The dual role of nitrogen supply in controlling the growth and toxicity of cyanobacterial blooms

Historically, phosphorus (P) has been considered the primary limiting nutrient for phytoplankton assemblages in freshwater ecosystems. This review, supported by new findings from Lake Erie, highlights recent molecular, laboratory, and field evidence that the growth and toxicity of some non-diazotrop...

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Published inHarmful algae Vol. 54; pp. 87 - 97
Main Authors Gobler, Christopher J., Burkholder, JoAnn M., Davis, Timothy W., Harke, Matthew J., Johengen, Tom, Stow, Craig A., Van de Waal, Dedmer B.
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.04.2016
Subjects
algae
biomass
Cyanobacteria
Cyanobacteria - metabolism
Cyanobacteria - physiology
Diazotrophy
Fresh Water - chemistry
Fresh Water - microbiology
freshwater ecosystems
Lake Erie
lakes
microcystins
Microcystins - metabolism
Microcystins - toxicity
Microcystis
Nitrogen
Nitrogen - metabolism
Nutrients
orthophosphates
Phosphorus
Phosphorus - metabolism
phytoplankton
Planktothrix
surface water
toxicity
Lake Erie
Phosphorus
Nutrients
Nitrogen
Microcystis
Diazotrophy
Cyanobacteria
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Abstract Historically, phosphorus (P) has been considered the primary limiting nutrient for phytoplankton assemblages in freshwater ecosystems. This review, supported by new findings from Lake Erie, highlights recent molecular, laboratory, and field evidence that the growth and toxicity of some non-diazotrophic blooms of cyanobacteria can be controlled by nitrogen (N). Cyanobacteria such as Microcystis possess physiological adaptations that allow them to dominate low-P surface waters, and in temperate lakes, cyanobacterial densities can be controlled by N availability. Beyond total cyanobacterial biomass, N loading has been shown to selectively promote the abundance of Microcystis and Planktothrix strains capable of synthesizing microcystins over strains that do not possess this ability. Among strains of cyanobacteria capable of synthesizing the N-rich microcystins, cellular toxin quotas have been found to depend upon exogenous N supplies. Herein, multi-year observations from western Lake Erie are presented demonstrating that microcystin concentrations peak in parallel with inorganic N, but not orthophosphate, concentrations and are significantly lower (p<0.01) during years of reduced inorganic nitrogen loading and concentrations. Collectively, this information underscores the importance of N as well as P in controlling toxic cyanobacteria blooms. Furthermore, it supports the premise that management actions to reduce P in the absence of concurrent restrictions on N loading may not effectively control the growth and/or toxicity of non-diazotrophic toxic cyanobacteria such as the cosmopolitan, toxin-producing genus, Microcystis.
AbstractList Historically, phosphorus (P) has been considered the primary limiting nutrient for phytoplankton assemblages in freshwater ecosystems. This review, supported by new findings from Lake Erie, highlights recent molecular, laboratory, and field evidence that the growth and toxicity of some non-diazotrophic blooms of cyanobacteria can be controlled by nitrogen (N). Cyanobacteria such as Microcystis possess physiological adaptations that allow them to dominate low-P surface waters, and in temperate lakes, cyanobacterial densities can be controlled by N availability. Beyond total cyanobacterial biomass, N loading has been shown to selectively promote the abundance of Microcystis and Planktothrix strains capable of synthesizing microcystins over strains that do not possess this ability. Among strains of cyanobacteria capable of synthesizing the N-rich microcystins, cellular toxin quotas have been found to depend upon exogenous N supplies. Herein, multi-year observations from western Lake Erie are presented demonstrating that microcystin concentrations peak in parallel with inorganic N, but not orthophosphate, concentrations and are significantly lower (p<0.01) during years of reduced inorganic nitrogen loading and concentrations. Collectively, this information underscores the importance of N as well as P in controlling toxic cyanobacteria blooms. Furthermore, it supports the premise that management actions to reduce P in the absence of concurrent restrictions on N loading may not effectively control the growth and/or toxicity of non-diazotrophic toxic cyanobacteria such as the cosmopolitan, toxin-producing genus, Microcystis.
