The results from four cruises(Nov.1991—Jul.1992)to examine fluxes of ammonium uptake andregeneration in the surface layer of Jiaozhou Bay are presented.Seasonal variations of the two fluxeswere in the order:summer...The results from four cruises(Nov.1991—Jul.1992)to examine fluxes of ammonium uptake andregeneration in the surface layer of Jiaozhou Bay are presented.Seasonal variations of the two fluxeswere in the order:summer】spring】autumn】winter.Diel patterns were characterized by higher uptake inthe daytime and higher regeneration at night.Averaged uptake and regeneration fluxes on an annual scalewere 0.073 and 0.053 μmol·L<sup>-1</sup>·h<sup>-1</sup>respectively.Regeneration fluxes were always less than uptakefluxes throughout the year.The longest turnover time was 16.34 d(in winter),and the shortest one was0.68 d(in summer).The major uptake flux was contributed by the smallest fraction-picoplankton.Theextents of light-dependence of ammouium uptake by different size fractions were in the order:netplankton】nanoplankton】picoplankton..展开更多
In this study, marine microplankton were identified by combining standard light microscopy with Sanger 18S rRNA gene sequencing. The image-matching individual PCR technique was applied to identify the image collectabl...In this study, marine microplankton were identified by combining standard light microscopy with Sanger 18S rRNA gene sequencing. The image-matching individual PCR technique was applied to identify the image collectable unicellular microplankton to genera. Instead of pure strain culture and morphological identification, microplankton individual cells were isolated and fixed with glutaraldehyde, frozen and stored for months. Finally, they were imaged under a microscope and molecularly identified via phylogenetic analysis of their 18S ribosomal RNA gene(18S rDNA). Microplankton cells were collected at 30 locations in South China Sea, and were assigned to 21 known and 4 unidentified genera(2 uncultured fungi and 2 uncultured stramenopiles) with phylogenetic analysis in parallel to the morphological identification.展开更多
Membrane potential is essential for the uptake of substance and physiological activityin cells; and is an indicator of cell viability and a criterion of aquatic environment. It is also applied toclassification of ecol...Membrane potential is essential for the uptake of substance and physiological activityin cells; and is an indicator of cell viability and a criterion of aquatic environment. It is also applied toclassification of ecological populations. So membrane potential is a key parameter in studies on aquaticmicroplankton. It can be estimated by microelectrode, radioisotope method, spectro photomeny, flow cy-展开更多
Eukaryotic microplankton plays an important role in water biotic community and in maintaining the stability of water ecosystems. Environmental DNA metabarcoding provides the opportunity to integrate traditional and em...Eukaryotic microplankton plays an important role in water biotic community and in maintaining the stability of water ecosystems. Environmental DNA metabarcoding provides the opportunity to integrate traditional and emerging approaches to discover more new species, and develop molecular biotic indices that can be more rapidly, frequently, and robustly used in water quality assessments. In order to examine assemblages of eukaryotic microplankton in lower reaches of Qiantang River, ITS gene metabarcoding technology based on environmental DNA was carried out. As a result, various species of phytoplankton, fungi and zooplankton were annotated on. More phylum, classes and specieses of eukaryotic phytoplankton and zooplankton were found after compared communities taxa based on metabarcoding with that obtained from morphological examination. Nevertheless, <i></span><i><span style="font-family:Verdana;">Chlorophyceae</span></i><span style="font-family:Verdana;"></i></span><i> </i><span style="font-family:Verdana;">was the most common assemblage both identified by using these two methods, also <i></span><i><span style="font-family:Verdana;">Mesocyclops leuckarti</span></i><span style="font-family:Verdana;"></i> and <i></span><i><span style="font-family:Verdana;">Acanthocyclops bicuspidatus</span></i><span