果表明,盐单胞菌属(Halomonas)、海旋菌属(Thalassospira)、海杆菌属(Marinobacter)、海洋杆菌属(Oceanobacter)和食烷菌属(Alcanivorax)等是主要的功能类群;其中盐单胞菌属是最主要的功能类群。通过筛选分离获得一高效烃降解盐单胞菌株,鉴定并命名为泰坦尼克盐单胞菌(Halomonas titanicae) PA16-9,该菌与模式菌株Halomonas titanicae BH1T的16S rRNA相似性为99.52%。基于16S rRNA基因序列比对搜寻NCBI数据库,发现Halomonas titanicae广泛存在于废水、活性污泥、油田、湿地等有机质复杂区域,生态位分布极广,可利用丰富多样的底物。通过生长实验表明,菌株PA16-9能在厌氧条件下以硝酸盐为主要电子受体,利用芘、苯并芘和十六烷等烃类物质为唯一碳源进行生长,在培养45 d后芘的降解率达到61.9%,期间亚硝酸盐逐渐积累,浓度达到约0.24 mmol/L。盐单胞菌广泛存在于厌氧烃降解富集菌群中,暗示了盐单胞菌属在厌氧烃代谢中可能发挥了重要作用,在实际应用上具有很大潜力。 相似文献
6.
基于2014—2020年茅岭江入海口断面径流量及化学需氧量(COD)、总氮(TN)和总磷(TP)数据,通过LOADEST模型优化计算了COD、TN和TP的入海通量。结果表明:(1)LOADEST模型建立的茅岭江COD、TN和TP的入海通量回归方程,模拟计算的入海通量与实测值具有很好的一致性。(2)模拟计算的COD、TN和TP多年平均入海通量分别为34 537 t/a、3 302 t/a和235 t/a,月平均入海通量分别为2 878 t/月、275 t/月和19.58 t/月;雨季COD、TN和TP的入海通量分别占年入海通量的77%、80%和71%;COD、TN和TP的年入海通量中分别有21 059~25 271 t/a、1 775~2 130 t/a和70~84 t/a来自于非点源,COD和TN主要受非点源控制,TP不仅受非点源控制,也受点源控制。(3)对比分析钦江和茅岭江COD、TN和TP的多年平均入海通量可知,钦江COD、TN和TP的多年平均入海通量分别约为茅岭江的1.16、2.15和2.37倍,入海通量不同主要受沿岸居住的人口数量影响。 相似文献
7.
黄杆菌种类多、分布广,但从深海海山环境中发现黄杆菌新物种的报道还没有。2017年我们从西太平洋卡罗琳深海海山水域分离到一株细菌XN-5T,经16S rRNA基因序列测定表明,该菌与黄杆菌属(Flavobacterium)内系统发育关系最近模式菌株F.degerlachei LMG 21915T、F.frigoris LMG 21922T之间的相似性分别为97.5%和97.8%。本研究采用形态学观察、生理生化特征、遗传特征、脂肪酸和极性脂测定等方法,对该菌株进行了详细的多相分类鉴定。结果表明,XN-5T菌株在16S rRNA基因系统发育、生长温度、淀粉、酪蛋白水解、硝酸盐还原,产α-半乳糖苷酶、α-葡萄糖苷酶、β-葡萄糖苷酶,同化L-阿拉伯糖、D-甘露醇、N-乙酰-氨基葡萄糖、葡萄糖酸钾,发酵蔗糖、阿拉伯糖,以及脂肪酸、极性脂组成等方面,均与相近模式菌株有所差异。综合多相分类鉴定数据,我们判定XN-5T菌株为Flavobacterium属内的一个新种,命名为Flavobacterium pacifica sp. nov。 相似文献
8.
好氧不产氧光合(AAP)细菌因其具有利用溶解性有机物及光能的能力,在海洋碳循环及能量流动中发挥着重要的作用。该类细菌广泛分布在海洋环境中,其在不同生境中的多样性已被调查。但到目前为止,人们对于高纬度地区好氧不产氧光合细菌的认识还较为缺乏。有鉴于此,本研究基于编码光反应复合物上一个色素结合蛋白亚基的pufM基因,对北极王湾及南极乔治王岛近岸水体中夏季好氧不产氧光合细菌的多样性进行了检测。针对2个王湾站位和2个南极麦克斯维尔湾站位构建了4个pufM基因克隆文库,获得674个阳性克隆子。北极克隆子全部由α-变形细菌组成,而南极克隆子则包括α-变形细菌及β-变形细菌。来源于类似红细菌科的pufM基因在所有样品中皆占据优势。此外,与一株滴状亚硫酸盐杆菌中质粒编码的pufM基因存在亲缘关系的序列,在南、北极样品中均占优势。结果表明海洋环境中的pufM基因存在跨极甚至是环球分布。与此同时,南、北极序列之间的差异,也表明了极地地方种的存在。这些结果显示,作为好氧不产氧光合细菌的红细菌科在两极的近岸水体中具有重要的地位。 相似文献
9.
