Your search keyword '"Cyanobacterial bloom"' showing total 961 results

1. High Ca2+ concentrations enhance Microcystis colony formation through upregulating polysaccharide-, energy metabolism-, and transmembrane transport-related pathways

Author

Zhang, Ping, Zhu, Yazhi, Xiong, Chao, Xiao, Yan, Li, Kai, and Wang, Han

Published

2025

2. Intra-colony light regulates morphology diversity of colonial cyanobacteria

Author

Duan, Zhipeng, Feng, Ganyu, Tan, Xiao, and Zhu, Rui

Published

2025

3. The shifts in microbial interactions and gene expression caused by temperature and nutrient loading influence Raphidiopsis raciborskii blooms

Author

Zheng, Baohai, Zhou, Ling, Wang, Jinna, Dong, Peichang, Zhao, Teng, Deng, Yuting, Song, Lirong, Shi, Junqiong, and Wu, Zhongxing

Published

2025

4. Microcystin-LR induces fatty liver metabolic disease in zebrafish through the PPARα-NOD1 pathway: In vivo, in vitro, and in silico investigations

Author

Ou-Yang, Kang, He, Ya, Yang, Hui, Wang, Liangmou, Zhang, Qian, Li, Dapeng, and Li, Li

Published

2025

5. Effect of nutrient enrichment and climate change on historical changes of the cyanobacterial community in a shallow north temperate lake in China

Author

Li, Danmin, Si, Yujie, Yan, Xiaomeng, Kattel, Giri, Kang, Xianjiang, and Liu, Bo

Published

2025

6. Insights into cyanobacterial blooms through the lens of omics

Author

Le, Ve Van, Tran, Quynh-Giao, Ko, So-Ra, Oh, Hee-Mock, and Ahn, Chi-Yong

Published

2024

7. β-cyclocitral, a novel AChE inhibitor, contributes to the defense of Microcystis aeruginosa against Daphnia grazing

Author

Chen, Wenkai, Dou, Jun, Xu, Xueying, Ma, Ximeng, Chen, Jiying, and Liu, Xiangjiang

Published

2024

8. Quantifying the effects of wind wave on cyanobacterial blooms in large shallow lake from 10 years high frequency satellite observation.

Author

Guan, Minsha, Zhang, Yunlin, Li, Wei, Li, Na, Qi, Lin, Shi, Kun, Zhang, Yibo, Qin, Boqiang, and Huang, Changchun

Subjects

*WIND waves, *GROWING season, *LAKES, *LIFE sciences, *SPRING, *CYANOBACTERIAL blooms

Abstract

Wind deeply impacts the short-term temporal-spatial dynamics of cyanobacterial blooms in large, shallow and eutrophic lakes, but the quantitative contributions of wind wave to cyanobacterial blooms remain unclear. In this study, we assessed the frequency of surface cyanobacterial blooms, in response to wind wave in Lake Taihu, China, based on high-frequency hourly GOCI images and long-term meteorological, hydrological and ecological environment records from 2011 to 2020. Results showed marked monthly and seasonal variabilities of cyanobacterial blooms frequency with two peaks in summer and autumn. Spatially, the prevailing wind directions from summer to winter, shifting from southeast to northwest winds, promoted the downwind horizontal drift and accumulation of surface cyanobacterial blooms from northwest to southwest in Lake Taihu. Moreover, we found significantly negative correlations between wind wave and cyanobacterial bloom frequency, particularly during the cyanobacterial bloom growth season from April to November. Further analysis revealed the determining role of wind wave in controlling cyanobacterial bloom dynamics in Lake Taihu, with contributions of 62.12% and 57.63% in spring and summer, respectively. Our findings offer an important scientific insight for the effective collection of harmful blooms in inland freshwater lakes under both nutrient management and climate change scenarios. [ABSTRACT FROM AUTHOR]

Published

2025

9. Organic iron at ultralow doses catalyzes hydrogen peroxide to eliminate cyanobacterial blooms: a study on algicidal effects and mechanisms under natural conditions.

Author

Lin, Yongdong, Niu, Ziru, Li, Juan, Li, Sijin, Li, Hai, and Li, Lei

Subjects

IRON, HYDROGEN peroxide, CYANOBACTERIA, ALGICIDES, GOETHITE

Abstract

Hydrogen peroxide (H2O2) is gaining recognition as an eco-friendly and highly effective algicide for combating cyanobacterial blooms. This study investigates the algicidal potential of H2O2 catalyzed by both inorganic and organic iron. Our findings indicate that inorganic iron (FeSO4) shows minimal catalytic activity on H2O2 under varying light conditions. In contrast, organic iron, specifically the combination of H2O2, EDTANaFe, and light irradiation, demonstrates significant algicidal effects. The optimal dosages were identified as 10 mg/L for H2O2 and 3 mg/L for Fe3+.The limited efficacy of inorganic iron stems from the transformation of Fe2+ to Fe3+ ions via the Fenton reaction. Under neutral conditions, Fe3+ ions precipitate as large-sized goethite, which adheres to the extracellular polymeric substances (EPS) of cyanobacterial cells, thereby hindering H2O2 catalysis and hydroxyl radical (·OH) formation in natural waters. Conversely, the combination of light radiation and organic iron salts greatly enhances the algicidal efficiency of H2O2. This synergy accelerates H2O2 decomposition and facilitates the production of a substantial amount of OH radicals by altering the Gibbs free energy. Thus, bright and sunny conditions, particularly in the afternoon, are crucial for effectively combating cyanobacterial blooms using Fenton-like reagents. The methodology presented in this study offers a viable solution to global cyanobacteria bloom issues and elucidates the mechanisms driving its efficacy. [ABSTRACT FROM AUTHOR]

Published

2025

10. Cyanosphere Dynamic During Dolichospermum Bloom: Potential Roles in Cyanobacterial Proliferation.

Author

Fuster, Maxime, Ruiz, Thomas, Lamarque, Amélie, Coulon, Marianne, Legrand, Benjamin, Sabart, Marion, Latour, Delphine, and Mallet, Clarisse

Abstract

Under the effect of global change, management of cyanobacterial proliferation becomes increasingly pressing. Given the importance of interactions within microbial communities in aquatic ecosystems, a handful of studies explored the potential relations between cyanobacteria and their associated bacterial community (i.e., cyanosphere). Yet, most of them specifically focused on the ubiquitous cyanobacteria Microcystis, overlooking other genera. Here, based on 16s rDNA metabarcoding analysis, we confirmed the presence of cyanosphere representing up to 30% of the total bacterial community diversity, during bloom episode of another preponderant cyanobacterial genus, Dolichospermum. Moreover, we highlighted a temporal dynamic of this cyanosphere. A sPLS-DA model permits to discriminate three important dates and 220 OTUs. With their affiliations, we were able to show how these variations potentially imply a turnover in ecological functions depending on bloom phases. Although more studies are necessary to quantify the impacts of these variations, we argue that cyanosphere can have an important, yet underestimated, role in the modulation of cyanobacterial blooms. [ABSTRACT FROM AUTHOR]

Published

2024

11. Phylogenetic Structure of Bacterioplankton in Water Bodies of the Kuibyshev Reservoir Basin during Cyanobacterial Bloom.

Author

Umanskaya, M. V. and Gorbunov, M. Yu.

Subjects

*CYANOBACTERIAL blooms, *URBAN lakes, *HYPERVARIABLE regions, *BODIES of water, *NUCLEOTIDE sequencing, *BACTERIOPLANKTON

Abstract

The phylogenetic structure of bacterioplankton of the Usa Bay and the adjacent area of the Kuibyshev Reservoir, as well as three hydrologically connected urban lakes of the Kaban system (Kazan), was analyzed using the results of high-throughput sequencing of the V3–V4 hypervariable region of the 16S rRNA gene. In the studied water objects, mass cyanobacterial development was observed, dominated by members of the phylogenetic lines Aphanizomenon/Dolichospermum and Cyanobium and the genus Planktothrix. Alpha- and betaproteobacteria dominated in the heterotrophic bacterioplankton of all stations. A significant proportion of its composition was made up of mixotrophic bacteria with the rhodopsin type of photosynthesis (for example, Ca. Fonsibacter, Ca. Nanopelagicus, and Ca. Planctophila). A characteristic feature of the studied samples was a high proportion of bacteria of PVC superphylum, especially Planctomycetota. The relationship between the composition and structure of bacterioplankton and the composition of the dominant cyanobacterial complexes was assessed, and heterotrophic OTUs assemblages associated with different types of cyanobacteria were identified. The most numerous assemblage is formed around Aphanizomenon–Dolichospermum–Microcystis and mainly consists of bacteria included in the phycosphere of colonial cyanobacteria, as well as representatives of the PVC superphylum. Two small assemblages form around Limnothrix redekei and Cyanobium rubescens and consist of typical planktonic bacteria belonging mainly to the order Flavobacteriales and the family Nanopelagicaceae. [ABSTRACT FROM AUTHOR]

Published

2024

12. Predicting Imminent Cyanobacterial Blooms in Lakes Using Incomplete Timely Data

Author

Heggerud, Christopher M, Xu, Jingjing, Wang, Hao, Lewis, Mark A, Zurawell, Ron W, Loewen, Charlie JG, Vinebrooke, Rolf D, and Ramazi, Pouria

Subjects

Hydrology, Earth Sciences, Engineering, Civil Engineering, Environmental Engineering, Life on Land, cyanobacterial bloom, Bayesian network, predictive ecology, machine learning, environmental covariates, Physical Geography and Environmental Geoscience, Civil engineering, Environmental engineering

Abstract

Abstract: Toxic cyanobacterial blooms (CBs) are becoming more frequent globally, posing a threat to freshwater ecosystems. While making long‐range forecasts is overly challenging, predicting imminent CBs is possible from precise monitoring data of the underlying covariates. It is, however, infeasibly costly to conduct precise monitoring on a large scale, leaving most lakes unmonitored or only partially monitored. The challenge is hence to build a predictive model that can use the incomplete, partially‐monitored data to make near‐future CB predictions. By using 30 years of monitoring data for 78 water bodies in Alberta, Canada, combined with data of watershed characteristics (including natural land cover and anthropogenic land use) and meteorological conditions, we train a Bayesian network that predicts future 2‐week CB with an area under the curve (AUC) of 0.83. The only monitoring data that the model needs to reach this level of accuracy are whether the cell count and Secchi depth are low, medium, or high, which can be estimated by advanced high‐resolution imaging technology or trained local citizens. The model is robust against missing values as in the absence of any single covariate, it performs with an AUC of at least 0.78. While taking a major step toward reduced‐cost, less data‐intensive CB forecasting, our results identify those key covariates that are worth the monitoring investment for highly accurate predictions.

