Your search keyword '"Luan, Qingshan"' showing total 6 results

1. Temperature and nutrients drive distinct successions between diatoms and dinoflagellates over the past 40 years: Implications for climate warming and eutrophication.

Author

Wei, Yuqiu, Luan, Qingshan, Shan, Xiujuan, Cui, Hongwu, Qu, Keming, Cui, Zhengguo, and Sun, Jun

Published

2024

2. Living coccolithophore assemblages in the Yellow and East China Seas in response to physical processes during fall 2013.

Author

Luan, Qingshan, Liu, Sumei, Zhou, Feng, and Wang, Jun

Subjects

*COCCOLITHOPHORES, *COCCOLITHUS huxleyi, *MORPHOLOGY, *AGGLUTINATION, *CELL death, *SCANNING electron microscopes, *SALINITY

Abstract

Living coccolithophore assemblages collected at discrete depths (0–490 m) from eleven stations across the shelf and slope regions of the Yellow and East China Seas (YECS) during fall 2013 were analyzed using a scanning electron microscope. A total of 32 taxa were recorded, and the predominant taxa were Emiliania huxleyi , Gephyrocapsa spp., Syracosphaera spp. and Algirosphaera robusta . The body coccoliths of A. robusta exhibited an unusual morphology with incomplete hoods, which were recorded in nearly half of the samples and may represent a new variety. In addition, an agglutination relationship was observed between Gephyrocapsa coccoliths and the tintinnid Dictyocysta lepida in oligotrophic waters. Total coccolithophores reached a maximum cell abundance of 252 × 10 3 cells/l (on average 27.8 × 10 3 cells/l), with the contribution of Gephyrocapsa ericsonii , E. huxleyi and Gephyrocapsa oceanica accounting for 36.4%, 29.6% and 15.3%, respectively, of the total abundance. Coccolithophore assemblages in the YECS were a mixture of coastal, shelf and subtropical taxa, with the diversity decreasing in a radial direction from the Okinawa Trough to the inner shelves. Distinct deep-water flora existed in the Kuroshio slope waters (100–490 m), which was precisely reflected by the cluster analysis, illustrating very low percent similarity (48.1%) with the other groups. The occurrence of subtropical taxa in the coccolithophore assemblages can be used as benign warmer water signals. In the bottom turbid layers, the coccolithophore assemblages were largely composed of free coccoliths (84.3%), implying complex processes, such as cell death, resuspension and lateral advection, in the sandy and detrital waters. To clarify the relationship between the species distribution and ambient environments, a redundancy analysis (RDA) was applied to distinguish how much the variation in the taxon composition could be attributed to changes in the environmental conditions. Conclusively, salinity and temperature, which to some extent could reflect the physical properties of water stability and stratification, were key factors in driving the distribution patterns of living coccolithophores in the study areas. [ABSTRACT FROM AUTHOR]

Published

2016

3. Warm currents affecting the spring and winter distributions of living coccolithophores in the Yellow Sea, China.

Author

Luan, Qingshan, Sun, Jianqiang, Niu, Mingxiang, and Wang, Jun

Subjects

*WATER currents, *COCCOLITHOPHORES, *BIOTIC communities, *COCCOLITHUS huxleyi, *AQUATIC microbiology

Abstract

Spring and winter distributions of living coccolithophores in the Yellow Sea were studied using a polarizing microscope based on two surveys in April 2010 and January 2011. Nine species were recorded, including Emiliania huxleyi and Gephyrocapsa oceanica as the predominant forms. The cell abundance of all coccolithophores in the spring was significantly higher than in the winter ( p<0.01), with means of 15 387 and 2470 cells l-1, respectively. Notably, we observed a habitat selection of coccolithophores in the southeastern Yellow Sea (32-35°N, 123-125°E). This habitat was characterized by sharp temperature gradients during both seasons caused by water exchange between the shelf waters and the Yellow Sea Warm Current. Moreover, the cell abundance, standing crop and estimated fluxes of coccolithophores were abnormally high compared to other regions. The habitat preference of coccolithophores in the Yellow Sea was directly related to the hydrodynamic conditions. The unfavorable light conditions caused by the intense convective mixing were responsible for the low biomass of coccolithophores during the winter. However, the increasing temperature influenced by the warm current, in combination with water column stability, triggered the spring bloom of coccolithophores in the southern Yellow Sea. [ABSTRACT FROM AUTHOR]

Published

2013

4. Taxonomic composition of marine-living coccolithophores in the Yellow Sea and East China Sea—new records and a species list.

