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Zofia Ecaterina Taranu
Environnement et Changement Climatique Canada Montréal QC Canada

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Research
Published: 02 December 2020 in Oikos
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Environmental heterogeneity plays a fundamental role in driving species distributions by, for one, fostering niche dimensionality. Within lake ecosystems, species distributions and concordance patterns are driven by both local and regional heterogeneity, though their relative importance across trophic levels has rarely been explored. We developed a statistical framework to compare responses of taxa from different trophic levels to abiotic factors and determine how this affected multi‐trophic network structures. In particular, we used multi‐species concordance modelling (Concordance Analysis and RV coefficient) to determine species associations and correlations within and among three trophic levels (phytoplankton, zooplankton and fish communities sampled across 49 southern Québec lakes, covering eight hydrological regions). We then used Multiple Factor Analysis, Latent Variable Modelling and Local Contributions of sites to Beta Diversity to assess the relative importance of major environmental gradients in structuring species co‐responses and species interaction turnover across the landscape. Our analyses confirmed that concordant species within each trophic level varied jointly or segregated into different pelagic food webs in Québec lakes where important acidification and eutrophication took place. Some keynote species were indicators of different food web compartments and distinguished groups of lakes along multiple environmental niche dimensions. Among the three trophic levels examined, zooplankton depicted the highest proportion of species concordance and appeared to act as a trophic linkage between phytoplankton and fish. Ultimately, the losses or gains in species richness and species interactions were strongly driven by environmental gradients. This study provides for the first time a combined analysis of the effects of environmental heterogeneity on ecological communities belonging to three trophic levels sampled near simultaneously across an 800 km broad lacustrine landscape. The new framework developed in this study has a great potential to better understand the complex response of aquatic ecosystems in a world increasingly affected by multiple, cumulative stressors. This article is protected by copyright. All rights reserved.

ACS Style

Zofia E. Taranu; Bernadette Pinel‐Alloul; Pierre Legendre. Large‐scale multi‐trophic co‐response models and environmental control of pelagic food webs in Québec lakes. Oikos 2020, 130, 377 -395.

AMA Style

Zofia E. Taranu, Bernadette Pinel‐Alloul, Pierre Legendre. Large‐scale multi‐trophic co‐response models and environmental control of pelagic food webs in Québec lakes. Oikos. 2020; 130 (3):377-395.

Chicago/Turabian Style

Zofia E. Taranu; Bernadette Pinel‐Alloul; Pierre Legendre. 2020. "Large‐scale multi‐trophic co‐response models and environmental control of pelagic food webs in Québec lakes." Oikos 130, no. 3: 377-395.

Journal article
Published: 12 September 2020 in Journal of Great Lakes Research
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A time-series (1990–2013) of classified vegetation cover maps was produced for Netley-Libau Marsh, a 26,000 ha coastal wetland on Lake Winnipeg, to assess its current status and verify earlier trends of emergent vegetation loss. Open water area in the marsh was measured from late-summer Landsat images for 20 years; three classes of vegetation types (emergents, wet meadows, upland) could also be identified for 12 images covering the same period. Temporal changes in area and distribution of marsh vegetation were related to adjoining Lake Winnipeg water-level and Red River discharge, as well as marsh connectivity and bathymetry. From 1990 to 2002, an increase in open-water areas and decrease in emergent vegetation coincided with rising levels and flows. The year 2003 marked major wetland regeneration and a decrease of open-water area under extremely low water-levels and flows. From 2005 to 2013, open-water area remained consistent, under high but variable levels and flows. A strong negative correlation was found between area of emergent vegetation and mean Red River discharge in the previous June-July. Superimposition of the limit of new emergent vegetation observed in 2003 with depth contours surveyed in 2010 revealed the dynamic nature of marsh bathymetry. Periods of extremely low water as short as one year (2003) induced a marked expansion in emergent vegetation cover that persisted over the next ten years despite higher water-levels. Rather than being gradual, changes in the spatial extent of Netley-Libau Marsh vegetation appeared to proceed by fits and starts, wherein periods of relative stasis were disrupted by major changes in abundance.

ACS Style

K. Elise Watchorn; Gordon Goldsborough; Christiane Hudon; Zofia E. Taranu. Emergent vegetation in Netley-Libau Marsh: Temporal changes (1990–2013) in cover in relation to Lake Winnipeg level and Red River flow. Journal of Great Lakes Research 2020, 47, 690 -702.

