Plankton Community Succession in Artificial Systems Subjected to Cyanobacterial Blooms Removal using Chitosan-Modified Soils

Yan, Qingyun; Yu, Yuhe; Feng, Wei; Pan, Gang; Chen, Hao; Chen, Juan; Yang, Bo; Li, Xuemei; Zhang, Xiang

doi:10.1007/s00248-008-9434-3

Cited by 20 publications

(17 citation statements)

References 16 publications

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“…The algal blooms remove was conducted by chitosan-modified soils in experimental area in August, 2008. The composition of chitosan-modified soils and the methods of algal blooms removal were described by Pan et al (2006a) and Yan et al (2009). Planktonic organisms for qualitative and quantitative analysis were collected and pretreated according to Yan et al (2007).…”

Section: Collection and Processing Of Samplesmentioning

confidence: 99%

“…However, as major primary producers, impact of algal blooms removal on high trophic levels is important during treatment. Even the process of algal blooms removal by chitosan-modified soils unaffected the growth of Local mussels Cristaria plicata (Leach) and submerged macrophytes Myriophyllum spicatum (Zou et al, 2006), as well as Yan et al (2009) proved neither chemical conditions nor plankton succession are significantly affected by the algal removal process in artificial systems, the effect on natural freshwater ecology is still unclearly after this process. A comparison of zooplankton community between pre and post algal blooms removal (July 21, 2008 andAugust 22, 2008, respectively) showed that there was significant diversity (paired samples test, p = 0.035, the result unpublished).…”

Section: Introductionmentioning

confidence: 99%

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Impacts of algal blooms removal by chitosan-modified soils on zooplankton community in Taihu Lake, China

Feng

et al. 2010

Journal of Environmental Sciences

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Section: Collection and Processing Of Samplesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Impacts of algal blooms removal by chitosan-modified soils on zooplankton community in Taihu Lake, China

Feng

et al. 2010

Journal of Environmental Sciences

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“…Furthermore, Yan et al [15][16][17][18]20,21] applied different fingerprinting approaches to investigate relationships among the genetic diversity of plankton communities, species composition and environmental factors in aquatic environments of lakes, rivers, and reservoirs. Results indicated that the DNA fingerprints of target communities were generally correlated with species composition of plankton and their environments [15][16][17][18]20,21]. The concentration of TP was found to be the major factor in determining plankton communities derived from eutrophic environments [19].…”

Section: Community Fingerprinting Analysismentioning

confidence: 99%

“…To date, large numbers of metagenome-based studies on bacterioplankton and more recently on eukaryotic picoplankton have been undertaken (e.g., [11][12][13][14]). Targeting the plankton community as a system, Yan et al [15][16][17][18] and Yu et al [19] currently applied fingerprinting techniques to investigate the relationships between DNA polymorphisms and species composition of plankton communities in different habitats and environments (i.e., lakes, rivers, reservoirs, ponds, enclosures, and artificial systems). As community composition is largely dictated by environmental factors, it has been a natural extension of this relationship to use plankton community fingerprints as an indication of environmental conditions [17][18][19][20][21].…”

mentioning

confidence: 99%

“…Targeting the plankton community as a system, Yan et al [15][16][17][18] and Yu et al [19] currently applied fingerprinting techniques to investigate the relationships between DNA polymorphisms and species composition of plankton communities in different habitats and environments (i.e., lakes, rivers, reservoirs, ponds, enclosures, and artificial systems). As community composition is largely dictated by environmental factors, it has been a natural extension of this relationship to use plankton community fingerprints as an indication of environmental conditions [17][18][19][20][21]. In contrast to traditional morphological analyses in ecological study, multiple samples can be analyzed simultaneously with standardized sets of metagenome-based procedures, which make it practical to perform comparative analyses aimed at elucidating general microbial ecological rules.…”

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confidence: 99%

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Metagenome-based analysis: A promising direction for plankton ecological studies

Yan

2010

Sci. China Life Sci.

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The plankton community plays an especially important role in the functioning of aquatic ecosystems and also in biogeochemical cycles. Since the beginning of marine research expeditions in the 1870s, an enormous number of planktonic organisms have been described and studied. Plankton investigation has become one of the most important areas of aquatic ecological study, as well as a crucial component of aquatic environmental evaluation. Nonetheless, traditional investigations have mainly focused on morphospecies composition, abundances and dynamics, which primarily depend on morphological identification and counting under microscopes. However, for many species/groups, with few readily observable characteristics, morphological identification and counting have historically been a difficult task. Over the past decades, microbiologists have endeavored to apply and extend molecular techniques to address questions in microbial ecology. These culture-independent studies have generated new insights into microbial ecology. One such strategy, metagenome-based analysis, has also proved to be a powerful tool for plankton research. This mini-review presents a brief history of plankton research using morphological and metagenome-based approaches and the potential applications and further directions of metagenomic analyses in plankton ecological studies are discussed. The use of metagenome-based approaches for plankton ecological study in aquatic ecosystems is encouraged. metagenome, plankton community, morphospecies, molecular microbial ecology Citation:Yan Q Y, Yu Y H. Metagenome-based analysis: A promising direction for plankton ecological studies. Sci China Life Sci, 2011, 54: 75-81,

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PCR‐DGGE Fingerprinting Analysis of Plankton Communities and Its Relationship to Lake Trophic Status

Zhang

et al. 2009

International Review of Hydrobiology

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Plankton communities in eight lakes of different trophic status near Yangtze, China were characterized by using denatured gradient gel electrophoresis (DGGE). Various water quality parameters were also measured at each collection site. Following extraction of DNA from plankton communities, 16S rRNA and 18S rRNA genes were amplified with specific primers for prokaryotes and eukaryotes, respectively; DNA profiles were developed by DGGE. The plankton community of each lake had its own distinct DNA profile. The total number of bands identified at 34 sampling stations ranged from 37 to 111. Both prokaryotes and eukaryotes displayed complex fingerprints composed of a large number of bands: 16 to 59 bands were obtained with the prokaryotic primer set; 21 to 52 bands for the eukaryotic primer set. The DGGE-patterns were analyzed in relation to water quality parameters by canonical correspondence analysis (CCA). Temperature, pH, alkalinity, and the concentration of COD, TP and TN were strongly correlated with the DGGE patterns. The parameters that demonstrated a strong correlation to the DGGE fingerprints of the plankton community differed among lakes, suggesting that differences in the DGGE fingerprints were due mainly to lake trophic status. Results of the present study suggest that PCR-DGGE fingerprinting is an effective and precise method of identifying changes to plankton community composition, and therefore could be a useful ecological tool for monitoring the response of aquatic ecosystems to environmental perturbations.

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Plankton Community Succession in Artificial Systems Subjected to Cyanobacterial Blooms Removal using Chitosan-Modified Soils

Cited by 20 publications

References 16 publications

Impacts of algal blooms removal by chitosan-modified soils on zooplankton community in Taihu Lake, China

Impacts of algal blooms removal by chitosan-modified soils on zooplankton community in Taihu Lake, China

Metagenome-based analysis: A promising direction for plankton ecological studies

PCR‐DGGE Fingerprinting Analysis of Plankton Communities and Its Relationship to Lake Trophic Status

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