Published

2024

13. Lake Avernus Has Turned Red: Bioindicator Monitoring Unveils the Secrets of Gates of Hades.

Author

Esposito, Germana, Glukhov, Evgenia, Medio, Gabriele, Teta, Roberta, Lega, Massimiliano, Costantino, Valeria, and Gerwick, William

Subjects

anabenopeptins, bioindicators, cyanobacterial bloom, cyanotoxins, molecular networking, remote sensing, Cyanobacteria, Environmental Biomarkers, Environmental Monitoring, Italy, Lakes, Microcystins

Abstract

Lake Avernus is a volcanic lake located in southern Italy. Since ancient times, it has inspired numerous myths and legends due to the occurrence of singular phenomena, such as coloring events. Only recently has an explanation been found for them, i.e., the recurring color change over time is due to the alternation of cyanobacterial blooms that are a consequence of natural nutrient inputs as well as pollution resulting from human activities. This current report specifically describes the red coloring event that occurred on Lake Avernus in March 2022, the springtime season in this region of Italy. Our innovative multidisciplinary approach, the Fast Detection Strategy (FDS), was devised to monitor cyanobacterial blooms and their toxins. It integrates remote sensing data from satellites and drones, on-site sampling, and analytical/bioinformatics analyses into a cohesive information flow. Thanks to FDS, we determined that the red color was attributable to a bloom of Planktothrix rubescens, a toxin-producing cyanobacterium. Here, we report the detection and identification of 14 anabenopeptins from this P. rubescens strain, seven of which are known and seven are newly reported herein. Moreover, we explored the mechanisms and causes behind this cyclic phenomenon, confirming cyanobacterias role as reliable indicators of environmental changes. This investigation further validates FDSs effectiveness in detecting and characterizing cyanobacterial blooms and their associated toxins, expanding its potential applications.

Published

2023

14. Double effects of mitigating cyanobacterial blooms using modified clay technology: regulation and optimization of the microbial community structure.

Author

Zhu, Jianan, Yu, Zhiming, Cao, Xihua, Jiang, Wenbin, He, Liyan, Zang, Xiaomiao, and Song, Xiuxian

Subjects

BODIES of water, ALGAL blooms, ALGAL communities, PLANKTON blooms, CLIMATE change, CYANOBACTERIAL blooms, MICROCYSTIS

Abstract

Harmful algal blooms (HABs) are global hazards under global climate change and eutrophication conditions. Modified clay (MC) method is widely used to control HABs in Asian and American coastal waters. However, little research has been conducted on the underlying mechanisms by which MC controls blooms in freshwater environments. Herein, experiments and bioinformatics analyses were conducted for MC-based control of freshwater blooms in a closed water body with an area of approximately 240 m2 in the Fuchun River, China. Results revealed that the dominant bloom species were Microcystis , and an 87.68–97.01% removal efficiency of whole algal biomass was achieved after 3 h of MC treatment. The weaker zeta potentials of Microcystis species and hydrophilic groups such as O-H and P-O-P in the extracellular polymeric substances (EPS) surrounding Microcystis cells made them easier to be flocculated and removed by MC particles, and the relative abundance of Microcystis decreased to 29.12% and that of Cyanobium increased to 40.97%. Therefore, MC changes the cyanobacterial community structure, which is accompanied by the elimination of Microcystis sp. apical dominance and enhanced competition between Cyanobium and Microcystis in the phytoplankton community, increasing cyanobacterial community diversity. Under MC treatment, residual microorganisms, including cyanobacteria, had a high potential for DNA damage repair and were more likely to survive after being subjected to oxidative stress. In the meanwhile, the abundance of genes involved in genetic information processing, signal transduction, and photosynthesis was decreased indicating that the residual microbiome was week in proliferation and light energy harvesting. Therefore, accompanied with the destruction of Microcystis colonies, MC changes the function of cyanobacteria and phycosphere microbiome, further hindering bloom development. These findings illustrate that MC can regulate and optimize the microbial community structure through which MC controls cyanobacterial blooms in ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

15. Potential health risk assessment of cyanobacteria across global lakes.

Author

Hang Hu, Zhenyan Zhang, Bingfeng Chen, Qi Zhang, Nuohan Xu, Paerl, Hans W., Tingzhang Wang, Wenjie Hong, Penuelas, Josep, and Haifeng Qian

Subjects

*HEALTH risk assessment, *METABOLITES, *ENVIRONMENTAL risk, *CYANOBACTERIAL toxins, *MACHINE learning, *CYANOBACTERIAL blooms

Abstract

Cyanobacterial blooms pose environmental and health risks due to their production of toxic secondary metabolites. While current methods for assessing these risks have focused primarily on bloom frequency and intensity, the lack of comprehensive and comparable data on cyanotoxins makes it challenging to rigorously evaluate these health risks. In this study, we examined 750 metagenomic data sets collected from 103 lakes worldwide. Our analysis unveiled the diverse distributions of cyanobacterial communities and the genes responsible for cyanotoxin production across the globe. Our approach involved the integration of cyanobacterial biomass, the biosynthetic potential of cyanotoxin, and the potential effects of these toxins to establish potential cyanobacterial health risks. Our findings revealed that nearly half of the lakes assessed posed medium to high health risks associated with cyanobacteria. The regions of greatest concern were East Asia and South Asia, particularly in developing countries experiencing rapid industrialization and urbanization. Using machine learning techniques, we mapped potential cyanobacterial health risks in lakes worldwide. The model results revealed a positive correlation between potential cyanobacterial health risks and factors such as temperature, N2O emissions, and the human influence index. These findings underscore the influence of these variables on the proliferation of cyanobacterial blooms and associated risks. By introducing a novel quantitative method for monitoring potential cyanobacterial health risks on a global scale, our study contributes to the assessment and management of one of the most pressing threats to both aquatic ecosystems and human health. IMPORTANCE Our research introduces a novel and comprehensive approach to potential cyanobacterial health risk assessment, offering insights into risk from a toxicity perspective. The distinct geographical variations in cyanobacterial communities coupled with the intricate interplay of environmental factors underscore the complexity of managing cyanobacterial blooms at a global scale. Our systematic and targeted cyanobacterial surveillance enables a worldwide assessment of cyanobacteria-based potential health risks, providing an early warning system. [ABSTRACT FROM AUTHOR]

Published

2024

16. Changes in the ecosystem structure and function of a cyanobacteria bloom-dominated, shallow lake after ten-year eutrophication management.

Author

Pan, Min, Dong, Jinyan, Zhang, Zhizhong, Zhang, Liyuan, Guo, Yanying, Yang, Jiaojiao, Huang, Licheng, Wang, Chunbo, Shan, Kun, Wang, Haijun, and Liu, Yongding

Subjects

*ENVIRONMENTAL sciences, *CYANOBACTERIAL blooms, *LIFE sciences, *ENVIRONMENTAL management, *FISHERY management

Abstract

Large and shallow lakes are widely influenced by multiple anthropogenic stressors, including eutrophication. Normally, diverse strategies of eutrophication management are needed to restore the lake ecosystems. Dianchi Lake, a subtropical plateau lake in Yunnan Province, SW China, has long experienced the effects of eutrophication and cyanobacterial blooms. To mitigate the eutrophication of Dianchi Lake, various efforts have been implemented since 2000, including reducing nutrient inputs, reestablishing aquatic macrophytes in lakeside zones, manipulating fishes and so on. However, little is known about the changes in its ecosystem structure and function after long-term efforts of eutrophication management in the lake. Therefore, this study on such changes was conducted by comparing the field data-based Ecopath models between 2009 and 2019, a decade marked by a rapid implementation of eutrophication management policies. Results show that both top-down and bottom-up processes have influenced the ecosystem structure and function. First, over this decade, nutrient reduction significantly reduced phytoplankton biomass by 49.4%. Nutrient recycling and path length in food web began to decrease, as indicated by the decrease of Finn's cycling index and Finn's mean path length. Secondly, fishing management strategy has greatly changed the composition of fish assemblage, which was dominated by the small zooplantivorous fishes with ecological niche overlapping with shrimps. In general, the stability of the ecosystem has been decreasing, due to the dramatic decrease in zooplankton biomass (83.67%) and hence a collapse of the microbial loop in the food web. Therefore, we strongly advocate the persistent efforts to mitigate the risk of recurrent cyanobacteria blooms in Dianchi Lake, necessitating stricter regulation of nutrient levels and implementing effective fish population management techniques. [ABSTRACT FROM AUTHOR]

Published

2024

17. Extensive Genomic Rearrangement of Catalase-Less Cyanobloom-Forming Microcystis aeruginosa in Freshwater Ecosystems.

Author

Kim, Minkyung, Jung, Jaejoon, Kim, Wonjae, Park, Yerim, Jeon, Che Ok, and Park, Woojun

Abstract

Many of the world's freshwater ecosystems suffer from cyanobacteria-mediated blooms and their toxins. However, a mechanistic understanding of why and how Microcystis aeruginosa dominates over other freshwater cyanobacteria during warmer summers is lacking. This paper utilizes comparative genomics with other cyanobacteria and literature reviews to predict the gene functions and genomic architectures of M. aeruginosa based on complete genomes. The primary aim is to understand this species' survival and competitive strategies in warmer freshwater environments. M. aeruginosa strains exhibiting a high proportion of insertion sequences (~ 11%) possess genomic structures with low synteny across different strains. This indicates the occurrence of extensive genomic rearrangements and the presence of many possible diverse genotypes that result in greater population heterogeneities than those in other cyanobacteria in order to increase survivability during rapidly changing and threatening environmental challenges. Catalase-less M. aeruginosa strains are even vulnerable to low light intensity in freshwater environments with strong ultraviolet radiation. However, they can continuously grow with the help of various defense genes (e.g., egtBD, cruA, and mysABCD) and associated bacteria. The strong defense strategies against biological threats (e.g., antagonistic bacteria, protozoa, and cyanophages) are attributed to dense exopolysaccharide (EPS)-mediated aggregate formation with efficient buoyancy and the secondary metabolites of M. aeruginosa cells. Our review with extensive genome analysis suggests that the ecological vulnerability of M. aeruginosa cells can be overcome by diverse genotypes, secondary defense metabolites, reinforced EPS, and associated bacteria. [ABSTRACT FROM AUTHOR]

Published

2024

18. Undibacterium cyanobacteriorum sp. nov., an auxin-producing bacterium isolated from fresh water during cyanobacterial bloom period.