AMA Style

K. Elise Watchorn, Gordon Goldsborough, Christiane Hudon, Zofia E. Taranu. Emergent vegetation in Netley-Libau Marsh: Temporal changes (1990–2013) in cover in relation to Lake Winnipeg level and Red River flow. Journal of Great Lakes Research. 2020; 47 (3):690-702.

Chicago/Turabian Style

K. Elise Watchorn; Gordon Goldsborough; Christiane Hudon; Zofia E. Taranu. 2020. "Emergent vegetation in Netley-Libau Marsh: Temporal changes (1990–2013) in cover in relation to Lake Winnipeg level and Red River flow." Journal of Great Lakes Research 47, no. 3: 690-702.

Research article
Published: 29 January 2020 in Environmental Microbiology
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Understanding how ecological traits have changed over evolutionary time is a fundamental question in biology. Specifically, the extent to which more closely‐related organisms share similar ecological preferences due to phylogenetic conservation – or if they are forced apart by competition – is still debated. Here we explored the co‐occurrence patterns of freshwater cyanobacteria at the sub‐genus level to investigate whether more closely‐related taxa share more similar niches, and to what extent these niches were defined by abiotic or biotic variables. We used deep 16S rRNA gene amplicon sequencing and measured several abiotic environmental parameters (nutrients, temperature, etc.) in water samples collected over time and space in Furnas Reservoir, Brazil. We found that relatively more closely‐related Synechococcus (in the continuous range of 93%–100% nucleotide identity in 16S) had an increased tendency to co‐occur with one another (i.e. had similar realized niches). This tendency could not be easily explained by shared preferences for measured abiotic niche dimensions. Thus, commonly measured abiotic parameters might not be sufficient to characterize, nor to predict community assembly or dynamics. Rather, co‐occurrence between Synechococcus and the surrounding community (whether or not they represent true biological interactions) may be a more sensitive measure of realized niches. Overall, our results suggest that realized niches are phylogenetically conserved, at least at the sub‐genus level and at the resolution of the 16S marker. Determining how these results generalize to other genera and at finer genetic resolution merits further investigation.

ACS Style

Nicolas Tromas; Zofia E. Taranu; Mathieu Castelli; Juliana S. M. Pimentel; Daniel A. Pereira; Romane Marcoz; B. Jesse Shapiro; Alessandra Giani. The evolution of realized niches within freshwater Synechococcus. Environmental Microbiology 2020, 22, 1238 -1250.

AMA Style

Nicolas Tromas, Zofia E. Taranu, Mathieu Castelli, Juliana S. M. Pimentel, Daniel A. Pereira, Romane Marcoz, B. Jesse Shapiro, Alessandra Giani. The evolution of realized niches within freshwater Synechococcus. Environmental Microbiology. 2020; 22 (4):1238-1250.

Chicago/Turabian Style

Nicolas Tromas; Zofia E. Taranu; Mathieu Castelli; Juliana S. M. Pimentel; Daniel A. Pereira; Romane Marcoz; B. Jesse Shapiro; Alessandra Giani. 2020. "The evolution of realized niches within freshwater Synechococcus." Environmental Microbiology 22, no. 4: 1238-1250.

Journal article
Published: 26 October 2019 in Toxins
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Cyanobacterial blooms increasingly impair inland waters, with the potential for a concurrent increase in cyanotoxins that have been linked to animal and human mortalities. Microcystins (MCs) are among the most commonly detected cyanotoxins, but little is known about the distribution of different MC congeners despite large differences in their biomagnification, persistence, and toxicity. Using raw-water intake data from sites around the Great Lakes basin, we applied multivariate canonical analyses and regression tree analyses to identify how different congeners (MC-LA, -LR, -RR, and -YR) varied with changes in meteorological and nutrient conditions over time (10 years) and space (longitude range: 77°2'60 to 94°29'23 W). We found that MC-LR was associated with strong winds, warm temperatures, and nutrient-rich conditions, whereas the equally toxic yet less commonly studied MC-LA tended to dominate under intermediate winds, wetter, and nutrient-poor conditions. A global synthesis of lake data in the peer-reviewed literature showed that the composition of MC congeners differs among regions, with MC-LA more commonly reported in North America than Europe. Global patterns of MC congeners tended to vary with lake nutrient conditions and lake morphometry. Ultimately, knowledge of the environmental factors leading to the formation of different MC congeners in freshwaters is necessary to assess the duration and degree of toxin exposure under future global change.

