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Featured researches published by Yan Yin.


Water Research | 2011

Characterizing chromophoric dissolved organic matter in Lake Tianmuhu and its catchment basin using excitation-emission matrix fluorescence and parallel factor analysis

Yunlin Zhang; Yan Yin; Longqing Feng; Guangwei Zhu; Zhiqiang Shi; Xiaohan Liu; Yuanzhi Zhang

Chromophoric dissolved organic matter (CDOM) is an important optically active substance that transports nutrients, heavy metals, and other pollutants from terrestrial to aquatic systems and is used as a measure of water quality. To investigate how the source and composition of CDOM changes in both space and time, we used chemical, spectroscopic, and fluorescence analyses to characterize CDOM in Lake Tianmuhu (a drinking water source) and its catchment in China. Parallel factor analysis (PARAFAC) identified three individual fluorophore moieties that were attributed to humic-like and protein-like materials in 224 water samples collected between December 2008 and September 2009. The upstream rivers contained significantly higher concentrations of CDOM than did the lake water (a(350) of 4.27±2.51 and 2.32±0.59 m(-1), respectively), indicating that the rivers carried a substantial load of organic matter to the lake. Of the three main rivers that flow into Lake Tianmuhu, the Pingqiao River brought in the most CDOM from the catchment to the lake. CDOM absorption and the microbial and terrestrial humic-like components, but not the protein-like component, were significantly higher in the wet season than in other seasons, indicating that the frequency of rainfall and runoff could significantly impact the quantity and quality of CDOM collected from the catchment. The different relationships between the maximum fluorescence intensities of the three PARAFAC components, CDOM absorption, and chemical oxygen demand (COD) concentration in riverine and lake water indicated the difference in the composition of CDOM between Lake Tianmuhu and the rivers that feed it. This study demonstrates the utility of combining excitation-emission matrix fluorescence and PARAFAC to study CDOM dynamics in inland waters.


Optics Express | 2012

Effect of phytoplankton community composition and cell size on absorption properties in eutrophic shallow lakes: field and experimental evidence

Yunlin Zhang; Yan Yin; Mingzhu Wang; Xiaohan Liu

We investigated phytoplankton absorption properties of Lake Taihu, in the spring and summer of 2005 and 2006, and for 17 days studied laboratory cultures of Scenedesmus obliquus (chlorophyta) and Microcystis aeruginosa (cyanophyta) to determine the effect of phytoplankton community composition and cell size on the absorption properties. There were significant seasonal differences in phytoplankton community composition and absorption coefficients. In spring, the phytoplankton community was dominated by chlorophyta with large cells, whereas in summer was dominated by cyanophyta with small cells. Phytoplankton absorption coefficients increased significantly from spring to summer, with the increase in chlorophyll a (Chla) concentration. In addition, Chla-specific absorption coefficients increased with the phytoplankton community succession from chlorophyta to cyanophyta. In culture, the cells density of S. obliquus was generally lower than that of M. aeruginosa, and Chla concentrations of S. obliquus were significantly higher than those of M. aeruginosa. Correspondingly, the Chla-specific absorption coefficients of S. obliquus were significantly lower than those of M. aeruginosa. Significant exponential correlations were found between absorption and Chla-specific absorption coefficients and Chla concentration for S. obliquus and M. aeruginosa. In addition, we developed a model to predict absorption and Chla-specific absorption coefficients using Chla concentration and cell size when data from two species was grouped together. Field and experimental results both showed that the Chla-specific absorption coefficients of cyanophyta were significantly higher than those of chlorophyta. The variability in specific absorption can attributed to phytoplankton community composition, cell size and pigment composition. As phytoplankton community composition changed significantly with season in the lake, and as variation in the cell sizes and accessory pigments of the phytoplankton community influenced the Chla-specific absorption coefficient, these factors may be considered explicitly in future improvements to bio-optical algorithms to more accurately estimate Chla concentration, primary production and phytoplankton community composition.


Hydrobiologia | 2011

Temporal and spatial variations of chemical oxygen demand in Lake Taihu, China, from 2005 to 2009

Yan Yin; Yunlin Zhang; Xiaohan Liu; Guangwei Zhu; Boqianq Qin; Zhiqiang Shi; Longqing Feng

We undertook a study in Lake Taihu, China, from 2005 to 2009 including a total of 639 samples to determine: (i) the seasonal dynamics and spatial distribution of the chemical oxygen demand (COD) and (ii) the relationships between the COD concentration and the biochemical oxygen demand (BOD), phytoplankton pigment, total dissolved nitrogen (TDN), and total dissolved phosphorus (TDP) concentrations, as well as the chromophoric dissolved organic matter (CDOM) absorption coefficient. There were significant spatial differences in the COD concentration, which gradually decreased from Zhushan Bay in the northwest, to the north, the lake center, and the southeast of the lake. The COD concentration was significantly higher at near-shore sites than that at open water sites. The mean COD concentrations were significantly higher in the spring and summer than in the winter and autumn. The lowest annual mean COD concentration appeared in 2009, which could be attributed to improvements in water quality management and high rainfall. The COD concentrations in all four seasons were strongly correlated with phytoplankton pigment, suggesting that extracellular release of COD from phytoplankton was an important COD source. The correlation coefficients between the COD and phytoplankton pigment concentrations were higher in the spring, summer, and autumn than in the winter, showing a more important contribution of phytoplankton degradation to COD in the algal bloom season than in the non-algal bloom season. These new data on the temporal and spatial characteristics of the COD in Lake Taihu will be crucial for developing future strategies for water quality management.