Author

Van Le, Ve, Ko, So-Ra, Nguyen, Loan Thi Thanh, Kim, Jin-Cheol, Shin, Yuna, Kim, Kyunghyun, and Ahn, Chi-Yong

Abstract

A novel Gram-negative, white-pigmented, and auxin-producing strain, 20NA77.5T, was isolated from fresh water during cyanobacterial bloom period. Pairwise comparison of the 16S rRNA gene sequences showed that strain 20NA77.5T belonged to the genus Undibacterium and exhibited the highest sequence similarity to the type strains of Undibacterium danionis (98.00%), Undibacterium baiyunense (97.93%), Undibacterium macrobrachii (97.92%), and Undibacterium fentianense (97.71%). The average nucleotide identity (ANI) and digital DNA–DNA hybridization (dDDH) values between strain 20NA77.5T and its related type strains were below 79.93 and 23.80%, respectively. The predominant fatty acids (> 10% of the total fatty acids) were C16:0 and summed feature 3 (C16:1ω7c and/or C16:1ω6c). The genomic DNA G + C content of strain 20NA77.5T was found to be 48.61%. Based on the phylogenetic distinctness, chemotaxonomic features, and phenotypic features, strain 20NA77.5T is considered to represent a novel species of the genus Undibacterium, for which the name Undibacterium cyanobacteriorum sp. nov is proposed. The type strain is 20NA77.5T (= KCTC 8005T = LMG 33136T). [ABSTRACT FROM AUTHOR]

Published

2024

19. Seasonal Rise in the Contents of Microcystin-LR and Odorous Substances Due to Cyanobacterial Blooms in a Drinking Water Reservoir Supplying Xinyang City, China.

Author

Zhao, Wei, Liu, Yang, Li, Hua, Ma, Junguo, and Li, Xiaoyu

Subjects

*CYANOBACTERIAL blooms, *DRINKING water quality, *WATER pollution, *PLANKTON blooms, *DRINKING water, *CYANOBACTERIAL toxins

Abstract

Cyanobacterial blooms have become a serious water pollution problem in many parts of the world, and the monitoring and study of the impacts of biotoxins on human health are of vital importance. In this study, the contents of microcystin-LR, 2-methylisoborneol, and geosmin were measured in water and sediment samples from Nanwan Reservoir, China, by means of bimonthly sampling between February and December 2023. The physicochemical and hydrochemical factors and phytoplankton dynamics in the reservoir were also investigated. The results showed that the overall mean concentration of microcystin-LR (0.729 μg/L) in summer approached the guiding standard (1 μg/L) set by the WHO for drinking water. Furthermore, the content of 2-methylisoborneol (143.5 ng/L) was 14 times higher than the national standard (10 ng/L). The results of laboratory cultures showed that lower light levels and medium temperatures were suitable for the growth of Microcystis and Planktothricoides but higher temperatures promoted the synthesis and release of microcystin-LR and 2-methylisoborneol. In addition, the results of co-cultures showed that the growth of Planktothricoides was inhibited by Microcystis. Our results suggest that cyanobacterial bloom and the presence of the metabolites 2-methylisoborneol and microcystin-LR can decrease the drinking water quality of Nanwan Reservoir. [ABSTRACT FROM AUTHOR]

Published

2024

20. Response of the Cyanobacteria Plankton Community to Anthropogenic Impact in Small Lakes of Urbanized Territory in the Permafrost Zone of Northeast Asia (Eastern Siberia, Yakutia).

Author

Barinova, Sophia, Gabyshev, Viktor A., and Gabysheva, Olga I.

Subjects

ANTHROPOGENIC effects on nature, METROPOLITAN areas, WATER quality, HOT weather conditions, PUBLIC utilities, PERMAFROST ecosystems

Abstract

In the conditions of growing anthropogenic pressure, aquatic ecosystems all over the world are subject to transformation, expressed in the growth of eutrophication, increase in acidity, changes in water exchange, etc. In the region of Eastern Siberia we studied, located in Yakutia in the middle reaches of the Lena River basin, there is a significant population growth accompanied by advancements in agriculture and public utilities. The region is rich in small lakes, which have been under pressure from human activities for the past few decades. The studied region is located in the permafrost zone and is characterized by severe climatic conditions, cold long winters, short hot summers, and a short ice-free period on reservoirs. We studied 17 lakes of various genesis, with varying degrees of anthropogenic pressure, located in the largest city of the region, small villages, and at different distances from them. Previous studies have established that cyanobacteria constitute the phytoplankton main group in these lakes during the summer period. Therefore, we selected them as the focus for our bioindication analysis. An integrated assessment of the bioindication properties of cyanobacteria, along with chemical water parameters, was undertaken using statistical mapping methods, JASP, and Redundancy Analysis (RDA). This analysis revealed the impact of urbanized areas, characterized by a decrease in pH, runoff of nitrogen compounds, and an increase in organic matter. Despite the cryolithozone harsh conditions, in small lakes of urbanized areas, cyanobacteria exhibit their competitive advantages within the plankton community. The prospect of continuing our work is associated with the need to determine the risk of cyanoHAB development since potentially toxic cyanobacteria have a mass development in a number of lakes. [ABSTRACT FROM AUTHOR]

Published

2024

21. Organic iron at ultralow doses catalyzes hydrogen peroxide to eliminate cyanobacterial blooms: a study on algicidal effects and mechanisms under natural conditions

Author

Yongdong Lin, Ziru Niu, Juan Li, Sijin Li, Hai Li, and Lei Li

Subjects

fenton-like regent, organic iron, free radical, cyanobacterial bloom, EDTANaFe, Environmental engineering, TA170-171, Environmental technology. Sanitary engineering, TD1-1066

Abstract

Hydrogen peroxide (H2O2) is gaining recognition as an eco-friendly and highly effective algicide for combating cyanobacterial blooms. This study investigates the algicidal potential of H2O2 catalyzed by both inorganic and organic iron. Our findings indicate that inorganic iron (FeSO4) shows minimal catalytic activity on H2O2 under varying light conditions. In contrast, organic iron, specifically the combination of H2O2, EDTANaFe, and light irradiation, demonstrates significant algicidal effects. The optimal dosages were identified as 10 mg/L for H2O2 and 3 mg/L for Fe3+.The limited efficacy of inorganic iron stems from the transformation of Fe2+ to Fe3+ ions via the Fenton reaction. Under neutral conditions, Fe3+ ions precipitate as large-sized goethite, which adheres to the extracellular polymeric substances (EPS) of cyanobacterial cells, thereby hindering H2O2 catalysis and hydroxyl radical (·OH) formation in natural waters. Conversely, the combination of light radiation and organic iron salts greatly enhances the algicidal efficiency of H2O2. This synergy accelerates H2O2 decomposition and facilitates the production of a substantial amount of OH radicals by altering the Gibbs free energy. Thus, bright and sunny conditions, particularly in the afternoon, are crucial for effectively combating cyanobacterial blooms using Fenton-like reagents. The methodology presented in this study offers a viable solution to global cyanobacteria bloom issues and elucidates the mechanisms driving its efficacy.

Published

2025

22. Cyanobacterial Blooms in Environmental Water: Causes and Solutions

Author

Lakshmikandan, Manogaran, Li, Ming, and Pan, Baozhu

Published

2024

23. 滇池蓝藻水华时空变化特征及环境影响因素.