ACS Style

Zofia E. Taranu; Frances R. Pick; Irena F. Creed; Arthur Zastepa; Sue B. Watson. Meteorological and Nutrient Conditions Influence Microcystin Congeners in Freshwaters. Toxins 2019, 11, 620 .

AMA Style

Zofia E. Taranu, Frances R. Pick, Irena F. Creed, Arthur Zastepa, Sue B. Watson. Meteorological and Nutrient Conditions Influence Microcystin Congeners in Freshwaters. Toxins. 2019; 11 (11):620.

Chicago/Turabian Style

Zofia E. Taranu; Frances R. Pick; Irena F. Creed; Arthur Zastepa; Sue B. Watson. 2019. "Meteorological and Nutrient Conditions Influence Microcystin Congeners in Freshwaters." Toxins 11, no. 11: 620.

Preprint
Published: 21 June 2019
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SummaryUnderstanding how ecological traits have changed over evolutionary time is a fundamental question in biology. Specifically, the extent to which more closely-related organisms share similar ecological preferences due to phylogenetic conservation – or if they are forced apart by competition – is still debated. Here we explored the co-occurrence patterns of freshwater cyanobacteria at the sub-genus level to investigate whether more closely-related taxa share more similar niches, and to what extent these niches were defined by abiotic or biotic variables. We used deep 16S rRNA gene amplicon sequencing and measured several abiotic environmental parameters (nutrients, temperature, etc.) in water samples collected over time and space in Furnas Reservoir, Brazil. We found that relatively more closely-related Synechococcus (in the continuous range of 93-100% nucleotide identity in 16S) had an increased tendency to co-occur with one another (i.e. had similar realized niches). This tendency could not be easily explained by shared preferences for measured abiotic niche dimensions. Thus, commonly measured abiotic parameters might not be sufficient to characterize, nor to predict community assembly or dynamics. Rather, co-occurrence between Synechococcus and the surrounding community (whether or not they represent true biological interactions) may be a more sensitive measure of realized niches. Overall, our results suggest that realized niches are phylogenetically conserved, at least at the sub-genus level and at the resolution of the 16S marker. Determining how these results generalize to other genera and at finer genetic resolution merits further investigation.Originality-Significance StatementWe address a fundamental question in ecology and evolution: how do niche preferences change over evolutionary time? Using time-series analysis of 16S rRNA gene amplicon sequencing data, we develop an approach to highlight the importance of biotic factors in defining realized niches, and show how niche preferences change proportionally with the 16S gene molecular clock within the genus Synechococcus. Ours is also one of few studies on the ecology of freshwater Synechococcus, adding significantly to our knowledge about this abundant and widespread lineage of Cyanobacteria.

ACS Style

Nicolas Tromas; Zofia E. Taranu; Mathieu Castelli; Juliana S. M. Pimentel; Daniel A. Pereira; Romane Marcoz; B. Jesse Shapiro; Alessandra Giani. The evolution of realized niches within freshwater Synechococcus. 2019, 678375 .

AMA Style

Nicolas Tromas, Zofia E. Taranu, Mathieu Castelli, Juliana S. M. Pimentel, Daniel A. Pereira, Romane Marcoz, B. Jesse Shapiro, Alessandra Giani. The evolution of realized niches within freshwater Synechococcus. . 2019; ():678375.

Chicago/Turabian Style

Nicolas Tromas; Zofia E. Taranu; Mathieu Castelli; Juliana S. M. Pimentel; Daniel A. Pereira; Romane Marcoz; B. Jesse Shapiro; Alessandra Giani. 2019. "The evolution of realized niches within freshwater Synechococcus." , no. : 678375.

Article
Published: 08 October 2018 in Ecosphere
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Nonlinear responses to changing external pressures are increasingly studied in real‐world ecosystems. However, as many of the changes observed by ecologists extend beyond the monitoring record, the occurrence of critical transitions, where the system is pushed from one equilibrium state to another, remains difficult to detect. Paleo‐ecological records thus represent a unique opportunity to expand our temporal perspective to consider regime shifts and critical transitions, and whether such events are the exception rather than the rule. Yet, sediment core records can be affected by their own biases, such as sediment mixing or compression, with unknown consequences for the statistics commonly used to assess regime shifts, resilience, or critical transitions. To address this shortcoming, we developed a protocol to simulate paleolimnological records undergoing regime shifts or critical transitions to alternate states and tested, using both simulated and real core records, how mixing and compression affected our ability to detect past abrupt shifts. The smoothing that is built into paleolimnological data sets apparently interfered with the signal of rolling window indicators, especially autocorrelation. We thus turned to time‐varying autoregressions (online dynamic linear models, DLMs; and time‐varying autoregressive state‐space models, TVARSS) to evaluate the possibility of detecting regime shifts and critical transitions in simulated and real core records. For the real cores, we examined both varved (annually laminated sediments) and non‐varved cores, as the former have limited mixing issues. Our results show that state‐space models can be used to detect regime shifts and critical transitions in some paleolimnological data, especially when the signal‐to‐noise ratio is strong. However, if the records are noisy, the online DLM and TVARSS have limitations for detecting critical transitions in sediment records.