威海荣成桑沟湾海域海草床分布现状及其生态特征 总被引:1,自引:0,他引:1
海草床是生物圈最高产的生态系统之一,在氮捕获、碳封存、水质净化及维持生物多样性等方面发挥关键作用。2016年8月通过对威海荣成桑沟湾海域的现场调查,发现分布总面积约为471.72 ha的海草床,种类为鳗草(Zostera marina)、红纤维虾形草(Phyllospadix iwatensis)、日本鳗草(Zostera japonica)和丛生鳗草(Zostera caespitosa),分布面积分别为395.33 ha、37.28 ha、32.74 ha和6.37 ha。鳗草分布范围较广,平均茎枝密度817.0±27.6 shoots/m2,平均生物量646.6±41.8 g DW/m2;红纤维虾形草主要分布于桑沟湾北部养殖池和南部楮岛海域,平均茎枝密度2 649.0±29.8 shoots/m2,平均生物量2 381.3±27.3 g DW/m2;日本鳗草主要分布于桑沟湾西部八亩地海域,平均茎枝密度506.0±26.2 shoots/m2,平均生物量118.3±12.5 g DW/m2;丛生鳗草主要分布于桑沟湾南部楮岛海域,其平均密度为513.0±17.9 shoots/m2,平均生物量为479.1±28.1 g DW/m2。结合历史资料,发现桑沟湾海域海草床严重退化,分析了海草床的退化原因并提出了相应的建议和对策,以期为海草资源及滨海生境修复提供参考。 相似文献
10.
密度胁迫对日本囊对虾生长和水环境的影响 总被引:2,自引:0,他引:2
为了探讨密度胁迫对日本囊对虾(Marsupenaeus japonicus)生长、存活及水质因子的影响, 作者设置了100尾/m2(DD)、200 尾/m2(GD)、400 尾/m2(GZ)、600 尾/m2(GG)4个养殖密度, 分析了不同养殖密度下日本囊对虾的生长量、存活率、肥满度及水质因子的差异。结果表明, 实验所监测的水质因子均在对虾生长的安全阈值内, 氨态氮、亚硝态氮、总氮和总磷含量表现出随养殖密度增加逐渐升高的趋势; 体长和体质量增长量、存活率与养殖密度呈负相关, 其中存活率处理间均达到极显著水平(P< 0.01), 且当养殖密度高于200尾/m2时存活率迅速降低; 低养殖密度(DD)处理的对虾肥满度与其他处理间差异均达到显著水平(P< 0.01)。因此, 在相似养殖条件下, 日本囊对虾的适宜养殖密度应该不高于200尾/m2。本实验过程中, 各处理间水质因子均在对虾生长的适宜范围内, 说明水质不是造成对虾死亡的主要原因。所以, 推测密度胁迫可能是造成日本囊对虾存活率低的主要原因。 相似文献
11.
以天然海泥(BMFC-0)、外添加葡萄糖的海泥(BMFC-1)和外添加丹皮酚的海泥(BMFC-2)作为底物构建海底沉积物微生物燃料电池(BMFCs),研究外源添加物对BMFCs电池性能及电极性能的影响。结果表明,丹皮酚对海泥中微生物具有明显抑制作用,葡萄糖提高海泥中微生物的产电性能。通路状态下,BMFC-1的阳极电位低于BMFC-0,BMFC-2的阳极电位高于BMFC-0。电化学研究结果表明,BMFC-1阳极生物膜中产电菌电化学活性高于BMFC-0,而BMFC-2产电菌的电化学活性受到抑制;BMFC-1和BMFC-2的阳极相对动力学活性分别是BMFC-0的1.91倍和0.67倍。BMFC-1的平均输出功率密度为7.294m W/m2,分别是BMFC-0(0.875m W/m2)和BMFC-2(0.106m W/m2)的8.3和68.8倍。根据添加物对阳极表面生物膜电容特性影响的分析,提出阳极表面电容性质对电极及电池性能影响的独特机理。 相似文献
12.