style="font-family:Verdana;"></i> were both found to be the dominant species of Cyclopoida in the river. Additionally, the reads proportions of phytoplankton and zooplankton at the three freshwater sampling sites</span></span><span style="font-family:""> </span><span style="font-family:Verdana;">(Tonglu, Fuyang and Wenyan) decreased as temperature drop. Meanwhile, twenty classes of fungi were annotated on, of which the community characteristic was first researched in the river. There were significant spatial</span><span style="font-family:""> </span><span style="font-family:Verdana;">differences in values of Chao1 index for eukaryotic microplankton. Cluster analysis and Non-metric multidimensional scaling ordination further confirmed that the community composition of eukaryotic microplankton at class level for Jiashao-September sample had the most dissimilarity with the others.展开更多
A new sampling method of deepsea microplankton with function of in-situ concentrated sampling and gastight sampling was proposed. In-situ concentrated sampling technique was realized as follows: a microplankton membra...A new sampling method of deepsea microplankton with function of in-situ concentrated sampling and gastight sampling was proposed. In-situ concentrated sampling technique was realized as follows: a microplankton membrane was used as filtration membrane, and a deepsea pump was used to pump seawater; the microplankton was captured and the density of microplankton was increased when seawater flow through the filtration membrane. Gastight sampling technique was realized as follows: a precharged accumulator was used as pressure compensator. During the process of lifting the sampler, the accumulator compensated the pressure drop continuously. The laboratory experimental results show that with in-situ concentrated sampling technique, in-situ concentrated sampling can be realized and the maximum concentration ratio reaches up to 500. With pressure compensation technique based on accumulator, gastight sampling can be realized. When sampling at 6 km and the precharge pressure of accumulator is 18 MPa, pressure drop of the sample is less than 2% compared with its original pressure. Deepsea experiment (at 1.9 km) results show that the sampler can realize in-situ concentrated sampling and gastight sampling.展开更多
Seasonal variations of radiolarian and diatom fluxes in the central South China Sea during 1993-1995 were overwhelmingly controlled by monsoon climate. Radiolarian and diatom increased obviously during the Northeast (...Seasonal variations of radiolarian and diatom fluxes in the central South China Sea during 1993-1995 were overwhelmingly controlled by monsoon climate. Radiolarian and diatom increased obviously during the Northeast (from November to February) and Southwest (from June to September) monsoons and decreased during the periods between the monsoons. The change of circulation driven by the monsoons improved water exchange in the different areas that brought rich nutrient materials for the surface microplankton, thereby enhancing radiolarian and diatom fluxes. Variation of radiolarian flux coincided with organic carbon flux, surface primary and export productivities. High radiolarian flux corresponded to high surface primary productivity. Radiolarian and diatom fluxes raised abnormally during 1994-1995 could be attributed to the El Nino event during the period.展开更多
用DGGE(denatured gradient gel electrophoresis)和构建18SrDNA克隆文库2种方法对太湖不同湖区的真核微型浮游生物(0.8-20μm)多样性及组成结构进行了研究.DGGE结果表明,不同湖区真核微型浮游生物的DGGE指纹图谱存在明显差异,其中...用DGGE(denatured gradient gel electrophoresis)和构建18SrDNA克隆文库2种方法对太湖不同湖区的真核微型浮游生物(0.8-20μm)多样性及组成结构进行了研究.DGGE结果表明,不同湖区真核微型浮游生物的DGGE指纹图谱存在明显差异,其中营养水平较低的东太湖和贡湖DGGE条带数最多,分别为23和24,香农多样性指数分别为3.135和3.178,而营养水平较高的梅梁湾和五里湖最少,均为18,香农多样性指数为2.890,表明营养水平较低湖区的多样性高于营养水平较高的湖区.克隆测序结果表明太湖中真核微型浮游生物种类丰富,占优势的主要是一些鞭毛藻、异养鞭毛虫、纤毛虫和真菌,而营养水平不同的梅梁湾、湖心、东太湖中真核微型浮游生物组成明显不同.在营养水平较高的梅梁湾,28.6%的OUT(operational taxonomicunit)属于异养鞭毛虫,另外隐藻、金藻分别占22.9%和14.3%;在湖心,金藻的比例最大,占25.7%,另外比较多的是异养鞭毛虫和隐藻,分别为20.0%和14.3%;而营养水平较低的东太湖各类纤毛虫所占比份最大,为26.8%,异养鞭毛虫较少,仅占4.9%,另外真菌含量较高,占12.2%.展开更多
基金Contribution No.2186 from the Institute of Oceanology.Chinese Academy of Sciences This project was supported by the NNSFC,Grant No,39200022.