Author

龚 铭, 王百群, 赵方凯, and 于 洋

Subjects

*CYANOBACTERIAL blooms, *LAKE restoration, *RESTORATION ecology, *WATER pollution, *WIND speed

Abstract

[Objective] The objectives of this study are to clarify the evolution characteristics of eutrophication and the status of comprehensive treatment of water in Dianchi Lake as well as the main driving factors, so as to provide scientific support for water pollution control and ecological restoration in Dianchi Lake. [Methods] The Dianchi Lake was taken as the research object. GEE and remote sensing monitoring were used to analyze the spatiotemporal variation of cyanobacteria bloom in Dianchi Lake during 2002-2021 and the relationship between cyanobacteria bloom and environmental factors. [Results] The variation of cyanobacteria bloom area showed significant interannual characteristics during 2002-2021, and the peak values of cyanobacteria bloom area in 2006, 2013 and 2016 were 1.952×107, 2.010×10 and 1.743×107 m², respectively. The valley values of cyanobacteria bloom area in 2005, 2010 and 2014 were 1.243×107 m², 1.156×107 m² and 1.163×107 m², respectively. After 2016, it fluctuated steadily and had no obvious change trend on the whole. In 2021, the area was 1.709 × 107 m². At the monthly scale, the bloom of cyanobacteria mainly occurred from July to December, and reached its peak in August. It continued to decrease from November to February, and reached its trough in February. Through statistical analysis of the characteristics of cyanobacteria bloom and environmental factors in Dianchi Lake, the results showed that the cyanobacteria bloom had a positive correlation with temperature and precipitation, a significant negative correlation with wind direction (p< 0.05), and the closest significant correlation with wind direction (p<0.05). Among the four meteorological factors, the wind direction was the most important, and the easterly wind direction had a significant promoting effect on the coverage of cyanobacteria bloom in Dianchi Lake. [Conclusion] The overall fluctuation of cyanobacteria in Dianchi Lake remained stable without significant evolution trend, and the important driving role of wind direction and wind speed on cyanobacteria outbreak should be further considered in the future in term of water ecological restoration of Dianchi Lake. [ABSTRACT FROM AUTHOR]

Published

2024

24. Beyond the Bloom: Unraveling the Diversity, Overlap, and Stability of Free-Living and Particle-Attached Bacterial Communities in a Cyanobacteria-Dominated Hypereutrophic Lake.

Author

Xie, Guijuan, Sun, Chuanbo, Gong, Yi, Luo, Wenlei, and Tang, Xiangming

Subjects

*BACTERIAL communities, *CYANOBACTERIAL blooms, *LAKES, *EUTROPHICATION, *ENVIRONMENTAL auditing, *BACTERIAL diversity, *ECOSYSTEMS

Abstract

In aquatic ecosystems with low nutrient levels, organic aggregates (OAs) act as nutrient hotspots, hosting a diverse range of microbial species compared to those in the water column. Lake eutrophication, marked by intensified and prolonged cyanobacterial blooms, significantly impacts material and energy cycling processes, potentially altering the ecological traits of both free-living (FL) and particle-attached (PA) bacteria. However, the extent to which observed patterns of FL and PA bacterial diversity, community assembly, and stability extend to hypereutrophic lakes remains understudied. To address this gap, we investigated bacterial diversity, composition, assembly processes, and stability within hypereutrophic Lake Xingyun. Our results revealed that FL bacterial communities exhibited higher α-diversity than PA counterparts, coupled with discernible taxonomic compositions. Both bacterial communities showed distinct seasonality, influenced by cyanobacterial bloom intensity. Environmental factors accounted for 71.1% and 54.2% of the variation among FL and PA bacteria, respectively. The assembly of the PA bacterial community was predominantly stochastic, while FL assembly was more deterministic. The FL network demonstrated greater stability, complexity, and negative interactions, indicative of competitive relationships, while the PA network showed a prevalence of positive correlations, suggesting mutualistic interactions. Importantly, these findings differ from observations in oligotrophic, mesotrophic, and eutrophic lakes. Overall, this research provides valuable insights into the interplay among bacterial fractions, enhancing our understanding of nutrient status and cyanobacterial blooms in shaping bacterial communities. [ABSTRACT FROM AUTHOR]

Published

2024

25. Structure of plankton and waterbird communities under water level fluctuations: two case studies in shallow lakes of the Patagonian steppe.

Author

Porcel, Sol, Saad, Juan Francisco, Sabio y García, Carmen Alejandra, Saraceno, Martín, Marinone, María Cristina, Fasola, Laura, Roesler, Ignacio, Lancelotti, Julio, and Izaguirre, Irina

Subjects

*WATER levels, *LAKES, *STEPPES, *CYANOBACTERIAL blooms, *WATER quality, *PLANKTON, *WATER quality monitoring

Abstract

The Buenos Aires Lake Plateau, a unique semi-arid environment and priority area for waterbird conservation in Argentina, has recently shown reductions in lake sizes due to scarce rainfall. This study assessed the impact of contrasting hydrological conditions on the abiotic variables of lakes Chapu and Cervecero, as well as on the structure of plankton and how this affected the use of the lakes by waterbirds. We show that hydrological conditions shape the abiotic and biological features of these lakes. In 2015, both lakes were vegetated, but by 2016, their water level had dropped, causing decreased macrophyte coverage. In 2017, the lakes dried up completely, but were refilled the following year. The partial drought of 2015-2016 led to reduced concentrations of nutrients and food that support a high density and richness of birds, which are mostly aquatic and terrestrial feeders. After the extreme drought in 2017 and refilling phase in 2018, there was an improvement in the water quality of lake Chapu, as indicated by its increased clarity compared to that in 2015, while Cervecero remained turbid. Increased homogenization in plankton and waterbird species composition became evident in both lakes. There was a cyanobacteria bloom in Cervecero, while in Chapu Gammaproteobacteria were dominant. Both lakes supported few waterbirds, of which aquatic-terrestrial feeders and terrestrial herbivores were dominant. The abundance of the endemic and endangered hooded grebe (Podiceps gallardoi Rumboll 1974) declined with the cover of macrophytes, which these birds use when establishing their colonies. In sum, this study revealed changes in the conditions of lakes Chapu and Cervecero and their plankton communities in response to hydrological shifts, with implications for waterbird assemblages and, thus, biodiversity conservation. [ABSTRACT FROM AUTHOR]

Published

2024

26. Cyanobacterial Bloom Formation by Enhanced Ecological Adaptability and Competitive Advantage of Microcystis —Non-Negligible Role of Quorum Sensing.

Author

Zhang, Ziqing and Li, Jieming

Subjects

ALGAL communities, CYANOBACTERIAL blooms, CELL aggregation, EVIDENCE gaps, ECOSYSTEM health, QUORUM sensing

Abstract

Microcystis-dominated cyanobacterial blooms (MCBs) frequently occur in freshwaters worldwide due to massive Microcystis colony formation and severely threaten human and ecosystem health. Quorum sensing (QS) is a direct cause of Microcystis colony formation that drives MCBs outbreak by regulating Microcystis population characteristics and behaviors. Many novel findings regarding the fundamental knowledge of the Microcystis QS phenomenon and the signaling molecules have been documented. However, little effort has been devoted to comprehensively summarizing and discussing the research progress and exploration directions of QS signaling molecules-mediated QS system in Microcystis. This review summarizes the action process of N-acyl homoserine lactones (AHLs) as major signaling molecules in Microcystis and discusses the detailed roles of AHL-mediated QS system in cellular morphology, physiological adaptability, and cell aggregation for colony formation to strengthen ecological adaptability and competitive advantage of Microcystis. The research progress on QS mechanisms in Microcystis are also summarized. Compared to other QS systems, the LuxI/LuxR-type QS system is more likely to be found in Microcystis. Also, we introduce quorum quenching (QQ), a QS-blocking process in Microcystis, to emphasize its potential as QS inhibitors in MCBs control. Finally, in response to the research deficiencies and gaps in Microcystis QS, we propose several future research directions in this field. This review deepens the understanding on Microcystis QS knowledge and provide theoretical guidance in developing strategies to monitor, control, and harness MCBs. [ABSTRACT FROM AUTHOR]

Published

2024

27. 蓝藻水华的短期监测预警与防控策略.

Author

杨宏业, 陈迪, 袁云娟, 杨凯伦, 刘婉蓉, 黄舒欣, and 屈铭志

Abstract

Copyright of Environmental Science & Technology (10036504) is the property of Editorial Board of Environmental Science & Technology and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

28. Double effects of mitigating cyanobacterial blooms using modified clay technology: regulation and optimization of the microbial community structure

Author

Jianan Zhu, Zhiming Yu, Xihua Cao, Wenbin Jiang, Liyan He, Xiaomiao Zang, and Xiuxian Song

Subjects

cyanobacterial bloom, modified clay, bloom control, phytoplankton community structure, function of microbiome, Microbiology, QR1-502

Abstract

Harmful algal blooms (HABs) are global hazards under global climate change and eutrophication conditions. Modified clay (MC) method is widely used to control HABs in Asian and American coastal waters. However, little research has been conducted on the underlying mechanisms by which MC controls blooms in freshwater environments. Herein, experiments and bioinformatics analyses were conducted for MC-based control of freshwater blooms in a closed water body with an area of approximately 240 m2 in the Fuchun River, China. Results revealed that the dominant bloom species were Microcystis, and an 87.68–97.01% removal efficiency of whole algal biomass was achieved after 3 h of MC treatment. The weaker zeta potentials of Microcystis species and hydrophilic groups such as O-H and P-O-P in the extracellular polymeric substances (EPS) surrounding Microcystis cells made them easier to be flocculated and removed by MC particles, and the relative abundance of Microcystis decreased to 29.12% and that of Cyanobium increased to 40.97%. Therefore, MC changes the cyanobacterial community structure, which is accompanied by the elimination of Microcystis sp. apical dominance and enhanced competition between Cyanobium and Microcystis in the phytoplankton community, increasing cyanobacterial community diversity. Under MC treatment, residual microorganisms, including cyanobacteria, had a high potential for DNA damage repair and were more likely to survive after being subjected to oxidative stress. In the meanwhile, the abundance of genes involved in genetic information processing, signal transduction, and photosynthesis was decreased indicating that the residual microbiome was week in proliferation and light energy harvesting. Therefore, accompanied with the destruction of Microcystis colonies, MC changes the function of cyanobacteria and phycosphere microbiome, further hindering bloom development. These findings illustrate that MC can regulate and optimize the microbial community structure through which MC controls cyanobacterial blooms in ecosystems.