Properties of the light saturation curve of photosynthesis and ribulose-1,5-bisphosphate carboxylase (RuBPC) activity are shown to change qualitatively in a natural population of marine phytoplankton during a spring bloom. Evidence is presented to show that these changes constitute photoadapative responses to increasing irradiance. As irradiance increased during the bloom, both the level of light-saturated photosynthesis (Pm) and the initial slope of the light saturation curve (α = photosynthetic efficiency) increased whether those parameters were normalized to chlorophyll a concentration (Pmb, αb) or to cell numbers (Pmc, αc). The magnitudes of these changes were such that Ik (= Pm/α, the photoadaptation parameter) did not change, but Im, the light intensity at which photosynthesis becomes saturated, increased. RuBPC activity, both chlorophyll a (RuBPCb) and cell number normalized (RuBPCc), also increased during the bloom. We suggest that these adaptations were achieved by simultaneously increasing the number of photosynthetic units, proportionately decreasing the photosynthetic unit size, and increasing both the concentrations of the enzymes of the dark reactions and possibly also of photosynthetic electron transport components.We also observed diminished levels of photoinhibition in the high light adapted cells late in the bloom and have suggested that this was a consequence of the same suite of physiological changes.In situ carbon fixation per cell increased during the bloom whereas no change occurred in this parameter when normalized to chlorophyll a concentration. Although these photoadaptive responses thus permitted carbon to be fixed in situ more rapidly per cell, at a constant efficiency with respect to investment of energy in the photosynthetic apparatus, they did not result in a change in growth rate. Based on consideratios of the role of time scale in physiological adaptation, however, it is suggested that the observed alterations in photosynthesis with increasing irradiance might permit a cell to more rapidly fill an energy quota for division, possibly an advantage in a mixing environment in which energy is patchily distributed, both spatially and temporalyy.Phosphoenolpyruvate carboxylase activity when normalized to chlorophyll a (PEPCb) did not change during the bloom while chlorophyll a normalized dark carbon fixation decreased sharply and was quantitatively small compared to PEPCb. On this basis and considering that RuBPCb increased during the bloom, it is suggested that, although PEPC may be involved in dark carbon fixation, its most important quantitative role is probably an indirect one in light dependent photosynthesis.We have also considered the relevance of laboratory results on photoadaptation to interpretations of field studies and have suggested that batch culture studies must be treated with caution but that turbidistat and semi-continuous methods provide reasonable simulations of natural conditions. 相似文献
13.
Mangroves are coastal ecosystems, found in tropical and subtropical regions around the world. They are found in the transitional zones between land, sea, and rivers. Petroleum hydrocarbons are the most common environmental pollutants, and oil spills pose a great hazard to mangroves forests. This research was focused on the isolation and characterization of crude oil‐degrading bacteria from mangrove ecosystems at the Persian Gulf. Sixty‐one crude oil‐degrading bacteria were isolated from mangrove samples (plant, sediment, and seawater) that enriched in ONR7a medium with crude oil as only carbon source. Some screening tests such as growth at high concentration of crude oil, bioemulsifier production, and surface hydrophobicity were done to select the most efficient strains for crude oil degradation. Molecular identification of strains was carried out by amplification of the 16S rRNA gene by PCR. The results of this study were indicated that the quantity of crude oil‐degrading bacteria was higher in the root of mangrove plants compare to other mangrove samples (sediment and seawater). Also, identification results confirmed that these isolated strains belong to Vibrio sp. strain NW4, Idiomarina sp. strain BW32, Kangiella sp. strain DP40, Marinobacter sp. strain DW44, Halomonas sp. strain BS53, and Vibrio sp. strain DS35. The application of bioremediation strategies with these bacteria can reduce crude oil pollution in this important marine environment. 相似文献
14.
