Salinity, a climate-change factor affecting growth, domoic acid and isodomoic acid C content in the diatom<i>Pseudo-nitzschia seriata</i>(Bacillariophyceae)

Weber, Caroline; Olesen, Anna J.; Krock, Bernd; Lundholm, Nina

doi:10.1080/00318884.2021.1973789

Cited by 4 publications

(2 citation statements)

References 76 publications

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“…Data on the diversity and distribution of Pseudo-nitzschia assemblages in the Alaskan Arctic are limited, but at least six species of predominantly polar, subpolar, or temperate origin have been reported, many of which occur in sea ice (Figure 4; Poulin et al, 2011;Percopo et al, 2016). Several produce DA in culture, including P. seriata and P. obtusa, although few Arctic strains have been cultivated and tested (Bates et al, 2018;Weber et al, 2021).…”

Section: Pseudo-nitzschia and Damentioning

confidence: 99%

Harmful Algal Blooms in the Alaskan Arctic: An Emerging Threat as the Ocean Warms

Anderson¹,

Fachon²,

Hubbard³

et al. 2022

Oceanog

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Harmful algal blooms (HABs) present an emerging threat to human and ecosystem health in the Alaskan Arctic. Two HAB toxins are of concern in the region: saxitoxins (STXs), a family of compounds produced by the dinoflagellate Alexandrium catenella, and domoic acid (DA), produced by multiple species in the diatom genus Pseudo-nitzschia. These potent neurotoxins cause paralytic and amnesic shellfish poisoning, respectively, in humans, and can accumulate in marine organisms through food web transfer, causing illness and mortality among a suite of wildlife species. With pronounced warming in the Arctic, along with enhanced transport of cells from southern waters, there is significant potential for more frequent and larger HABs of both types. STXs and DA have been detected in the tissues of a range of marine organisms in the region, many of which are important food resources for local residents. The unique nature of the Alaskan Arctic, including difficult logistical access, lack of response infrastructure, and reliance of coastal populations on the noncommercial acquisition of marine resources for nutritional, cultural, and economic well-being, poses urgent and significant challenges as this region warms and the potential for impacts from HABs expands.

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Section: Pseudo-nitzschia and Damentioning

confidence: 99%

Harmful Algal Blooms in the Alaskan Arctic: An Emerging Threat as the Ocean Warms

Anderson¹,

Fachon²,

Hubbard³

et al. 2022

Oceanog

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“…These inputs are chosen for two reasons: (i) they have enough time span and spatial coverage matching the algae observations in the shellfish farms and (ii) algae growth is mostly driven by these factors. Algae show distinct temperature-related traits that cause them to grow or diminish in different temperature ranges (Basti et al, 2018; Fehling et al, 2004; Guerrini et al, 2007; Nagai et al, 2004; Rial et al, 2023; Röder et al, 2012; Thomas et al, 2012); PAR corresponds to the light available for photosynthesis and therefore strongly influences algae growth (Bill et al, 2012; García-Portela et al, 2018; Jauffrais et al, 2013); salinity variations affect algae by inducing osmotic stress, creating ion stress through the unavoidable absorption or loss of ions, and altering the cellular ionic ratios due to selective mechanisms (Jauffrais et al, 2013; Kirst, 1990; Klemm et al, 2022; Nagai et al, 2004; Rial et al, 2023; Weber et al, 2021); shallower MLD—a common proxy to well-stratified waters—is commonly associated with HABs (Klemm et al, 2022; Reguera et al, 2012). Note that other important variables, such as nutrients, are not included as no product available matches the farms in a long time series.…”

Section: Introductionmentioning

confidence: 99%

Probabilistic models for harmful algae: application to the Norwegian coast

Silva,

Brajard,

Counillon

et al. 2024

Environ. Data Science

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We have developed probabilistic models to estimate the likelihood of harmful algae presence and outbreaks along the Norwegian coast, which can help optimization of the national monitoring program and the planning of mitigation actions. We employ support vector machines to calibrate probabilistic models for estimating the presence and harmful abundance (HA) of eight toxic algae found along the Norwegian coast, including Alexandrium spp., Alexandrium tamarense, Dinophysis acuta, Dinophysis acuminata, Dinophysis norvegica, Pseudo-nitzschia spp., Protoceratium reticulatum, and Azadinium spinosum. The inputs are sea surface temperature, photosynthetically active radiation, mixed layer depth, and sea surface salinity. The probabilistic models are trained with data from 2006 to 2013 and tested with data from 2014 to 2019. The presence models demonstrate good statistical performance across all taxa, with R (observed presence frequency vs. predicted probability) ranging from 0.69 to 0.98 and root mean squared error ranging from 0.84% to 7.84%. Predicting the probability of HA is more challenging, and the HA models only reach skill with four taxa (Alexandrium spp., A. tamarense, D. acuta, and A. spinosum). There are large differences in seasonal and geographical variability and sensitivity to the model input of different taxa, which are presented and discussed. The models estimate geographical regions and periods with relatively higher risk of toxic species presence and HA, and might optimize the harmful algae monitoring. The method can be extended to other regions as it relies only on remote sensing and model data as input and running national programs of toxic algae monitoring.

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Unveiling species diversity within the toxic diatom genus Pseudo-nitzschia from the fjords and channels of Magallanes (48°- 51° S), Chile

Pinto-Torres

Pizarro

York

et al. 2023

Progress in Oceanography

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Salinity, a climate-change factor affecting growth, domoic acid and isodomoic acid C content in the diatomPseudo-nitzschia seriata(Bacillariophyceae)

Cited by 4 publications

References 76 publications

Harmful Algal Blooms in the Alaskan Arctic: An Emerging Threat as the Ocean Warms

Harmful Algal Blooms in the Alaskan Arctic: An Emerging Threat as the Ocean Warms

Probabilistic models for harmful algae: application to the Norwegian coast

Unveiling species diversity within the toxic diatom genus Pseudo-nitzschia from the fjords and channels of Magallanes (48°- 51° S), Chile

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