Evidence for massive and recurrent toxic blooms of
            <i>Alexandrium catenella</i>
            in the Alaskan Arctic

Anderson, Donald M.; Fachon, Evangeline; Pickart, Robert S.; Lin, Peigen; Fischer, Alexis D.; Richlen, Mindy L.; Uva, Victoria; Brosnahan, Michael L.; McRaven, Leah; Bahr, Frank; Lefebvre, Kathi A.; Grebmeier, Jacqueline M.; Danielson, Seth L.; Lyu, Yihua; Fukai, Yuri

doi:10.1073/pnas.2107387118

Cited by 46 publications

(34 citation statements)

References 61 publications

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“…The lines depict the degree-days to median germination ( DD 50 ) for each population. A similar plot was originally published in Anderson et al ( 37 ) but not fully explained.…”

Section: Resultssupporting

confidence: 67%

“…It is still possible to hypothesize cyst beds’ response to changing bottom water conditions under the assumption that fluxes are driven primarily by germination. Through the application of DD scaling, changes in the timing, intensity, and duration of cyst germination were recently estimated for a massive A. catenella cyst bed across the Chukchi Sea ( 37 ). The authors applied a generalized temperature–germination rate relationship from observations of several North American cyst populations.…”

Section: Discussionmentioning

confidence: 99%

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Growing Degree-Day Measurement of Cyst Germination Rates in the Toxic Dinoflagellate Alexandrium catenella

Fischer

Brosnahan

2022

Appl Environ Microbiol

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“…The lines depict the degree-days to median germination ( DD 50 ) for each population. A similar plot was originally published in Anderson et al ( 37 ) but not fully explained.…”

Section: Resultssupporting

confidence: 67%

Section: Discussionmentioning

confidence: 99%

Growing Degree-Day Measurement of Cyst Germination Rates in the Toxic Dinoflagellate Alexandrium catenella

Fischer

Brosnahan

2022

Appl Environ Microbiol

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“…The hormetic enhancement of harmful algae by low, sub-NOAEL doses of contaminants suggests potential changes in the disease burden epidemiology, with likely effects beyond areas that are currently known to be at risk . This becomes of even greater concern in the light of unknown interactive effects between climate change (e.g., documented changes due to global warming , ) and environmental pollution, which could lead to antagonistic, additive, or synergistic effects at low doses.…”

Section: Unanswered Questions and The Path Forwardmentioning

confidence: 99%

“…Aquatic harmful algal blooms (HABs) are considered a climate change costressor in freshwater and marine ecosystems as well as a major environmental issue that can severely affect aquatic ecosystems, human health, and the economy (see also ). HABs can result in acute human illness, primarily due to phycotoxins ingested through contaminated seafood, direct skin contact, or inhalation. − Blooms of harmful cyanobacteria also enter water supply systems in all major continents but Antarctica. − The toxic effects of HABs are often similar to infectious diseases, such as norovirus, thus making their diagnosis difficult or impossible .…”

Section: Introductionmentioning

confidence: 99%

Low Levels of Contaminants Stimulate Harmful Algal Organisms and Enrich Their Toxins

Agathokleous

Peñuelas

Azevedo

et al. 2022

Environ. Sci. Technol.

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A widespread increase in intense phytoplankton blooms has been noted in lakes worldwide since the 1980s, with the summertime peak intensity amplifying in most lakes. Such blooms cause annual economic losses of multibillion USD and present a major challenge, affecting 11 out of the 17 United Nations Sustainable Development Goals. Here, we evaluate recent scientific evidence for hormetic effects of emerging contaminants and regulated pollutants on Microcystis sp., the most notorious cyanobacteria forming harmful algal blooms and releasing phycotoxins in eutrophic freshwater systems. This new evidence leads to the conclusion that pollution is linked to algal bloom intensification. Concentrations of contaminants that are considerably smaller than the threshold for toxicity enhance the formation of harmful colonies, increase the production of phycotoxins and their release into the environment, and lower the efficacy of algaecides to control algal blooms. The low-dose enhancement of microcystins is attributed to the up-regulation of a protein controlling microcystin release (McyH) and various microcystin synthetases in tandem with the global nitrogen regulator Ycf28, nonribosomal peptide synthetases, and several ATP-binding cassette transport proteins. Given that colony formation and phycotoxin production and release are enhanced by contaminant concentrations smaller than the toxicological threshold and are widely occurring in the environment, the effect of contaminants on harmful algal blooms is more prevalent than previously thought. Climate change and nutrient enrichment, known mechanisms underpinning algal blooms, are thus joined by low-level pollutants as another causal mechanism.

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“…Saxitoxin (STX), one of the most lethal non-peptidyl neurotoxins, blocks the bioelectrical signals in nerve and muscle required for life by inhibiting select voltage-gated sodium channel (Na V ) isoforms ( 1–3 ). Cyanobacteria and dinoflagellate species associated with oceanic red tides produce this bis-guanidinium small molecule and its congeners whose accumulation in seafood can cause paralytic shellfish poisoning (PSP), a commer c ial fishing and public health hazard of growing importance due to climate change ( 1, 3–5 ). Its extreme lethality has also earned STX the unusual distinction of being the only marine toxin declared a chemical weapon ( 1, 3 ).…”

Section: Introductionmentioning

confidence: 99%

Definition of a saxitoxin (STX) binding code enables discovery and characterization of the Anuran saxiphilin family

Zhou

Zakrzewska

Hajare

et al. 2022

Preprint

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American bullfrog (Rana castesbeiana) saxiphilin (RcSxph) is a high-affinity 'toxin sponge' protein thought to prevent intoxication by saxitoxin (STX), a lethal bis-guanidinium neurotoxin that causes paralytic shellfish poisoning (PSP) by blocking voltage-gated sodium channels (NaVs). How specific RcSxph interactions contribute to STX binding has not been defined and whether other organisms have similar proteins is unclear. Here, we use mutagenesis, ligand binding, and structural studies to define the energetic basis of Sxph:STX recognition. The resultant STX 'recognition code' enabled engineering of RcSxph to improve its ability to rescue NaVs from STX and facilitated discovery of ten new frog and toad Sxphs. Definition of the STX binding code and Sxph family expansion among diverse Anurans separated by ~140 million years of evolution provides a molecular basis for understanding the roles of toxin sponge proteins in toxin resistance and for developing novel proteins to sense or neutralize STX and related PSP toxins.

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Evidence for massive and recurrent toxic blooms of Alexandrium catenella in the Alaskan Arctic

Cited by 46 publications

References 61 publications

Growing Degree-Day Measurement of Cyst Germination Rates in the Toxic Dinoflagellate Alexandrium catenella

Growing Degree-Day Measurement of Cyst Germination Rates in the Toxic Dinoflagellate Alexandrium catenella

Low Levels of Contaminants Stimulate Harmful Algal Organisms and Enrich Their Toxins

Definition of a saxitoxin (STX) binding code enables discovery and characterization of the Anuran saxiphilin family

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