Parke A. Rublee 《Estuarine, Coastal and Shelf Science》1982,15(1):67-74
The number and size of bacteria at four depths (0–1, 5–6, 10–11 and 20–21 cm) in a North Carolina salt marsh were minotored by direct counts for 13 months. The number of bacteria reached a maximum of about 1·4 × 1010 cells cm?3 at the sediment surface in October, corresponding to the period of Spartina alterniflora die-back. Cell numbers were lowest and most consistent throughout the year at the 20 cm depth of sediment. Cell volumes averaged 0·2 μm3 at the marsh surface and decreased with depth. Mean standing crop of bacteria to a depth of 20 cm of sediment was about 14 g bacterial carbon m?2. In surface sediments bacteria contribute up to 15% and algae up to 10% of total living microbial biomass as estimated by adenosine triphosphate (ATP). Bacteria were the major biomass component at sediment depths of 5, 10 and 20 cm. At all depths the microbial community contributes < 4% total organic carbon and < 8% of total nitrogen. 相似文献
15.
将抗高致病性副溶血弧菌(Vibrioparahaemolyticus)特异性卵黄抗体(AHPND-VpIgY)应用于育苗生产,通过测定氨氮、亚硝酸盐、细菌总数、弧菌总数、相对保护率和育苗成活率,评价了AHPND-VpIgY在育苗期对凡纳滨对虾(Litopenaeusvannamei)幼体的保护效果。结果表明,0.1g/m3和0.2g/m3AHPND-VpIgY组的相对保护率为35.7%和57.2%,两者均显著高于非特异性卵黄抗体组(P0.05);两组的育苗成活率为50.8%和57.2%,比对照组分别提高19.1%和25.6%。各实验组氨氮、亚硝酸盐、细菌总数及弧菌总数与对照组无显著差异,对水质无影响。综上,特异性的AHPND-VpIgY能在不改变水质的前提下,有效提高凡纳滨对虾幼体的存活率、相对保护率和育苗成活率,从而提高凡纳滨对虾苗种产量和质量。 相似文献
16.
The plate culture method using the two formulae for non-nitrogenous media was adopted in this investigation for the purpose
of counting and isolating nitrogen-fixing bacteria distributed in the open sea.
Sea water samples were collected at eighteen different stations in the region of Lat. 50°N–15°S along Long. 155°W and two
other stations in the Pacific Ocean. In order to compare with those samples from the open sea, water samples were also obtained
at four stations in Suruga and Sagami Bays.
Nitrogen-fixing bacteria appear to be widely but very unevenly distributed at all depths in sea water, in numbers approximately
ranging from nil to 104 per 100 ml of sea water, and denser vertical populations have been found in the area of Lat. 40°N and 5°N along Long. 155°W, even at
depths from 2,000 to 3,000m. A conparatively denser population of bacteria was found in sea water from Suruga Bay and Sagami
Bay.
The bacteria associated with plankton were abundantly demonstrated, in numbers ranging from 106 to 108 per 1 ml settling volume of plankton, in many plankton samples collected at four stations in the southern parts of the Pacific Ocean.
Almost all the bacteria isolated from the samples of blue green algal colonies,Trichodesmium, sp., were able to grow on nonnitrogeneous media. 相似文献
17.
Akihiko Murakami Tokio Matsuda Nobuhiro Watanabe Shinichi Nagasawa 《Journal of Oceanography》1976,32(5):242-248
The ability to degraden-paraffin mixture of two bacterial strains,Caulobacter sp. andFlavobacterium sp., isolated from sea water of Tokyo Bay was studied experimentally in the enriched seawater (ESW) medium. These bacteria degraded actively the mixture ofn-tridecane,n-tetradecane,n-pentadecane andn-hexadecane. The maximum rate of degradation was observed after a lag period of 2 to 8 day and these bacteria were found to degrade then-paraffin mixture at rates calculated to be in a range from 3.3×10?12 to 3.4×10?11 mg-oil cell?1 h?1 at 20°C. The maximum degradation rate,r m mg-oil l?1 h?1, was correlated with the amount of the initial totaln-paraffin,S mg-oil l?1, as expressed by the following equation: $$rm = (rm)\max \left( {\frac{S}{{S + Km}}} \right)$$ where (r m )max denotes the largest value ofr m whenn-paraffin exists in large excess andK m is a constant and represents the amount ofn-paraffin at which the degradation rate,r m , reaches 1/2 of its largest value, (r m )max. The values of (r m )max andK m were calculated to be as follows: In the case ofCaulobacter sp. (strain KM-1), (r m )max=6.0 mg-oil l?1 h?1 andK m =191 mg-oillesw ?1; in the case ofFlavobacterium sp., (r m )max=5.47 mg-oil l?1 h?1 andK m =152 mg-oillesw ?1. 相似文献
18.
