Environmental factors influencing the quantitative distribution of microcystin and common potentially toxigenic cyanobacteria in U.S. lakes and reservoirs

Beaver, John R.; Tausz, Claudia E.; Scotese, Kyle C.; Pollard, Amina I.; Mitchell, Richard M.

doi:10.1016/j.hal.2018.08.004

Cited by 54 publications

(30 citation statements)

References 62 publications

(80 reference statements)

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“…Dominance was determined by a combination of (i) water column characteristics, that are related to the intensity of local anthropogenic pressures (TN and TN:TP) and meteorological conditions (water temperature and stratification), and (ii) the capacity of waterbodies to buffer these pressures (surface, depth) or the potential for immigration of taxa from other lakes including harmful algea (connection to the hydrological network). Our results support previous investigations showing that high N concentrations (Almanza et al, 2018;Beaver et al, 2018;Bonilla et al, 2012;Marion et al, 2017;Paerl and Otten, 2016;Persaud et al, 2015) and warmer waters (Dokulil and Teubner, 2000;Paerl and Huisman, 2008;Wagner and Adrian, 2009) favor the dominance of Cyanobacteria in phytoplankton communities at large scales. This is thought to be related to the particular ecological traits of these organisms (Mantzouki et al, 2016), such as higher increase in growth rates per unit of temperature compared with other groups (Carey et al, 2012), their ability to fix atmospheric N 2 , or to regulate their buoyancy in stratified water columns associated with warmer waters (Rinke et al, 2010).…”

Section: Drivers Of Dominance In Phytoplankton Communities From the Psupporting

confidence: 92%

“…dominance in phytoplankton communities are still relatively scarce (Almanza et al, 2018) or were mostly focused on Cyanobacteria (Beaver et al, 2018;Marion et al, 2017;O'Farrell et al, 2019) and sometimes on only one or two species (Bonilla et al, 2012;Marmen et al, 2016). Moreover, there is no comparison of the consequence of dominance by various organisms on the structure and functioning of phytoplankton communities.…”

Section: U N C O R R E C T E D P R O O Fmentioning

confidence: 99%

“…Continental aquatic ecosystems are considered among the most vulnerable to the combined pressure of anthropogenic activities and climate change (Adrian et al, 2009). In the recent decades, these pressures have led to an increase in the frequency and intensity of phytoplankton blooms in lakes all around the world (Aguilera et al, 2017b;Almanza et al, 2018;Beaver et al, 2018;Dokulil and Teubner, 2000;Moura et al, 2018;Ndlela et al, 2016;Paerl and Huisman, 2008;Paerl and Otten, 2016). Phytoplankton blooms correspond to rapid increases of primary producer's biomass, often associated with the dominance of only a handful of taxa.…”

Section: Introductionmentioning

confidence: 99%

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Drivers and ecological consequences of dominance in periurban phytoplankton communities using networks approaches

et al. 2019

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HAL is a multidisciplinary open access archive for the deposit and dissemination of scientific research documents, whether they are published or not. The documents may come from teaching and research institutions in France or abroad, or from public or private research centers. L'archive ouverte pluridisciplinaire HAL, est destinée au dépôt et à la diffusion de documents scientifiques de niveau recherche, publiés ou non, émanant des établissements d'enseignement et de recherche français ou étrangers, des laboratoires publics ou privés.

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Section: Drivers Of Dominance In Phytoplankton Communities From the Psupporting

confidence: 92%

Section: U N C O R R E C T E D P R O O Fmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Drivers and ecological consequences of dominance in periurban phytoplankton communities using networks approaches

et al. 2019

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“…As an important component in aquatic coastal ecosystems, marine picophytoplankton are vital contributors of primary production [2] and perform a range of ecological roles in carbon xation, nutrient cycling and regulating overall food-web dynamics [3]. Nevertheless, eutrophication of aquatic ecosystems has led to an increase in the frequency and intensity of picophytoplankton blooms worldwide, which generally represent the rst responders to environmental perturbation [4][5][6]. This is of particular concern in densely populated shores where the usage and impacts of human populations on coastal ecosystems are strongly interconnected.…”

