Response of cyanobacteria and phytoplankton abundance to warming, extreme rainfall events and nutrient enrichment

Richardson, Jessica; Feuchtmayr, Heidrun; Miller, Claire A.; Hunter, Peter; Maberly, Stephen C.; Carvalho, Laurence

doi:10.1111/gcb.14701

Cited by 106 publications

(79 citation statements)

References 86 publications

(151 reference statements)

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“…Taken together, these data suggest that ameliorated environments (such as CO2 enrichment, temperature increase in some parts of the world, or nutrient enrichment) may at least initially increase variation more than expected based on increases to system carrying capacity (extra energy input) alone (Biswas et al, 2017;Burson et al, 2018;Gudmundsdottir et al, 2011;Richardson et al, 2019;Stevenson et al, 2008).…”

Section: Environmental Quality Affects Phenotypic Variationmentioning

confidence: 80%

The role of changes in environmental quality in multitrait plastic responses to environmental and social change in the model microalgaChlamydomonas reinhardtii

Melero‐Jiménez

Flores‐Moya

Collins

2020

Preprint

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Intraspecific variation plays a key role in species’ responses to environmental change; however, little is known about the role of changes in environmental quality (the population growth rate an environment supports) on intraspecific trait variation. Here, we hypothesize that intraspecific trait variation will be higher in ameliorated environments than in degraded ones. We first measure the range of multitrait phenotypes over a range of environmental qualities for three strains and two evolutionary histories ofChlamydomonas reinhardtiiin laboratory conditions. We then explore how environmental quality and trait variation affect the predictability of lineage frequencies when lineage pairs are grown in indirect co-culture. Our results show that environmental quality has the potential to affect intraspecific variability both in terms of the variation in expressed trait values, and in terms of the genotype composition of rapidly growing populations. We found low phenotypic variability in degraded or same-quality environments and high phenotypic variability in ameliorated conditions. This variation can affect population composition, as monoculture growth rate is a less reliable predictor of lineage frequencies in ameliorated environments. Our study highlights that understanding whether populations experience environmental change as an increase or a decrease in quality relative to their recent history affects the changes in trait variation during plastic responses, including growth responses to the presence of conspecifics. This points towards a fundamental role for changes in overall environmental quality in driving phenotypic variation within closely-related populations, with implications for microevolution.

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Section: Environmental Quality Affects Phenotypic Variationmentioning

confidence: 80%

The role of changes in environmental quality in multitrait plastic responses to environmental and social change in the model microalgaChlamydomonas reinhardtii

Melero‐Jiménez

Flores‐Moya

Collins

2020

Preprint

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show abstract

“…Taken together, these data suggest that ameliorated environments (such as CO 2 enrichment, temperature increase in some parts of the world, or nutrient enrichment) may at least initially increase variation more than expected based on increases to system carrying capacity (extra energy input) alone (Biswas et al., 2017; Burson et al., 2018; Gudmundsdottir et al., 2011; Richardson et al., 2019; Stevenson et al., 2008).…”

Section: Discussionmentioning

confidence: 93%

The role of changes in environmental quality in multitrait plastic responses to environmental and social change in the model microalga Chlamydomonas reinhardtii

Melero‐Jiménez

Flores‐Moya

Collins

2021

Ecology and Evolution

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Intraspecific variation plays a key role in species' responses to environmental change; however, little is known about the role of changes in environmental quality (the population growth rate an environment supports) on intraspecific trait variation. Here, we hypothesize that intraspecific trait variation will be higher in ameliorated environments than in degraded ones. We first measure the range of multitrait phenotypes over a range of environmental qualities for three strains and two evolutionary histories of Chlamydomonas reinhardtii in laboratory conditions. We then explore how environmental quality and trait variation affect the predictability of lineage frequencies when lineage pairs are grown in indirect co‐culture. Our results show that environmental quality has the potential to affect intraspecific variability both in terms of the variation in expressed trait values, and in terms of the genotype composition of rapidly growing populations. We found low phenotypic variability in degraded or same‐quality environments and high phenotypic variability in ameliorated conditions. This variation can affect population composition, as monoculture growth rate is a less reliable predictor of lineage frequencies in ameliorated environments. Our study highlights that understanding whether populations experience environmental change as an increase or a decrease in quality relative to their recent history affects the changes in trait variation during plastic responses, including growth responses to the presence of conspecifics. This points toward a fundamental role for changes in overall environmental quality in driving phenotypic variation within closely related populations, with implications for microevolution.

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“…Results of previous studies have shown that composition, biomass and diversity of phytoplankton is primarily determined by nutrients (Reynolds and Irish, 1997;Rangel et al, 2012). Results of other studies have shown that succession of phytoplankton communities is controlled by physical conditions such as light (Edwards et al, 2015), water temperature (Rasconi et al, 2017;Neukermans et al, 2018), mean depth (Pinckney et al, 2015), flushing rate (Cañavate et al, 2015) and their interactions (Hart et al, 2015;Edwards et al, 2016;Burson et al, 2018;Richardson et al, 2019). Competition for resources, predation, environmental change and rates of mutation and plasticity will affect succession of taxonomic and functional groupings, but whether there is seasonal congruence between functional and taxonomic groupings or not remains unclear in natural communities.…”

Section: Introductionmentioning

confidence: 99%

Light, but Not Nutrients, Drives Seasonal Congruence of Taxonomic and Functional Diversity of Phytoplankton in a Eutrophic Highland Lake in China

et al. 2020

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Microcystis, Psephonema, and Mougeotia). Instead, the entire phytoplankton community assemblages were important in the pattern. Most diversity indices of taxonomic and functional groupings were significantly correlated with solar irradiance, but not nutrient concentrations. Because the lake is eutrophic and there were already sufficient nutrients available, additional nutrients had little effect on seasonal taxonomic and functional diversity of phytoplankton in Lake Erhai.

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Response of cyanobacteria and phytoplankton abundance to warming, extreme rainfall events and nutrient enrichment

Cited by 106 publications

References 86 publications

The role of changes in environmental quality in multitrait plastic responses to environmental and social change in the model microalgaChlamydomonas reinhardtii

The role of changes in environmental quality in multitrait plastic responses to environmental and social change in the model microalgaChlamydomonas reinhardtii

The role of changes in environmental quality in multitrait plastic responses to environmental and social change in the model microalga Chlamydomonas reinhardtii

Light, but Not Nutrients, Drives Seasonal Congruence of Taxonomic and Functional Diversity of Phytoplankton in a Eutrophic Highland Lake in China

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