《Deep Sea Research Part II: Topical Studies in Oceanography》2009,56(26):2733-2744
Temporal changes in the abundance, community composition, and photosynthetic physiology of phytoplankton in surface waters were investigated during the second in situ iron (Fe) fertilization experiment in the NW subarctic Pacific (SEEDS-II). Surface chlorophyll a concentration was 0.75 mg m−3 on the day before the first Fe enrichment (i.e. Day 0), increased ca. 3-fold until Day 13 after two Fe additions, and thereafter declined with time. The photochemical quantum efficiency (Fv/Fm) and functional absorption cross-section (σPSII) of photosystem II for total phytoplankton in surface waters increased and decreased inside the Fe-enriched patch through Day 13, respectively. These results indicate that the photosynthetic physiological condition of the phytoplankton improved after the Fe infusions. However, the maximum Fv/Fm value of 0.43 and the maximum quantum yield of carbon fixation (φmax) of 0.041 mol C (mol photon)−1 during the development phase of the bloom were rather low, compared to their theoretical maximum of ca. 0.65 and 0.10 mol C (mol photon)−1, respectively. Diatoms, which were mainly composed of oceanic species, did not bloom, and autotrophic nanoflagellates such as cryptophytes and prasinophytes became predominant in the phytoplankton community inside the Fe-enriched patch. In ferredoxin/flavodoxin assays for micro-sized (20–200 μm in cell length) diatoms, ferredoxin was not detected but flavodoxin expressions consistently occurred with similar levels both inside and outside the Fe-enriched patch, indicating that the large-sized diatoms were stressed by Fe bioavailability inside the Fe-enriched patch even after the Fe enrichments. Our data suggest that the absence of a Fe-induced large-sized diatom bloom could be partly due to their Fe stress throughout SEEDS-II. 相似文献
19.
Community structure of picoplankton abundance and biomass in the southern Huanghai Sea during the spring and autumn of 2006 总被引:2,自引:0,他引:2
During spring and autumn of 2006,the investigations on abundance,carbon biomass and distribution of picoplankton were carried out in the southern Huanghai Sea(Yellow Sea,sHS) . Three groups of picoplankton-Synechococcus(Syn) ,Picoeukaryotes(PEuk) and heterotrophic bacteria(BAC) were identified,but Prochlorococcus(Pro) was undetected. The average abundance of Syn and PEuk was lower in spring(5.0 and 1.3 × 10 3 cells/cm 3,respectively) than in autumn(92.4 and 2.7 × 10 3 cells/cm 3,respectively) ,but it was opposite for BAC(1.3 and 0.7 × 10 6 cells/cm 3 in spring and autumn,respectively) . And the total carbon biomass of picoplankton was higher in spring(37.23 ± 11.67) mg/m 3 than in autumn(21.29 ± 13.75) mg/m 3 . The ratios of the three cell abundance were 5:1:1 341 and 30:1:124 in spring and autumn,respectively. And the ratios of carbon biomass of them were 5:7:362 and 9:4:4 in spring and autumn,respectively. Seasonal distribution characteristics of Syn,PEuk,BAC were quite different from each other. In spring,Syn abundance decreased in turn in the central waters(where phytoplankton bloom in spring occurred) ,the southern waters and inshore waters of the Shandong Peninsula(where even Syn was undetected) ;the high values of PEuk abundance appeared in the central and southern waters and the inshore of the Shandong Peninsula;the abundance of BAC was nearly three order of magnitude higher than that of photosynthetic picoplankton,and high values appeared in the central waters. In autumn,Syn abundance in central waters was higher than that in surrounding waters,while for PEuk abundance,it decreased in turn in the inshore waters of the Shandong Peninsula,the southern waters and the central waters;BAC presented a complicated blocky type distribution. Sub-surface maximum of each group of picopalnkton appeared in both spring and autumn. Compared with the available literatures concerning the studied area,the range of Syn abundance was larger,and the abundance of BAC was higher. In addition,the conversion factors for calculating picoplanktonic carbon biomass were discussed,with the conversion factors which are different from previous studies in the same surveyed waters. The result of regression analysis showed that there was distinct positive correlation between BAC and photosynthetic picoplankton in spring(r=0.61,P 0.001) ,but no correlation was found in autumn. 相似文献