ACS Style

Zofia E. Taranu; Stephen Carpenter; Victor Frossard; Jean‐Philippe Jenny; Zoë Thomas; Jesse C. Vermaire; Marie‐Elodie Perga. Can we detect ecosystem critical transitions and signals of changing resilience from paleo‐ecological records? Ecosphere 2018, 9, 1 .

AMA Style

Zofia E. Taranu, Stephen Carpenter, Victor Frossard, Jean‐Philippe Jenny, Zoë Thomas, Jesse C. Vermaire, Marie‐Elodie Perga. Can we detect ecosystem critical transitions and signals of changing resilience from paleo‐ecological records? Ecosphere. 2018; 9 (10):1.

Chicago/Turabian Style

Zofia E. Taranu; Stephen Carpenter; Victor Frossard; Jean‐Philippe Jenny; Zoë Thomas; Jesse C. Vermaire; Marie‐Elodie Perga. 2018. "Can we detect ecosystem critical transitions and signals of changing resilience from paleo‐ecological records?" Ecosphere 9, no. 10: 1.

Primary research articles
Published: 07 June 2018 in Global Change Biology
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Freshwater ecosystems are threatened by multiple anthropogenic stressors acting over different spatial and temporal scales, resulting in toxic algal blooms, reduced water quality, and hypoxia. However, while catchment characteristics act as a ‘filter’ modifying lake response to disturbance, little is known of the relative importance of different drivers and possible differentiation in the response of upland remote lakes in comparison to lowland, impacted lakes. Moreover, many studies have focussed on single lakes rather than looking at responses across a set of individual, yet connected lake basins. Here we used sedimentary algal pigments as an index of changes in primary producer assemblages over the last ~200 years in a northern temperate watershed consisting of 11 upland and lowland lakes within the Lake District, UK, to test our hypotheses about landscape drivers. Specifically, we expected that the magnitude of change in phototrophic assemblages would be greatest in lowland rather than upland lakes due to more intensive human activities in the watersheds of the former (agriculture, urbanization). Regional parameters, such as climate dynamics, would be the predominant factors regulating lake primary producers in remote upland lakes and thus, synchronize the dynamic of primary producer assemblages in these basins. We found broad support for the hypotheses pertaining to lowland sites as wastewater treatment was the main predictor of changes to primary producer assemblages in lowland lakes. In contrast, upland headwaters responded weakly to variation in atmospheric temperature, and dynamics in primary producers across upland lakes were asynchronous. Collectively, these findings show that nutrient inputs from point sources overwhelm climatic controls of algae and nuisance cyanobacteria, but highlights that large‐scale stressors do not always initiate coherent regional lake response. Further, a lake's position in its landscape, its connectivity and proximity to point nutrients are important determinants of changes in production and composition of phototrophic assemblages. This article is protected by copyright. All rights reserved.

ACS Style

Heather L. Moorhouse; Suzanne McGowan; Zofia E. Taranu; Irene Gregory-Eaves; Peter R. Leavitt; Matthew D. Jones; Philip Barker; Susan A. Brayshaw. Regional versus local drivers of water quality in the Windermere catchment, Lake District, United Kingdom: The dominant influence of wastewater pollution over the past 200 years. Global Change Biology 2018, 24, 4009 -4022.

AMA Style

Heather L. Moorhouse, Suzanne McGowan, Zofia E. Taranu, Irene Gregory-Eaves, Peter R. Leavitt, Matthew D. Jones, Philip Barker, Susan A. Brayshaw. Regional versus local drivers of water quality in the Windermere catchment, Lake District, United Kingdom: The dominant influence of wastewater pollution over the past 200 years. Global Change Biology. 2018; 24 (9):4009-4022.