Optics Express | 2012

A simple optical model to estimate diffuse attenuation coefficient of photosynthetically active radiation in an extremely turbid lake from surface reflectance

Yunlin Zhang; Xiaohan Liu; Yan Yin; Mingzhu Wang; Boqiang Qin

Accurate estimation of the diffuse attenuation coefficient is critical for our understanding and modelling of key physical, chemical, and biological processes in water bodies. For extremely turbid, shallow, Lake Taihu in China, we synchronously monitored the diffuse attenuation coefficient of photosynthetically active radiation (Kd(PAR)) and the remote sensing reflectance at 134 sites. Kd(PAR)) varied greatly among different sites from 1.62 to 14.68 m(-1) with a mean value of 5.62 ± 2.99 m(-1). A simple optical model from near-infrared remote sensing reflectance of MODIS channels 2 (859 nm) and 15 (748 nm) was calibrated, and validated, to estimate Kd(PAR). With the simple optical model, the root mean square error and mean relative error were 0.95 m(-1) and 17.0% respectively at 748 nm, and 0.98 m(-1) and 17.6% at 859 nm, based on an independent validation data set. Our results showed a good precision of estimation for Kd(PAR) using the new simple optical model, contrasting with the poor estimations derived from existing empirical and semi-analytical models developed in clear, open ocean waters or slightly turbid coastal waters. Although at 748 nm the model had slightly higher precision than at 859 nm, the spatial resolution at 859 nm was four times that at 748 nm. Therefore, we propose a new model based on the MODIS-derived normalized water-leaving radiances at a wavelength of 859 nm, for accurate retrieval of Kd(PAR) in extremely turbid, shallow lakes with Kd(PAR) larger than 1.5 m(-1).


Journal of Freshwater Ecology | 2016

Effects of temperature on the optical properties of Microcystis aeruginosa and Scenedesmus obliquus

Yan Yin; Yunlin Zhang; Mingzhu Wang; Kun Shi

Laboratory experiments were conducted to investigate the response of Microcystis aeruginosa and Scenedesmus obliquus to incubation at temperatures of 15 °C, 25 °C, and 35 °C over 15 days. The relationships between chlorophyll a (Chla) concentration, phytoplankton density, and absorption coefficients, aph(λ) and Chla-specific absorption coefficients, were determined. Multivariate linear models were developed that included the maximum photosynthetic efficiency of photosystem II Fv/Fm and Chla concentration, phytoplankton density, and aph(λ), . The differences in aph(λ) and between the two species and their responses to temperature were determined. At 25 °C, the phytoplankton density and Chla concentration of both species increased gradually during the whole experiment. However, at 15 °C, M. aeruginosa was inhibited by the low temperature and at 35 °C the photosynthesis of S. obliquus was disrupted. For both species, phytoplankton density and Chla concentration had significant positive correlations with aph(440) and aph(675) at different temperatures, while there were significant negative correlations between Chla concentration and , . The decreased with increasing temperature in both species. Cell size increased with increasing temperature in M. aeruginosa, and further altered ; in contrast, there were no variations in cell size at different temperatures in S. obliquus. Significant relationships were found between Fv/Fm and Chla concentration, phytoplankton density, aph(440), aph(675) in M. aeruginosa at 25 °C, 35 °C and in S. obliquus at 25 °C.


Limnology and Oceanography | 2010

Characteristics and sources of chromophoric dissolved organic matter in lakes of the Yungui Plateau, China, differing in trophic state and altitude

Yunlin Zhang; Enlou Zhang; Yan Yin; Mark A. van Dijk; Longqing Feng; Zhiqiang Shi; Mingliang Liu; Boqiang Qina


Organic Geochemistry | 2011

Spatial-seasonal dynamics of chromophoric dissolved organic matter in Lake Taihu, a large eutrophic, shallow lake in China

Yunlin Zhang; Yan Yin; Xiaohan Liu; Zhiqiang Shi; Longqing Feng; Mingliang Liu; Guangwei Zhu; Zhijun Gong; Boqiang Qin


Journal of Plankton Research | 2010

Seasonal - spatial variation and remote sensing of phytoplankton absorption in Lake Taihu, a large eutrophic and shallow lake in China

Yunlin Zhang; Longqing Feng; Junsheng Li; Liancong Luo; Yan Yin; Mingliang Liu; Yunliang Li


Journal of Geophysical Research | 2013

Wind and submerged aquatic vegetation influence bio-optical properties in large shallow Lake Taihu, China

Xiaohan Liu; Yunlin Zhang; Yan Yin; Mingzhu Wang; Boqiang Qin


Photochemical and Photobiological Sciences | 2011

Spectral attenuation of ultraviolet and visible radiation in lakes in the Yunnan Plateau, and the middle and lower reaches of the Yangtze River, China

Yunlin Zhang; Yan Yin; Enlou Zhang; Guangwei Zhu; Mingliang Liu; Longqing Feng; Boqiang Qin; Xiaohan Liu

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Yunlin Zhang

Chinese Academy of Sciences

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Xiaohan Liu

Chinese Academy of Sciences

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Longqing Feng

Chinese Academy of Sciences

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Boqiang Qin

Chinese Academy of Sciences

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Guangwei Zhu

Chinese Academy of Sciences

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Mingliang Liu

Chinese Academy of Sciences

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Mingzhu Wang

Chinese Academy of Sciences

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Enlou Zhang

Chinese Academy of Sciences

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Zhijun Gong

Chinese Academy of Sciences

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