Published

2024

29. Optimizing UVA and UVC synergy for effective control of harmful cyanobacterial blooms

Author

Yinjie Zhu, Jian Ding, Xiaoxiong Wang, Xuejian Wang, Huansheng Cao, Fei Teng, Shishi Yao, Zhiru Lin, Yuelu Jiang, and Yi Tao

Subjects

Cyanobacterial bloom, Ultraviolet irradiation, Photosynthetic damage, DNA damage/repair, Regulated cell death, Environmental sciences, GE1-350, Environmental technology. Sanitary engineering, TD1-1066

Abstract

Harmful cyanobacterial blooms (HCBs) pose a global ecological threat. Ultraviolet C (UVC) irradiation at 254 nm is a promising method for controlling cyanobacterial proliferation, but the growth suppression is temporary. Resuscitation remains a challenge with UVC application, necessitating alternative strategies for lethal effects. Here, we show synergistic inhibition of Microcystis aeruginosa using ultraviolet A (UVA) pre-irradiation before UVC. We find that low-dosage UVA pre-irradiation (1.5 J cm−2) combined with UVC (0.085 J cm−2) reduces 85% more cell densities compared to UVC alone (0.085 J cm−2) and triggers mazEF-mediated regulated cell death (RCD), which led to cell lysis, while high-dosage UVA pre-irradiations (7.5 and 14.7 J cm−2) increase cell densities by 75–155%. Our oxygen evolution tests and transcriptomic analysis indicate that UVA pre-irradiation damages photosystem I (PSI) and, when combined with UVC-induced PSII damage, synergistically inhibits photosynthesis. However, higher UVA dosages activate the SOS response, facilitating the repair of UVC-induced DNA damage. This study highlights the impact of UVA pre-irradiation on UVC suppression of cyanobacteria and proposes a practical strategy for improved HCBs control.

Published

2024

30. Biotechnological approaches for suppressing Microcystis blooms: insights and challenges

Author

Kang, Mingyeong, Jeong, Seonah, Ko, So-Ra, Kim, Min-Seong, and Ahn, Chi-Yong

Published

2024

31. Metabolomics revealed that toxic cyanobacteria stress reduced the flavor quality of Bellamya aeruginosa.

Author

Yuqi Huang, Jinjie Zhang, Dalun Xu, Xiaohui Ren, Wen Yang, Kaihong Lu, and Jinyong Zhu

Subjects

CYTIDINE diphosphate choline, CYANOBACTERIAL blooms, GLUTAMIC acid, ADENOSINES, METABOLOMICS

Abstract

The environmental impact of increased eutrophication and frequent cyanobacterial blooms on the growth and reproduction of aquatic organisms has become increasingly prominent in recent years. Bellamya aeruginosa is a nutrient-rich aquatic snail consumed by humans, and environmental changes may decrease its meat quality. However, the specific characteristics of muscle metabolism and flavor quality in freshwater snails and their response patterns to bloom-forming cyanobacterial stress have not been reported. Therefore, in this study, alterations in metabolites in the snail muscle after following feeding on toxic Microcystis aeruginosa were investigated using untargeted metabolomics. A total of 1,128 metabolites were identified, and the metabolic pathways of unsaturated fatty acid biosynthesis and purine, glutathione, and glycerophospholipid metabolism in snails fed toxic cyanobacteria differed from those in snails fed Chlorella vulgaris. Quantitative analysis showed increased levels of bitter-free amino acids, such as tyrosine, phenylalanine, and histidine, after consuming toxic cyanobacteria for 42 d, whereas a relative decrease was observed in the levels of umami- and sweet-free amino acids, such as glutamic acid, aspartic acid, serine, threonine, and glicine. The muscles of snails fed toxic cyanobacteria exhibited higher hypoxanthine and hypoxanthine nucleoside and lower adenosine triphosphate, adenine nucleotide, adenine nucleoside diphosphate, and hypoxanthine nucleotide contents than those of snails fed C. vulgaris. Furthermore, increased metabolites, such as stearic acid, palmitic acid, and cytidine diphosphate choline, and decreased metabolites, such as docosapentaenoic acid, docosahexaenoic acid, adrenoic acid, and L-glutamic acid, reflect the harmful effects of toxic cyanobacteria on the nutritional value and flesh quality of B. aeruginosa. This study comprehensively evaluated the effects of cyanobacterial blooms on freshwater gastropods, providing an important theoretical basis for the quality, safety, and sustainable development of snails as food and related processing industries. [ABSTRACT FROM AUTHOR]

Published

2024

32. First report of harmful Microcystis sp. and microcystin in two tributaries of Paraná River in Misiones, Argentina

Author

María de los Angeles Kolman, María Laura Miño, Isaias Emanuel Kunz, and Pedro Dario Zapata

Subjects

cyanobacterial bloom, Paraná River basin, water quality, Ecology, QH540-549.5

Abstract

Abstract Aim Characterize cyanobacterial accumulations detected for the first time from November 2020 to February 2022 along the coastal zone of the Paraná River and in the Zaimán and Mártires streams in Posadas (Misiones, Argentina), by identifying the dominant species, determining their potential toxicity, and monitoring their progression using satellite images. Methods This work analyzes the presence of cyanobacteria by optical microscopy, the production of microcystin (MCY) by molecular and analytical methods, and the detection of these cyanobacterial accumulations by satellite image analysis. Results Optical microscopy analysis revealed the presence of Microcystis spp. colonies in all collected samples and Dolichospermum sp. in the Mártires stream. Using PCR amplification of a conserved region of the mcyE gene we confirmed the presence of MCY-encoding genes in all samples and MCY in the Zaimán stream using UPLC MS/MS analysis. Complementary satellite image analysis showed blooms in the Zaimán and Mártires streams were detectable during all the sampling periods. The presence of Microcystis spp., and MCY could affect the population, as well as the flora and fauna in the streams and the ecosystems along the Paraná River basin. Conclusions In this study, we successfully characterized cyanobacterial accumulations along the Paraná River coast and in the Zaimán and Mártires streams, revealing the presence of Microcystis spp. colonies and MCY-encoding genes, with potential implications for local populations and ecosystems.

Published

2024

33. Sustainable control of Microcystis aeruginosa, a harmful cyanobacterium, using Selaginella tamariscina extracts

Author

Wonjae Kim, Yerim Park, Minkyung Kim, Yeji Cha, Jaejoon Jung, Che Ok Jeon, and Woojun Park

Subjects

Freshwater bacterial community, Nanopore sequencing, Cyanobacterial bloom, Plant extract, Amentoflavone, Ecotoxicity assessment, Environmental pollution, TD172-193.5, Environmental sciences, GE1-350

Abstract

Eco-friendly reagents derived from plants represent a promising strategy to mitigate the occurrence of toxic cyanobacterial blooms. The use of an amentoflavone-containing Selaginella tamariscina extract (STE) markedly decreased the number of Microcystis aeruginosa cells, thus demonstrating significant anti-cyanobacterial activity. In particular, the Microcystis-killing fraction obtained from pulverized S. tamariscina using hot-water-based extraction at temperatures of 40 °C induced cell disruption in both axenic and xenic M. aeruginosa. Liquid chromatographic analysis was also conducted to measure the concentration of amentoflavone in the STE, thus supporting the potential M. aeruginosa-specific killing effects of STE. Bacterial community analysis revealed that STE treatment led to a reduction in the relative abundance of Microcystis species while also increasing the 16S rRNA gene copy number in both xenic M. aeruginosa NIBR18 and cyanobacterial bloom samples isolated from a freshwater environment. Subsequent testing on bacteria, cyanobacteria, and algae isolated from freshwater revealed that STE was not toxic for other taxa. Furthermore, ecotoxicology assessment involving Aliivibrio fischeri, Daphnia magna, and Danio rerio found that high STE doses immobilized D. magna but did not impact the other organisms, while there was no change in the water quality. Overall, due to its effective Microcystis-killing capability and low ecotoxicity, aqueous STE represents a promising practical alternative for the management of Microcystis blooms.

Published

2024

34. Review on the current situation of algaecides for Microcystis aeruginosa：Performance and mechanisms

Author

JIN Jiyuan, HUANG Xinwen, CAO Ji, and WU Bingdang

Subjects

cyanobacterial bloom, algaecide, algicidal performance, algicidal mechanisms, microcystin, ecological safety, Environmental technology. Sanitary engineering, TD1-1066

Abstract

The cyanobacteria blooms caused by eutrophication has received widespread attention in recent years，which endanger the environment，destroy ecological environment and affect the normal life of human beings. The control of cyanobacterial blooms is one of the important issues to be solved at present. The chemical method of adding algaecide is very effective for timely control of cyanobacteria blooms. However，few studies have comprehensively summarized the practical application of common algaecides despite the attention given to their development. Some algaecides which have received much attention in recent years for the typical species of cyanobacteria were focused on. For Microcystis aeruginosa， a typical cyanobacteria， the algicidal effect，the working mechanism，the effect on the microcystin（MC），and the practical applications of these algaecides were reviewed. It was hoped to provide guidance for the selection of algaecides. Moreover，the potential risks of excessive background concentrations of allelopathic substances and long-term use of non-allelopathic substances have also been noted. Considering the algicidal effect and safety，the characteristics of the ecologically friendly algaecide were summarized. Additionally，strategies such as slow release and combined use were proposed to address current algaecide limitations.

Published

2024

35. 铜绿微囊藻杀藻剂的现状综述：性能及机理.