Historically, phosphorus (P) has been considered the primary limiting nutrient for phytoplankton assemblages in freshwater ecosystems. This review, supported by new findings from Lake Erie, highlights recent molecular, laboratory, and field evidence that the growth and toxicity of some non-diazotrophic blooms of cyanobacteria can be controlled by nitrogen (N). Cyanobacteria such as Microcystis possess physiological adaptations that allow them to dominate low-P surface waters, and in temperate lakes, cyanobacterial densities can be controlled by N availability. Beyond total cyanobacterial biomass, N loading has been shown to selectively promote the abundance of Microcystis and Planktothrix strains capable of synthesizing microcystins over strains that do not possess this ability. Among strains of cyanobacteria capable of synthesizing the N-rich microcystins, cellular toxin quotas have been found to depend upon exogenous N supplies. Herein, multi-year observations from western Lake Erie are presented demonstrating that microcystin concentrations peak in parallel with inorganic N, but not orthophosphate, concentrations and are significantly lower (p<0.01) during years of reduced inorganic nitrogen loading and concentrations. Collectively, this information underscores the importance of N as well as P in controlling toxic cyanobacteria blooms. Furthermore, it supports the premise that management actions to reduce P in the absence of concurrent restrictions on N loading may not effectively control the growth and/or toxicity of non-diazotrophic toxic cyanobacteria such as the cosmopolitan, toxin-producing genus, Microcystis.Historically, phosphorus (P) has been considered the primary limiting nutrient for phytoplankton assemblages in freshwater ecosystems. This review, supported by new findings from Lake Erie, highlights recent molecular, laboratory, and field evidence that the growth and toxicity of some non-diazotrophic blooms of cyanobacteria can be controlled by nitrogen (N). Cyanobacteria such as Microcystis possess physiological adaptations that allow them to dominate low-P surface waters, and in temperate lakes, cyanobacterial densities can be controlled by N availability. Beyond total cyanobacterial biomass, N loading has been shown to selectively promote the abundance of Microcystis and Planktothrix strains capable of synthesizing microcystins over strains that do not possess this ability. Among strains of cyanobacteria capable of synthesizing the N-rich microcystins, cellular toxin quotas have been found to depend upon exogenous N supplies. Herein, multi-year observations from western Lake Erie are presented demonstrating that microcystin concentrations peak in parallel with inorganic N, but not orthophosphate, concentrations and are significantly lower (p<0.01) during years of reduced inorganic nitrogen loading and concentrations. Collectively, this information underscores the importance of N as well as P in controlling toxic cyanobacteria blooms. Furthermore, it supports the premise that management actions to reduce P in the absence of concurrent restrictions on N loading may not effectively control the growth and/or toxicity of non-diazotrophic toxic cyanobacteria such as the cosmopolitan, toxin-producing genus, Microcystis.
Author Van de Waal, Dedmer B.
Burkholder, JoAnn M.
Johengen, Tom
Stow, Craig A.
Harke, Matthew J.
Gobler, Christopher J.
Davis, Timothy W.
Author_xml – sequence: 1
  givenname: Christopher J.
  surname: Gobler
  fullname: Gobler, Christopher J.
  email: christopher.gobler@stonybrook.edu
  organization: School of Marine and Atmospheric Sciences, Stony Brook University, 239 Montauk Hwy, New York 11968, USA
– sequence: 2
  givenname: JoAnn M.
  surname: Burkholder
  fullname: Burkholder, JoAnn M.
  organization: Center for Applied Aquatic Ecology, North Carolina State University, Raleigh, NC 27606, USA
– sequence: 3
  givenname: Timothy W.
  surname: Davis
  fullname: Davis, Timothy W.
  organization: NOAA Great Lakes Environmental Research Laboratory, Ann Arbor, MI 48108, USA
– sequence: 4
  givenname: Matthew J.
  surname: Harke
  fullname: Harke, Matthew J.
  organization: School of Marine and Atmospheric Sciences, Stony Brook University, 239 Montauk Hwy, New York 11968, USA
– sequence: 5
  givenname: Tom
  surname: Johengen
  fullname: Johengen, Tom
  organization: Cooperative Institute for Limnology and Ecosystems Research, University of Michigan, Ann Arbor, MI 48109, USA
– sequence: 6
  givenname: Craig A.
  surname: Stow
  fullname: Stow, Craig A.
  organization: NOAA Great Lakes Environmental Research Laboratory, Ann Arbor, MI 48108, USA
– sequence: 7
  givenname: Dedmer B.
  surname: Van de Waal
  fullname: Van de Waal, Dedmer B.
  organization: Department of Aquatic Ecology, Netherlands Institute of Ecology (NIOO-KNAW), Post Office Box 50, Wageningen 6700 AB, The Netherlands
BackLink https://www.ncbi.nlm.nih.gov/pubmed/28073483$$D View this record in MEDLINE/PubMed
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Keywords Phosphorus
Nutrients
Nitrogen
Microcystis
Diazotrophy
Cyanobacteria
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Snippet Historically, phosphorus (P) has been considered the primary limiting nutrient for phytoplankton assemblages in freshwater ecosystems. This review, supported...
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SubjectTerms algae
biomass
Cyanobacteria
Cyanobacteria - metabolism
Cyanobacteria - physiology
Diazotrophy
Fresh Water - chemistry
Fresh Water - microbiology
freshwater ecosystems
Lake Erie
lakes
microcystins
Microcystins - metabolism
Microcystins - toxicity
Microcystis
Nitrogen
Nitrogen - metabolism
Nutrients
orthophosphates
Phosphorus
Phosphorus - metabolism
phytoplankton
Planktothrix
surface water
toxicity
Title The dual role of nitrogen supply in controlling the growth and toxicity of cyanobacterial blooms
URI https://dx.doi.org/10.1016/j.hal.2016.01.010
https://www.ncbi.nlm.nih.gov/pubmed/28073483
https://www.proquest.com/docview/1817813789
https://www.proquest.com/docview/1857753930
Volume 54
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