文摘The results from four cruises(Nov.1991—Jul.1992)to examine fluxes of ammonium uptake andregeneration in the surface layer of Jiaozhou Bay are presented.Seasonal variations of the two fluxeswere in the order:summer】spring】autumn】winter.Diel patterns were characterized by higher uptake inthe daytime and higher regeneration at night.Averaged uptake and regeneration fluxes on an annual scalewere 0.073 and 0.053 μmol·L<sup>-1</sup>·h<sup>-1</sup>respectively.Regeneration fluxes were always less than uptakefluxes throughout the year.The longest turnover time was 16.34 d(in winter),and the shortest one was0.68 d(in summer).The major uptake flux was contributed by the smallest fraction-picoplankton.Theextents of light-dependence of ammouium uptake by different size fractions were in the order:netplankton】nanoplankton】picoplankton..
基金supported by Hebei Province Natural Science Foundation for Youths (No. C2015202202)Colleges and Universities in Hebei Province Science and Technology Research Project (No. QN20131082)+1 种基金the National Natural Science Foundation of China (No. 51474084)the National Key Research and Development Program of China (No. 2016YFB0601001)
文摘In this study, marine microplankton were identified by combining standard light microscopy with Sanger 18S rRNA gene sequencing. The image-matching individual PCR technique was applied to identify the image collectable unicellular microplankton to genera. Instead of pure strain culture and morphological identification, microplankton individual cells were isolated and fixed with glutaraldehyde, frozen and stored for months. Finally, they were imaged under a microscope and molecularly identified via phylogenetic analysis of their 18S ribosomal RNA gene(18S rDNA). Microplankton cells were collected at 30 locations in South China Sea, and were assigned to 21 known and 4 unidentified genera(2 uncultured fungi and 2 uncultured stramenopiles) with phylogenetic analysis in parallel to the morphological identification.
基金This study was supported by 863 project No.2001AA630509-2 and NSFC project(No.30170189,40176037),and NKBRSF project 2001CB409700 and G2000078500
文摘Membrane potential is essential for the uptake of substance and physiological activityin cells; and is an indicator of cell viability and a criterion of aquatic environment. It is also applied toclassification of ecological populations. So membrane potential is a key parameter in studies on aquaticmicroplankton. It can be estimated by microelectrode, radioisotope method, spectro photomeny, flow cy-
文摘Eukaryotic microplankton plays an important role in water biotic community and in maintaining the stability of water ecosystems. Environmental DNA metabarcoding provides the opportunity to integrate traditional and emerging approaches to discover more new species, and develop molecular biotic indices that can be more rapidly, frequently, and robustly used in water quality assessments. In order to examine assemblages of eukaryotic microplankton in lower reaches of Qiantang River, ITS gene metabarcoding technology based on environmental DNA was carried out. As a result, various species of phytoplankton, fungi and zooplankton were annotated on. More phylum, classes and specieses of eukaryotic phytoplankton and zooplankton were found after compared communities taxa based on metabarcoding with that obtained from morphological examination. Nevertheless, <i></span><i><span style="font-family:Verdana;">Chlorophyceae</span></i><span style="font-family:Verdana;"></i></span><i> </i><span style="font-family:Verdana;">was the most common assemblage both identified by using these two methods, also <i></span><i><span style="font-family:Verdana;">Mesocyclops leuckarti</span></i><span style="font-family:Verdana;"></i> and <i></span><i><span style="font-family:Verdana;">Acanthocyclops bicuspidatus</span></i><span style="font-family:Verdana;"></i> were both found to be the dominant species of Cyclopoida in the river. Additionally, the reads proportions of phytoplankton and zooplankton at the three freshwater sampling sites</span></span><span style="font-family:""> </span><span style="font-family:Verdana;">(Tonglu, Fuyang and Wenyan) decreased as temperature drop. Meanwhile, twenty classes of fungi were annotated on, of which the community characteristic was first researched in the river. There were significant spatial</span><span style="font-family:""> </span><span style="font-family:Verdana;">differences in values of Chao1 index for eukaryotic microplankton. Cluster analysis and Non-metric multidimensional scaling ordination further confirmed that the community composition of eukaryotic microplankton at class level for Jiashao-September sample had the most dissimilarity with the others.