Section: Introductionmentioning

confidence: 99%

Trophic States Regulate Assembly Processes and Network Structures of Picophytoplankton Communities in Subtropical Coastal Ecosystems

Chen

Zhao

Jiang

et al. 2020

Preprint

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Background: Long-term coastal eutrophication especially in semi-enclosed marine areas is driven by increased amounts of nutrients derived from anthropogenic activities. Given that accelerating nutrients may constitute a strong environmental filter, understanding the diversity, assembly process and co-occurrence pattern of picophytoplankton communities in response to increasing coastal eutrophication is clearly of great importance. Results: We investigated picophytoplankton community changes using rbcL gene amplicon sequencing. The results exhibited that the alpha diversity (ANOVA, p < 0.001) and beta diversity (ANOSIM, p < 0.001) were significantly different among eutrophic states. Further, phylogenetic based β-nearest taxon distance analyses revealed that stochastic processes mainly provided 69.26% contribution to picophytoplankton community assembly, whereas deterministic processes dominated community assembly in a heavy eutrophic state. Integrated co-occurrence networks modularly responded to eutrophic states and revealed that keystone taxa mainly belonged to the oligo eutrophic group, which may play fundamental roles in network persistence. Importantly, increased environmental disturbances, such as nitrogen and phosphorus nutrients, could alter picophytoplankton community structure and disrupt ecological processes. Conclusion: Stochastic and deterministic processes simultaneously influenced the assembly of picophytoplankton communities in the subtropical coastal ecosystems. Eutrophic disturbances alert the assembly processes and network structures of picophytoplankton community. Our findings promote the understanding of fundamental ecological processes along eutrophic gradients in subtropical coastal ecosystems.

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“…xation, nutrient cycling and regulating overall food-web dynamics (Bolaños et al, 2020;Capblancq, 1990;Falkowski et al, 1998). Furthermore, SCP generally become an important indicator of ecological change in marine ecosystems responding to environmental perturbation (Almanza et al, 2019;Beaver et al, 2018;Monchamp et al, 2018).…”

Section: Introductionmentioning

confidence: 99%

Trophic states regulate assembly processes and network structures of small chromophytic phytoplankton communities in subtropical coastal ecosystem

Chen

Zhao

Jiang

et al. 2020

Preprint

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Small chromophytic phytoplankton (SCP) are anticipated to be more important for a significant proportion of primary production in estuarine-coastal ecosystems. However, responses of SCP community to coastal eutrophication are still unclear. In this study, we investigated diversity, co-occurrence and assembly features of SCP communities, as well as their relationship with environmental factors in the subtropical Beibu Gulf. The results exhibited that the alpha diversity (ANOVA, p < 0.001) and beta diversity (ANOSIM, p < 0.001) of SCP communities were significantly different among eutrophic states. Co-occurrence network analysis revealed a complex interaction between SCP community and environmental factors. Most ASVs in modules of the network were specific to trophic states. Further, phylogenetic based β-nearest taxon distance analyses revealed that stochastic processes mainly provided 69.26% contribution to SCP community assembly, whereas deterministic processes dominated community assembly in a heavy eutrophic state. Importantly, increased environmental disturbances, such as nitrogen and phosphorus nutrients, could alter SCP community structure and disrupt ecological processes. Overall, our findings elucidate the mechanism of diversity and assembly in marine SCP community and promote the understanding of SCP ecology related to subtropical coastal eutrophication.

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Environmental factors influencing the quantitative distribution of microcystin and common potentially toxigenic cyanobacteria in U.S. lakes and reservoirs

Cited by 54 publications

References 62 publications

Drivers and ecological consequences of dominance in periurban phytoplankton communities using networks approaches

Drivers and ecological consequences of dominance in periurban phytoplankton communities using networks approaches

Trophic States Regulate Assembly Processes and Network Structures of Picophytoplankton Communities in Subtropical Coastal Ecosystems

Trophic states regulate assembly processes and network structures of small chromophytic phytoplankton communities in subtropical coastal ecosystem

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