Author

Wang, Jun, Luan, Qingshan, Zuo, Tao, Chen, Ruisheng, and Sun, Jianqiang

Subjects

*COCCOLITHOPHORES, *MARINE species diversity, *MARINE algae

Abstract

A total of twenty-seven species of marine-living coccolithophores were recorded from seawater samples that were collected during two spring cruises along the shelf regions of the Yellow Sea (YS) and the East China Sea (ECS). They were classified into ten families and four orders, with some additional species incertae sedis. Most of these species were heterococcolithophores, and no holococcolithophores were examined from the YS waters. Six species were recorded for the first time from the coastal waters of the China Seas and their morphological characteristics are described and photographically illustrated in this paper. They were Cyrtosphaera lecaliae, Syracosphaera histrica, Syracosphaera marginaporata, Pappomonas cf. sp. type 3, Calyptrolithophora papillifera and Corisphaera strigilis. Three types of Emiliania huxleyi, type A, type B/C and type C, were examined. Species of the genus Syracosphaera, in addition to E. huxleyi and Gephyrocapsa oceanica, frequently occurred at the surveyed sites. The coccolithophore assemblages in the offshore waters of the ECS were characterized by high species diversity—fourteen species in one sample. This finding indicated that the shelf waters adjacent to the Kuroshio path were ideal habitats for living coccolithophores. The variation in taxonomic composition of these algae could be associated with differences in their preferred habitats. [ABSTRACT FROM AUTHOR]

Published

2012

5. Bacterial diversity, composition and temporal-spatial variation in the sediment of Jiaozhou Bay, China.

Author

Liu, Xin, Xiao, Tian, Luan, Qingshan, Zhang, Wenyan, Wang, Mengqiang, and Yue, Haidong

Abstract

Studies on the diversity and distribution of bacterial populations will improve the overall understanding of the global patterns of marine bacteria and help to comprehend local biochemical processes and environments. We evaluated the composition and the dynamics of bacterial communities in the sediment of Jiaozhou Bay (China) using PCR-denaturing gradient gel electrophoresis (DGGE). Sediment samples were collected from 10 different sites in May, August, and November 2008 and in February 2009. There was significant temporal variation in bacterial community composition at all sites. However, the spatial variation was very small. The DGGE analyses of bacterial communities were used to divide the 10 stations into three types. Canonical correspondence analysis (CCA) revealed that the changes in bacterial communities were driven by sediment properties. Sequence analysis of DGGE band-derived 16S rRNA gene fragments revealed that the dominant bacterial groups in the sediment were of the classes γ-proteobacteria and δ-proteobacteria and phyla Bacteroidetes and Nitrospirae. Our results provide considerable insight into the bacterial community structure in Jiaozhou Bay, China. [ABSTRACT FROM AUTHOR]

Published

2011

6. Inter-annual and seasonal variations in zooplankton community structure in the Yellow Sea with possible influence of climatic variability.

Author

Shi, Yongqiang, Niu, Mingxiang, Zuo, Tao, Wang, Jun, Luan, Qingshan, Sun, Jianqiang, Yuan, Wei, Shan, Xiujuan, and Pakhomov, Evgeny A.

Subjects

*WATER temperature, *COMMUNITIES, *CLIMATE change, *CALANUS, *TIME series analysis, *BRACKISH waters

Abstract

• Inter-annual and seasonal variations in zooplankton community structure were analyzed. • Warmer conditions in spring of 2017–2018 benefited copepod community. • A regime shift might have occurred in 2016/2017 in the Yellow Sea. Inter-annual and seasonal variations in zooplankton community structure in the Yellow Sea, China were studied in relation to climatic events and local environment from 2014 to 2018. Three zooplankton assemblages were identified based on cluster analysis, which were associated with seasonal temperature changes. Group 1 composed spring stations with moderate water column temperatures. The spring zooplankton assemblage had the highest mean total abundance with crustaceans, including euphausiids, amphipods and copepods dominating samples. Stations in the basin area during summer–autumn and all stations in winter composed Group 2, with low bottom water temperatures being a prominent feature. Zooplankton assemblage of Group 2 mainly consisted of a mixture of low-temperature species and some tropical species that were transported into the region by the Yellow Sea Warm Current. Coastal stations with high water temperature during summer–autumn made up Group 3. Zooplankton was characterized as summer–autumn neritic assemblage with high jellyfish abundance. Some meroplankton and brackish water species, i.e. Labidocera euchaeta , were indicator species confirming the influence of the river discharge. Both PDO (from positive to negative) and ENSO (from negative to positive) reversed their signs in 2016/2017. The abundances of total zooplankton, Noctiluca scintillans , Calanus sinicus and small copepods were much higher in spring of 2017–2018 compared to spring 2015 due to the warmer conditions. In addition, zooplankton community of summer 2017 was characterized by high abundances of copepods and gelatinous zooplankton, Diphyes chamissonis and Doliolum denticulatum. This was influenced by a strong river runoff and warm current transport, and differed from 2014 and 2016 summers. Our results suggest that a regime shift occurred in 2016/2017, which was supported by sharp changes in physical settings as well as zooplankton community structure in the Yellow Sea. However, a longer time series is required to uncover detailed processes and response mechanisms of environmental conditions of the Yellow Sea to climate change. [ABSTRACT FROM AUTHOR]

Published

2020