Chicago/Turabian Style

Heather L. Moorhouse; Suzanne McGowan; Zofia E. Taranu; Irene Gregory-Eaves; Peter R. Leavitt; Matthew D. Jones; Philip Barker; Susan A. Brayshaw. 2018. "Regional versus local drivers of water quality in the Windermere catchment, Lake District, United Kingdom: The dominant influence of wastewater pollution over the past 200 years." Global Change Biology 24, no. 9: 4009-4022.

Research paper
Published: 08 February 2017 in Global Ecology and Biogeography
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Aim Scientists, governments and non‐governmental organizations are increasingly moving towards the collection of large, open‐access data. In aquatic sciences, this effort is expanding the scope of questions and analyses that can be performed to further our knowledge of the global drivers of water quality. Cyanotoxin concentration is one variable that has received considerable attention, and although strong local‐scale models have been described in the literature, modelling cyanotoxin concentrations across broader spatial scales has been more difficult. Commonly used statistical frameworks have not fully captured the complex response of toxic algal blooms to global change, limiting our ability to predict and mitigate the impairment of freshwaters by toxic algae. Here, we advance our understanding of emergent drivers of cyanotoxins across a structured landscape by applying a hierarchical “hurdle” model. Location Lakes and reservoirs in the conterminous United States [n = 1127]. Methods We studied cyanobacteria and their toxins [microcystins] during the 2007 summer period. We applied a hierarchical zero‐altered model to test the importance of multi‐scale interactions among environmental features in driving microcystin concentrations above the limit of detection. We then used boosted regression trees [BRTs] to identify environmental thresholds associated with severe impairment by microcystins. Results Accounting for numerous non‐detections, spatial heterogeneity and cross‐scale interactions substantially improved continental‐scale predictions of bloom toxicity. Our model accounted for 55% of the variance in the probability of detecting microcystins across the United States, and 26% of the variability in microcystin concentrations once detected. BRTs further showed that although both local and regional drivers were associated with microcystin concentrations at low to intermediate provisional guidelines, only local drivers came into play when predicting higher limits. Main conclusions Identifying the interaction between local and regional processes is key to understanding the heterogeneous responses of microcystins to environmental change. Our framework could increase the effectiveness of continental‐scale analyses for many different water variables.

ACS Style

Zofia E. Taranu; Irene Gregory-Eaves; Russell J. Steele; Marieke Beaulieu; Pierre Legendre. Predicting microcystin concentrations in lakes and reservoirs at a continental scale: A new framework for modelling an important health risk factor. Global Ecology and Biogeography 2017, 26, 625 -637.

AMA Style

Zofia E. Taranu, Irene Gregory-Eaves, Russell J. Steele, Marieke Beaulieu, Pierre Legendre. Predicting microcystin concentrations in lakes and reservoirs at a continental scale: A new framework for modelling an important health risk factor. Global Ecology and Biogeography. 2017; 26 (6):625-637.

Chicago/Turabian Style

Zofia E. Taranu; Irene Gregory-Eaves; Russell J. Steele; Marieke Beaulieu; Pierre Legendre. 2017. "Predicting microcystin concentrations in lakes and reservoirs at a continental scale: A new framework for modelling an important health risk factor." Global Ecology and Biogeography 26, no. 6: 625-637.

Journal article
Published: 24 October 2016 in Proceedings of the National Academy of Sciences
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Enhanced phosphorus (P) export from land into streams and lakes is a primary factor driving the expansion of deep-water hypoxia in lakes during the Anthropocene. However, the interplay of regional scale environmental stressors and the lack of long-term instrumental data often impede analyses attempting to associate changes in land cover with downstream aquatic responses. Herein, we performed a synthesis of data that link paleolimnological reconstructions of lake bottom-water oxygenation to changes in land cover/use and climate over the past 300 years to evaluate whether the spread of hypoxia in European lakes was primarily associated with enhanced P exports from growing urbanization, intensified agriculture, or climatic change. We showed that hypoxia started spreading in European lakes around CE 1850 and was greatly accelerated after CE 1900. Socioeconomic changes in Europe beginning in CE 1850 resulted in widespread urbanization, as well as a larger and more intensively cultivated surface area. However, our analysis of temporal trends demonstrated that the onset and intensification of lacustrine hypoxia were more strongly related to the growth of urban areas than to changes in agricultural areas and the application of fertilizers. These results suggest that anthropogenically triggered hypoxia in European lakes was primarily caused by enhanced P discharges from urban point sources. To date, there have been no signs of sustained recovery of bottom-water oxygenation in lakes following the enactment of European water legislation in the 1970s to 1980s, and the subsequent decrease in domestic P consumption.