Author

金吉媛, 黄馨雯, 曹 杰, and 吴兵党

Abstract

Copyright of Industrial Water Treatment is the property of CNOOC Tianjin Chemical Research & Design Institute and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

36. Effects of Seasonal and Diel Variations in Thermal Stratification on Phytoplankton in a Regulated River.

Author

Jung, Eunsong, Joo, Gea-Jae, Kim, Hyo Gyeom, Kim, Dong-Kyun, and Kim, Hyun-Woo

Abstract

Thermal stratification is an important driver shaping phytoplankton community and their habitat condition in freshwater ecosystems. However, studies on river stratification have been restricted to rivers below dams or reservoirs affected by their water release and lacked examination of diel stratification and its impact on phytoplankton, in particular. Therefore, this study aimed to determine the degree of thermal stratification, its environmental drivers, and the response of water quality and phytoplankton community against stratification in the mid-lower reach of the Nakdong River, whose morphology has been highly modified, including the construction of eight weirs. We implemented vertical temperature profiling at three study sites, both seasonally and diurnally. From this data, we calculated three stratification indices: relative water column stability (RWCS), Schmidt stability (S), and maximum temperature gradient (Max). These indices showed that most sites experienced diel stratification during summer (mean = RWCS 74.3, S 41.5 J m−2, Max 0.9 °C m−1). Principal component analysis showed that stratification significantly led to seasonal and diel variations in the water environment. Solar radiation and air temperature were positive controllers, while a negative controller (in this case, the river flow rate) existed only for diel variation in the stratification. The seasonal shifts in phytoplankton community structure were either insensitive or showed a limited response to the stratification indices. In summer, Microcystis cell abundance and accumulation into the surface water was positively affected by the diel variations in the stratification indices and thermocline instead of with other temperature and nutrient variables. Overall, the results suggest that the river has summer stratification, which is involved in amplifying cyanobacterial bloom intensity. Without a suppressing factor, summer stratification is expected to be recurrent in the river, and thus mitigating the developed stratification is needed by promptly regulating the river flow. [ABSTRACT FROM AUTHOR]

Published

2023

37. Cyanobacterial Bloom Formation by Enhanced Ecological Adaptability and Competitive Advantage of Microcystis—Non-Negligible Role of Quorum Sensing

Author

Ziqing Zhang and Jieming Li

Subjects

cyanobacterial bloom, colony formation, Microcystis, N-acyl-homoserine lactone, quorum sensing, quorum quenching, Biology (General), QH301-705.5

Abstract

Microcystis-dominated cyanobacterial blooms (MCBs) frequently occur in freshwaters worldwide due to massive Microcystis colony formation and severely threaten human and ecosystem health. Quorum sensing (QS) is a direct cause of Microcystis colony formation that drives MCBs outbreak by regulating Microcystis population characteristics and behaviors. Many novel findings regarding the fundamental knowledge of the Microcystis QS phenomenon and the signaling molecules have been documented. However, little effort has been devoted to comprehensively summarizing and discussing the research progress and exploration directions of QS signaling molecules-mediated QS system in Microcystis. This review summarizes the action process of N-acyl homoserine lactones (AHLs) as major signaling molecules in Microcystis and discusses the detailed roles of AHL-mediated QS system in cellular morphology, physiological adaptability, and cell aggregation for colony formation to strengthen ecological adaptability and competitive advantage of Microcystis. The research progress on QS mechanisms in Microcystis are also summarized. Compared to other QS systems, the LuxI/LuxR-type QS system is more likely to be found in Microcystis. Also, we introduce quorum quenching (QQ), a QS-blocking process in Microcystis, to emphasize its potential as QS inhibitors in MCBs control. Finally, in response to the research deficiencies and gaps in Microcystis QS, we propose several future research directions in this field. This review deepens the understanding on Microcystis QS knowledge and provide theoretical guidance in developing strategies to monitor, control, and harness MCBs.

Published

2024

38. Methane Production in a Temperate Freshwater Lake during an Intense Cyanobacterial Bloom.

Author

Kallistova, A. Yu., Kosyakova, A. I., Rusanov, I. I., Kadnikov, V. V., Beletsky, A. V., Koval', D. D., Yusupov, S. K., Zekker, I., and Pimenov, N. V.

Subjects

*CYANOBACTERIAL blooms, *METHANOGENS, *EUPHOTIC zone, *METHANE, *CYANOBACTERIA, *ARCHAEBACTERIA, *RADIOACTIVE tracers, *LAKES

Abstract

Seasonal cyanobacterial blooms have a negative impact on freshwater ecosystems. The role of cyanobacteria in methane production and their relationship with methanogenic archaea are not yet well understood. The goal of the present work was to identify the features of methanogenesis in the water column and sediments of a profundal part of the freshwater Lake Senezh (Moscow oblast) during a period of cyanobacterial over-bloom. Analytical, radiotracer, microscopic, molecular biological, and incubation techniques were used. Alkalization and oxygen oversaturation of the 0‒2-m water layer were caused by intensive photosynthesis. The near-bottom water (4 m) was pH-neutral and hypoxic; the sediments were reduced. Methane was detected throughout the water column; its concentration in the surface water was an order of magnitude lower than in the near-bottom water and 4 orders of magnitude lower than in the sediments. Cyanobacteria of the species Microcystisaeruginosa predominated in the photic zone (up to 30% of the total number of the 16S rRNA gene fragments). The sequences of cyanobacteria and freshwater members of the SAR11 clade, which can potentially be involved in aerobic methanogenesis via decomposition of methylphosphonates (MPn), were also detected. The sequences of hydrogenotrophic methanogens of the genus Methanoregula, which are potentially capable of methanogenesis in cooperation with cyanobacteria, were revealed in oxygen-supersaturated water. Hydrogenotrophic and acetoclastic pathways of methanogenesis predominated in reduced sediments. Sequences of methanogens of the orders Methanomicrobiales, Methanobacteriales, Methanosarciniales, and Methanomassiliicoccales were detected there. Cyanobacterial bloom promoted methanogenesis both in the photic zone of Lake Senezh (due to MPn decomposition and anaerobic methanogenesis in association with cyanobacterial aggregates) and in the near-bottom water and sediments (due to oxygen depletion and excessive release of substrates caused by sedimentation and degradation of cyanobacterial mortmass). [ABSTRACT FROM AUTHOR]

Published

2023

39. Different characteristics of sediment nitrogen and phosphorus recycling during cyanobacterial growth and their succession.

Author

Li, Hui, Song, Chunlei, Huang, Daizhong, Shen, Wenjuan, He, Yun, Li, Jianfen, Cao, Xiuyun, and Zhou, Yiyong

Subjects

SEDIMENTS, PORE water, ADSORPTION isotherms, PHOSPHORUS, SPRING, PHOSPHORUS cycle (Biogeochemistry), ATMOSPHERIC nitrogen, MICROCYSTIS

Abstract

Purpose: Sediment internal nutrient loading plays an important role in algal blooms. Thus, understanding the specific characteristics of nutrient (nitrogen (N) and phosphorus (P)) recycling from sediment is important for clarifying the processes and mechanisms of cyanobacterial growth and succession. Materials and methods: Sediments and water samples were collected monthly from five sampling sites in Lake Chaohu for 1 year. N and P concentrations in surface and interstitial water were determined, and fractions of sediment organic matter, P, and iron were quantified. P adsorption characteristics were modeled with adsorption isotherms. Results and discussion: Dolichospermum was the dominant bloom species in the western lake in April, followed by Microcystis from May to September in the whole lake. The impulsive regeneration and release mode from iron-bound P and ammonium (NH4+-N) regeneration from sediment in spring triggered the Dolichospermum bloom. In early summer, continuous P release potential as well as nitrate accumulation and NH4+-N deficiency due to NH4+-N prior assimilation by Dolichospermum jointly drove the transition from Dolichospermum to Microcystis due to the energy saving and competitive advantage of rapid uptake and storage of inorganic P as well as a wide range of N utilization forms for Microcystis. All these facts put the Dolichospermum towards common N and P stress. Furthermore, in summer, NH4+-N rapid regeneration from organic algal detritus remineralization due to the decline of Dolichospermum developed Microcystis blooms. Conclusions: The specific mode and pathway of N and P recycling from sediment determined the dominant algal species based on the particular N and P utilization strategies of the algae. Pulsed and a vast amount of P release facilitated the Dolichospermum growth, while continuous and a small quantity of P release was in favor of Microcystis growth. Organic N hydrolysis from Dolichospermum detritus further supported the development of a Microcystis bloom. [ABSTRACT FROM AUTHOR]

Published

2023

40. High-Frequency Observations of Cyanobacterial Blooms in Lake Taihu (China) from FY-4B/AGRI.

Author

Hang, Xin, Li, Xinyi, Li, Yachun, Zhu, Shihua, Li, Shengqi, Han, Xiuzhen, and Sun, Liangxiao

Subjects

CYANOBACTERIAL blooms, NORMALIZED difference vegetation index, METEOROLOGICAL satellites, SPECTRAL reflectance, GEOSTATIONARY satellites, ECOSYSTEM management

Abstract

China's FY-4B satellite, launched on 3 June 2021, is a new-generation geostationary meteorological satellite. The Advanced Geosynchronous Radiation Imager (AGRI) onboard FY-4B has 15 spectral channels, including 2 visible (470 and 650 nm), 1 near infrared (825 nm), and 3 shortwave infrared (1379, 1610, and 2225 nm) bands, which can be used to observe the Earth system with the highest spatial resolution of 500 m and 15 min temporal resolution. In this study, FY-4B/AGRI observations were applied for the first time to monitor cyanobacterial blooms in Lake Taihu, China. The AGRI reflectance at visible and near-infrared bands was first corrected to surface reflectance using the 6S radiative transfer model. Due to the similar spectral reflectance characteristics to those of land-based vegetation, the normalized difference vegetation index (NDVI) and some other remote sensing vegetation indices are usually used for the retrieval of cyanobacterial blooms. The fractional vegetation cover (FVC) of algae, defined as the fraction of green vegetation in the nadir view, was adopted to depict the status and trend of cyanobacterial blooms. NDVI and FVC, the two remote sensing indices developed for the retrieval of land vegetation, were used for the detection of cyanobacteria blooms in Lake Taihu. Finally, the FVC derived from AGRI measurements was compared with that obtained from the Advanced Himawari Imager (AHI) onboard the Himawari-8 satellite to validate the effectiveness of our method. It was found that atmospheric correction can substantially improve the determination of the normalized difference vegetation index (NDVI) values of cyanobacterial blooms in the lake. As a proof of the robustness of the algorithm, the NDVIs are both derived from both AGRI and AHI and their magnitudes are similar. In addition, the distribution of cyanobacterial blooms derived from AGRI FVC is highly consistent with that derived from FY-3D/MERSI and EOS/MODIS. While a lower spatial resolution of FY-4B/AGRI might restrict its capability in capturing some spatial details of cyanobacterial blooms, the high-frequency measurements can provide information for the timely and effective management of aquatic ecosystems and help researchers better quantify and understand the dynamics of cyanobacterial blooms. In particular, AGRI can provide greater details on the diurnal variation in the distribution of cyanobacterial blooms owing to the high temporal resolution. [ABSTRACT FROM AUTHOR]