基金Project(DY105-03-01-10) supported by China Ocean Mineral Resources Research and Development Association Project (1343-75221) supported by Central South University
文摘A new sampling method of deepsea microplankton with function of in-situ concentrated sampling and gastight sampling was proposed. In-situ concentrated sampling technique was realized as follows: a microplankton membrane was used as filtration membrane, and a deepsea pump was used to pump seawater; the microplankton was captured and the density of microplankton was increased when seawater flow through the filtration membrane. Gastight sampling technique was realized as follows: a precharged accumulator was used as pressure compensator. During the process of lifting the sampler, the accumulator compensated the pressure drop continuously. The laboratory experimental results show that with in-situ concentrated sampling technique, in-situ concentrated sampling can be realized and the maximum concentration ratio reaches up to 500. With pressure compensation technique based on accumulator, gastight sampling can be realized. When sampling at 6 km and the precharge pressure of accumulator is 18 MPa, pressure drop of the sample is less than 2% compared with its original pressure. Deepsea experiment (at 1.9 km) results show that the sampler can realize in-situ concentrated sampling and gastight sampling.
文摘Seasonal variations of radiolarian and diatom fluxes in the central South China Sea during 1993-1995 were overwhelmingly controlled by monsoon climate. Radiolarian and diatom increased obviously during the Northeast (from November to February) and Southwest (from June to September) monsoons and decreased during the periods between the monsoons. The change of circulation driven by the monsoons improved water exchange in the different areas that brought rich nutrient materials for the surface microplankton, thereby enhancing radiolarian and diatom fluxes. Variation of radiolarian flux coincided with organic carbon flux, surface primary and export productivities. High radiolarian flux corresponded to high surface primary productivity. Radiolarian and diatom fluxes raised abnormally during 1994-1995 could be attributed to the El Nino event during the period.
文摘用DGGE(denatured gradient gel electrophoresis)和构建18SrDNA克隆文库2种方法对太湖不同湖区的真核微型浮游生物(0.8-20μm)多样性及组成结构进行了研究.DGGE结果表明,不同湖区真核微型浮游生物的DGGE指纹图谱存在明显差异,其中营养水平较低的东太湖和贡湖DGGE条带数最多,分别为23和24,香农多样性指数分别为3.135和3.178,而营养水平较高的梅梁湾和五里湖最少,均为18,香农多样性指数为2.890,表明营养水平较低湖区的多样性高于营养水平较高的湖区.克隆测序结果表明太湖中真核微型浮游生物种类丰富,占优势的主要是一些鞭毛藻、异养鞭毛虫、纤毛虫和真菌,而营养水平不同的梅梁湾、湖心、东太湖中真核微型浮游生物组成明显不同.在营养水平较高的梅梁湾,28.6%的OUT(operational taxonomicunit)属于异养鞭毛虫,另外隐藻、金藻分别占22.9%和14.3%;在湖心,金藻的比例最大,占25.7%,另外比较多的是异养鞭毛虫和隐藻,分别为20.0%和14.3%;而营养水平较低的东太湖各类纤毛虫所占比份最大,为26.8%,异养鞭毛虫较少,仅占4.9%,另外真菌含量较高,占12.2%.