ACS Style

Jean-Philippe Jenny; Alexandre Normandeau; Pierre Francus; Zofia Ecaterina Taranu; Irene Gregory-Eaves; François Lapointe; Josue Jautzy; Antti E. K. Ojala; Jean-Marcel Dorioz; Arndt Schimmelmann; Bernd Zolitschka. Urban point sources of nutrients were the leading cause for the historical spread of hypoxia across European lakes. Proceedings of the National Academy of Sciences 2016, 113, 12655 -12660.

AMA Style

Jean-Philippe Jenny, Alexandre Normandeau, Pierre Francus, Zofia Ecaterina Taranu, Irene Gregory-Eaves, François Lapointe, Josue Jautzy, Antti E. K. Ojala, Jean-Marcel Dorioz, Arndt Schimmelmann, Bernd Zolitschka. Urban point sources of nutrients were the leading cause for the historical spread of hypoxia across European lakes. Proceedings of the National Academy of Sciences. 2016; 113 (45):12655-12660.

Chicago/Turabian Style

Jean-Philippe Jenny; Alexandre Normandeau; Pierre Francus; Zofia Ecaterina Taranu; Irene Gregory-Eaves; François Lapointe; Josue Jautzy; Antti E. K. Ojala; Jean-Marcel Dorioz; Arndt Schimmelmann; Bernd Zolitschka. 2016. "Urban point sources of nutrients were the leading cause for the historical spread of hypoxia across European lakes." Proceedings of the National Academy of Sciences 113, no. 45: 12655-12660.

Letter
Published: 26 February 2015 in Ecology Letters
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Increases in atmospheric temperature and nutrients from land are thought to be promoting the expansion of harmful cyanobacteria in lakes worldwide, yet to date there has been no quantitative synthesis of long‐term trends. To test whether cyanobacteria have increased in abundance over the past ~ 200 years and evaluate the relative influence of potential causal mechanisms, we synthesised 108 highly resolved sedimentary time series and 18 decadal‐scale monitoring records from north temperate‐subarctic lakes. We demonstrate that: (1) cyanobacteria have increased significantly since c. 1800 ce, (2) they have increased disproportionately relative to other phytoplankton, and (3) cyanobacteria increased more rapidly post c. 1945 ce. Variation among lakes in the rates of increase was explained best by nutrient concentration (phosphorus and nitrogen), and temperature was of secondary importance. Although cyanobacterial biomass has declined in some managed lakes with reduced nutrient influx, the larger spatio‐temporal scale of sedimentary records show continued increases in cyanobacteria throughout the north temperate‐subarctic regions.

ACS Style

Zofia E. Taranu; Irene Gregory-Eaves; Peter Leavitt; Lynda Bunting; Teresa Buchaca; Jordi Catalan; Isabelle Domaizon; Piero Guilizzoni; Andrea Lami; Suzanne McGowan; Heather Moorhouse; Giuseppe Morabito; Frances Pick; Mark Stevenson; Patrick Thompson; Rolf D. Vinebrooke. Acceleration of cyanobacterial dominance in north temperate-subarctic lakes during the Anthropocene. Ecology Letters 2015, 18, 375 -384.

AMA Style

Zofia E. Taranu, Irene Gregory-Eaves, Peter Leavitt, Lynda Bunting, Teresa Buchaca, Jordi Catalan, Isabelle Domaizon, Piero Guilizzoni, Andrea Lami, Suzanne McGowan, Heather Moorhouse, Giuseppe Morabito, Frances Pick, Mark Stevenson, Patrick Thompson, Rolf D. Vinebrooke. Acceleration of cyanobacterial dominance in north temperate-subarctic lakes during the Anthropocene. Ecology Letters. 2015; 18 (4):375-384.

Chicago/Turabian Style

Zofia E. Taranu; Irene Gregory-Eaves; Peter Leavitt; Lynda Bunting; Teresa Buchaca; Jordi Catalan; Isabelle Domaizon; Piero Guilizzoni; Andrea Lami; Suzanne McGowan; Heather Moorhouse; Giuseppe Morabito; Frances Pick; Mark Stevenson; Patrick Thompson; Rolf D. Vinebrooke. 2015. "Acceleration of cyanobacterial dominance in north temperate-subarctic lakes during the Anthropocene." Ecology Letters 18, no. 4: 375-384.