Published

2023

41. Remote sensing image analysis and cyanobacterial bloom prediction method based on ACL3D-Pix2Pix.

Author

Li Wang, Qianhui Tang, Wenhao Li, Xiaoyi Wang, Haiyan Zhang, Jiping Xu, Zhiyao Zhao, Jiabin Yu, Huiyan Zhang, Qian Sun, and Yuting Bai

Subjects

CYANOBACTERIAL blooms, IMAGE analysis, PLANKTON blooms, WATER quality monitoring, REMOTE sensing, WATER distribution, BODIES of water

Abstract

Currently, the prediction of cyanobacterial blooms in rivers and lakes is mainly based on data obtained from on-site water quality monitoring, which cannot analyze the overall water area. Remote sensing images can reflect spatiotemporal and spatial information of the overall water area. However, the existing methods cannot effectively predict the spatial and temporal distribution of overall water bloom by pixel-level prediction of remote sensing images, and the raw remote sensing images often have many problems that cannot be directly used for modeling. Therefore, the method of remote sensing image time series pre-processing is firstly proposed in this paper. Secondly, attentional convolution long short-term memory network embedding to 3D U-Net's Pix2Pix (ACL3DPix2Pix) is proposed in this paper to achieve pixel-level prediction of remote sensing images. The model generator is a convolutional long short-term memory network (ConvLSTM) embedded into the 3D U-Net network. The attention mechanism is added to the ConvLSTM, the residual structure is added to the 3D U-Net network, and then the loss function of the overall model is updated to achieve pixel-level prediction of remote sensing images. On this basis, the spatial and temporal distribution prediction of cyanobacterial blooms based on remote sensing image analysis is realized by adjusting the existing eutrophication grading criteria of cyanobacterial bloom water bodies. Finally, the experimental results show that the method is effective in predicting cyanobacterial blooms. [ABSTRACT FROM AUTHOR]

Published

2023

42. Periphyton reduces cyanobacterial blooms by promoting potentially cyanobactericidal bacteria.

Author

Van Le, Ve, Ko, So-Ra, Kang, Mingyeong, Shin, Yuna, Lim, Byungjin, Kang, Yoon-Ho, Oh, Hee-Mock, and Ahn, Chi-Yong

Abstract

Cyanobacterial harmful algal blooms (CyanoHABs) are a global concern and pose various hazards to ecosystems and humans. Periphyton is a mixture of heterotrophic and photoautotrophic microorganisms, which effectively mitigated CyanoHABs. However, how periphyton affects free-living (FL) and particle-attached (PA) bacteria and how FL and PA bacterial communities contribute to the control of CyanoHABs remains unclear. Herein, we first characterized the response of FL and PA bacterial communities to periphyton in an outdoor mesocosm setting (1000 L) using high-throughput 16S rRNA gene sequencing data. Pre-incubation of periphyton before inoculation enhanced control efficiency: (1) Periphyton reduced the planktonic chlorophyll-a concentration by 38.6% on day 11; (2) Microcystis and Dolichospermum cell density decreased by 70.8% and 94.8%, respectively. The dissimilarity in microbial interaction networks between the control and treatment was 92.2%, indicating that periphyton changed the bacterial interactions. In response to periphyton, the PA bacterial community exhibited higher stability than the FL bacterial community. Periphyton treatment likely favored the growth of organic matter-degrading bacteria. In addition, Saprospiraceae, Aeromonas, Rhodobacteraceae, and Brevundimonas, which have potential inhibitory effects on cyanobacteria, were enriched in the mesocosm treatment. In summary, our findings suggest that periphyton may mitigate CyanoHABs by altering bacterial communities. [ABSTRACT FROM AUTHOR]

Published

2023

43. Patterns of free-living and particle-attached bacteria along environmental gradients in Lake Taihu.

Author

Xie, Guijuan, Martin, Robbie M., Liu, Changli, Zhang, Li, and Tang, Xiangming

Subjects

*CYANOBACTERIAL blooms, *TOTAL suspended solids, *BACTERIAL communities, *SUSPENDED solids, *COMMUNITIES, *LAKES, *MATRIX-assisted laser desorption-ionization

Abstract

To elucidate the effects of environmental heterogeneity on diversity, composition, and degree of overlap between free-living (FL) and particle-attached (PA) bacteria, we sampled large, shallow, eutrophic Lake Taihu, China across gradients spanning riverine inflow, cyanobacterial blooms, and the open limnetic area. Using high-throughput sequencing of the 16S rRNA gene, we show that (i) bacterial communities near riverine inflow had high α-diversity and a high degree of overlap between FL and PA lifestyles, (ii) communities in cyanobacterial blooms have reduced α-diversity within the PA lifestyle, and (iii) communities from the limnetic area had the lowest bacterial α-diversity within the FL lifestyle and a medium degree of overlap between the FL and PA lifestyles. Redundancy analysis showed that the variation of the FL bacterial community was shaped by suspended solids and total phosphorous, while the variation of the PA bacterial community was shaped by suspended solids, dissolved oxygen, and the percentage of organic matter in suspended solids. This study highlights the importance of environmental heterogeneity, riverine input, cyanobacterial blooms, and nutrient status on the spatial distribution patterns of FL and PA bacterial communities in freshwater lakes. [ABSTRACT FROM AUTHOR]

Published

2023

44. Physical Drivers of Monthly Variation in Phytoplankton Community in the Tidal Freshwater Zone of the Macrotidal Qiantang River Estuary, Eastern China: Implications for Reducing the Risk of Harmful Cyanobacterial Blooms.

Author

Jiang, Zhibing, Du, Wei, Zhu, Yuanli, Guo, Ran, Zhan, Lin, Sun, Zhenhao, Wang, Degang, and Zeng, Jiangning

Subjects

CYANOBACTERIAL blooms, FRESHWATER phytoplankton, PHYTOPLANKTON, STREAMFLOW, FRESH water, ESTUARIES, ECOSYSTEM health, EUTROPHICATION, PLANT species diversity

Abstract

The Qiantang river estuary flows into Hangzhou Bay, on the East China Sea, and has one of the largest tidal bores worldwide. The tidal freshwater zone (TFZ) in this shallow macrotidal estuary is subjected to strong riverine and marine forcings. We investigated monthly variation of phytoplankton and environmental drivers in the upper and lower sections of TFZ during 2016. Large numbers of phytoplankton taxa (422) and genera (161) were identified. Diatoms were dominant in most months, but cyanobacteria abundance reached its greatest in warm months when runoff was low. Surprisingly, relatively high dominances of marine diatom species (e.g., Cyclotella stylorum, Skeletonema, and Thalassiosira) were observed in the TFZ with salinities usually <1 PSU. Microcystis contributed up to 50% to phytoplankton abundance in the upper TFZ in September, consistent with upstream bloom events. Abundances of phytoplankton and cyanobacteria were significantly negatively correlated with monthly runoff and sediment fluxes. Generalized additive models suggested that variation in phytoplankton abundance was largely explained by river flow, temperature and nutrients. Phytoplankton community composition varied significantly across different months and sections. Redundancy analysis indicated that temperature and flow rate explained more variation in phytoplankton community than other variables, but nutrients, Secchi depth and salinity also contributed significantly to the explained variation. Variance partitioning analysis confirmed that phytoplankton variation was largely regulated by physical variables rather than nutrients. These findings highlight the unexpectedly great phytoplankton species richness, dominance of marine diatoms, and physical drivers in the eutrophic macrotidal TFZ under strong tidal forcing. Plain Language Summary: The tidal freshwater zone (TFZ) in river estuary continuum has both riverine and estuarine characteristics of low salinity and tidal oscillation. Evidence is accumulating that the incidence of harmful cyanobacterial blooms (HCBs) is increasing in TFZs worldwide, which pose risks to the aquatic environment and to human health. Therefore, water quality and ecosystem health in TFZs are largely regulated by phytoplankton community. TFZ of the macrotidal Qiantang river estuary (QRE) is famous worldwide for its strong tidal bore. Here, we examined variation in phytoplankton associated with physicochemical properties in the upper and lower TFZ of QRE on a monthly basis in 2016. We found the unexpectedly great phytoplankton species richness and dominance of marine diatoms in this eutrophic TFZ and identified the strong physical drivers of phytoplankton composition variation. Diatoms were dominant in most months, but cyanobacteria (particularly Microcystis) tended to proliferate in warm months when runoff was low. We recommend that HCBs in QRE TFZ can be mitigated by increasing river flow during hot–dry months in addition to watershed nutrient load reductions. These findings will benefit other researchers seeking to understand phytoplankton variation and the underlying mechanism of HCBs formation in the eutrophic macrotidal estuaries. Key Points: A baseline survey of phytoplankton community was performed in the tidal freshwater zone of the macrotidal Qiantang river estuaryDiatoms were dominant in most months, but cyanobacteria (particularly Microcystis) abundance reached its greatest in warm monthsPhytoplankton community composition was largely regulated by river flow and temperature rather than salinity and nutrients [ABSTRACT FROM AUTHOR]

Published

2023

45. Permian Cyanobacterial Blooms Resulted in Enrichment of Organic Matter in the Lucaogou Formation in the Junggar Basin, NW China.

