Toxins from harmful algal blooms: How copper and iron render chalkophore a predictor of microcystin production

Boling Li, Xiaokai Zhang, Gongjie Wu, Boqiang Qin, Boris Tefsen*, Mona Wells*

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

Abstract

Research on harmful algal blooms has focused on macronutrients, yet recent research increasingly indicates that understanding micronutrient roles is also important in the development of effective environmental management interventions. Here, we report results on metallophore production from mesocosms amended with copper and iron (enzymatic co-factors in photosynthetic electron transport) to probe questions of how cyanobacteria navigate the divide between copper nutrition, copper toxicity, and issues with iron bioavailability. These experiments utilized Microcystis, Chlorella and Desmodesmus spp., in mono- and mixed-cultures in lake water from a large, hypereutrophic lake (Taihu, China). To initiate experiments, copper and iron amendments were added to mesocosms containing algae that had been acclimated to achieve a state of copper and iron limitation. Mesocosms were analyzed over time for a range of analytes including algal growth parameters, algal assemblage progression, copper/iron concentrations and biomolecule production of chalkophore, siderophore and total microcystins. Community Trajectory Analysis and other multivariate methods were used for analysis resulting in our findings: 1) Microcystis spp. manage copper/iron requirements though a dynamically phased behavior of chalkophore/siderophore production according to their copper and iron limitation status (chalkophore correlates with Cu concentration, R2 = 0.99, and siderophore correlates with the sum of Cu and Fe concentrations, R2 = 0.98). 2) A strong correlation was observed between the production of chalkophore and the cyanobacterial toxin microcystin (R2 = 0.76)-Chalkophore is a predictor of microcystin production. 3) Based on our results and literature, we posit that Microcystis spp. produces microcystin in response to copper/iron availability to manage photosystem productivity and effect an energy-saving status. Results from this work underscore the importance of micronutrients in influencing harmful algal bloom progression and represents a major advance in understanding the ecological function for the cyanobacterial toxin microcystin as a hallmark of micronutrient limitation stress.

Original languageEnglish
Article number120490
Number of pages13
JournalWater Research
Volume244
DOIs
Publication statusPublished - 1 Oct 2023

Keywords

  • Harmful Algal Bloom
  • Copper/analysis
  • Microcystins/analysis
  • Iron/analysis
  • Siderophores/analysis
  • Chlorella
  • Microcystis
  • Lakes/microbiology
  • Micronutrients/analysis

Fingerprint

Dive into the research topics of 'Toxins from harmful algal blooms: How copper and iron render chalkophore a predictor of microcystin production'. Together they form a unique fingerprint.

Cite this