Author

Wang, Wenhui, Cui, Haisu, Tan, Jingqiang, Liu, Jin, Song, Xueqi, Wang, Jian, and Chen, Lichang

Subjects

*ORGANIC compounds, *SHALE oils, *CYANOBACTERIAL blooms, *ANOXIC waters, *PETROLEUM prospecting, *VOLCANIC eruptions

Abstract

The Permian Lucaogou Formation in the Junggar Basin, NW China is the target layer for shale oil exploration, but its hydrocarbon precursors have remained the focus of debate. In this study, we investigated the Lucaogou source rocks throughout Well J10025 by conducting detailed petrological, paleontological, and geochemical analyses for the purpose of revealing the occurrence of cyanobacterial blooms as specific hydrocarbon events in the upper Lucaogou Formation. The morphological characteristics of the microfossils and the geochemical signatures of the microfossil-bearing layers support a biological affinity with Microcystis, a kind of cyanobacteria. Microcystis observed as colonial forms embedded in the upper Lucaogou Formation are of great abundance, indicating the presence of cyanobacterial blooms. They were further evidenced by cyanobacteria-derived biomarkers including low terrestrial/aquatic ratio, high 2α-methylhopane index values, and high abundance of 7- and 8-monomethyl heptadecanes. The blooms occurred in a semiarid and brackish paleoenvironment with anoxic to suboxic water conditions and intermittent volcanic eruptions. Permian Microcystis blooms contributed to the enrichment of organic matter in the upper Lucaogou Formation in two main ways: by directly promoting the accumulation of algal biomass and by creating an oxygen-depleted environment for better preservation of organic matter. This study adds a new record to the geological occurrences of cyanobacterial blooms in the Permian, and provides unique insight into the hydrocarbon generation of Jimsar shale oil in the Junggar Basin. [ABSTRACT FROM AUTHOR]

Published

2023

46. Viruses may facilitate the cyanobacterial blooming during summer bloom succession in Xiangxi Bay of Three Gorges Reservoir, China.

Author

Kaida Peng, Yiying Jiao, Jian Gao, Wen Xiong, Yijun Zhao, Shao Yang, and Mingjun Liao

Subjects

CYANOBACTERIAL blooms, STRUCTURAL equation modeling, GORGES, PHYTOPLANKTON populations, FRESHWATER phytoplankton, BACTERIOPLANKTON

Abstract

The occurrence of cyanobacterial blooms in summer are frequently accompanied by the succession of phytoplankton communities in freshwater. However, little is known regarding the roles of viruses in the succession, such as in huge reservoirs. Here, we investigated the viral infection characteristics of phytoplankton and bacterioplankton during the summer bloom succession in Xiangxi Bay of Three Gorges Reservoir, China. The results indicated that three distinct bloom stages and two successions were observed. From cyanobacteria and diatom codominance to cyanobacteria dominance, the first succession involved different phyla and led to a Microcystis bloom. From Microcystis dominance to Microcystis and Anabaena codominance, the second succession was different Cyanophyta genera and resulted in the persistence of cyanobacterial bloom. The structural equation model (SEM) showed that the virus had positive influence on the phytoplankton community. Through the Spearman's correlation and redundancy analysis (RDA), we speculated that both the increase of viral lysis in the eukaryotic community and the increase of lysogeny in cyanobacteria may contributed to the first succession and Microcystis blooms. In addition, the nutrients supplied by the lysis of bacterioplankton might benefit the second succession of different cyanobacterial genera and sustain the dominance of cyanobacteria. Based on hierarchical partitioning method, the viral variables still have a marked effect on the dynamics of phytoplankton community, although the environmental attributes were the major factors. Our findings suggested that viruses played multiple potential roles in summer bloom succession and may help the blooms success of cyanobacteria in Xiangxi Bay. Under the background of increasingly serious cyanobacterial blooms worldwide, our study may have great ecological and environmental significance for understanding the population succession in phytoplankton and controlling the cyanobacterial blooms. [ABSTRACT FROM AUTHOR]

Published

2023

47. Cyanobacterial Blooms Increase Functional Diversity of Metazooplankton in a Shallow Eutrophic Lake.

Author

Tian, Xue, Yuan, Yuxiang, Zou, Yuanchun, Qin, Lei, Zhu, Xiaoyan, Zhu, Yu, Zhao, Yuxi, Jiang, Mengyu, and Jiang, Ming

Subjects

CYANOBACTERIAL blooms, RESTORATION ecology, SPECIES diversity, ANALYSIS of variance, LAKES, COMMUNITIES

Abstract

Harmful cyanobacterial blooms disrupt aquatic ecosystem processes and biological functions. However, studies focusing on the effect of cyanobacterial blooms on the functional diversity of consumers are still insufficient. To examine the interactions of cyanobacterial blooms and the diversity and composition of metazooplankton, we investigated the variation in metazooplankton and their driven variables during the cyanobacterial bloom and non-bloom periods in 2020 and 2021 in Lake Xingkai. We found that cyanobacterial blooms reduced the metazooplankton species diversity but increased their biomass, functional dispersion, and functional evenness. Generalized additive mixed model results revealed that cyanobacteria showed different effects on metazooplankton biodiversity and functional diversity during the bloom and non-bloom periods. Variance partitioning analysis indicated that cyanobacteria, physicochemical variables, and temporal variation explained 15.93% of the variation in metazooplankton during the bloom period and 20.27% during the non-bloom periods. Notably, cyanobacteria during the bloom period explained more variations in metazooplankton composition than those during the non-bloom period. Our results suggest that cyanobacterial blooms significantly impact the functional diversity and community composition of metazooplankton. Physicochemical and spatiotemporal factors may mask the effects of cyanobacteria on metazooplankton. Our findings may improve the understanding of the dynamics and responses of metazooplankton communities to environmental changes and cyanobacterial blooms disturbances and enhance our ability to assess the effectiveness of aquatic ecosystem restoration and eutrophication management. [ABSTRACT FROM AUTHOR]

Published

2023

48. Impact of extreme rainfall and flood events on harmful cyanobacterial communities and ecological safety in the Baiyangdian Lake Basin, China.

Author

Liu, Zikuo, Song, Linyuan, Wang, Yu, Zhang, Di, Liang, Jingxuan, Song, Yuzi, Kang, Xianjiang, Liu, Cunqi, and Zhao, Zhao

Published

2024

49. Ecological Dynamics of Broad- and Narrow-Host-Range Viruses Infecting the Bloom-Forming Toxic Cyanobacterium Microcystis aeruginosa.

Author

Daichi Morimoto, Naohiro Yoshida, Aya Sasaki, Satoshi Nakagawa, Yoshihiko Sako, and Takashi Yoshida

Subjects

*ECOSYSTEM dynamics, *MICROCYSTIS aeruginosa, *POPULATION dynamics, *MICROCYSTIS, *CYANOBACTERIAL blooms

Abstract

Microcystis aeruginosa is predicted to interact and coexist with diverse broad- and narrow-host-range viruses within a bloom; however, little is known about their affects on Microcystis population dynamics. Here, we developed a real-time PCR assay for the quantification of these viruses that have different host ranges. During the sampling period, total Microcystis abundance showed two peaks in May and August with a temporary decrease in June. The Microcystis population is largely divided into three phylotypes based on internal transcribed sequences (ITS; ITS types I to III). ITS I was the dominant phylotype (66% to 88%) except in June. Although the ITS II and III phylotypes were mostly less abundant, these phylotypes temporarily increased to approximately equivalent abundances of the ITS I population in June. During the same sampling period, the abundances of the broad-host-range virus MVGF_NODE331 increased from April to May and from July to October with a temporary decrease in June, in which its dynamics were in proportion to the increase of total Microcystis abundances regardless of changes in host ITS population composition. In contrast, the narrow-host-range viruses MVG_NODE620 and Ma-LMM01 were considerably less abundant than the broad-host-range virus and generally did not fluctuate in the environment. Considering that M. aeruginosa could increase the abundance and sustain the bloom under the prevalence of the broad-host-range virus, host abundant and diverse antiviral mechanisms might contribute to coexistence with its viruses. [ABSTRACT FROM AUTHOR]

Published

2023

50. Acclimation of Nodularia spumigena CCY9414 to inorganic phosphate limitation -- Identification of the P-limitation stimulon via RNA-seq.

Author

Santoro, Mariano, Hassenrück, Christiane, Labrenz, Matthias, and Hagemann, Martin

Subjects

RNA sequencing, CYANOBACTERIAL blooms, BRACKISH waters, GENE expression, POISONS, ROOT-tubercles

Abstract

Nodularia spumigena is a toxic, filamentous cyanobacterium capable of fixing atmospheric N2, which is often dominating cyanobacterial bloom events in the Baltic Sea and other brackish water systems worldwide. Increasing phosphate limitation has been considered as one environmental factor promoting cyanobacterial mass developments. In the present study, we analyzed the response of N. spumigena strain CCY9414 toward strong phosphate limitation. Growth of the strain was diminished under P-deplete conditions; however, filaments contained more polyphosphate under P-deplete compared to P-replete conditions. Using RNA-seq, gene expression was compared in N. spumigena CCY9414 after 7 and 14 days in P-deplete and P-replete conditions, respectively. After 7 days, 112 genes were significantly up-regulated in P-deplete filaments, among them was a high proportion of genes encoding proteins related to P-homeostasis such as transport systems for different P species. Many of these genes became also up-regulated after 14 days compared to 7 days in filaments grown under P-replete conditions, which was consistent with the almost complete consumption of dissolved P in these cultures after 14 days. In addition to genes directly related to P starvation, genes encoding proteins for bioactive compound synthesis, gas vesicles formation, or sugar catabolism were stimulated under P-deplete conditions. Collectively, our data describe an experimentally validated P-stimulon in N. spumigena CCY9414 and provide the indication that severe P limitation could indeed support bloom formation by this filamentous strain. [ABSTRACT FROM AUTHOR]

Published

2023