Effects of changing pCO sub(2) and phosphate availability on domoic acid production and physiology of the marine harmful bloom diatom Pseudo-nitzschia multiseries
Some members of the diatom genus Pseudo-nitzschia produce the toxin domoic acid (DA), which through trophic transfer causes mass mortalities of wildlife, shellfish harvesting closures, and risks to human health. Nutrient and micronutrient limitation have been shown to regulate da production. This st...
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| Published in | Limnology and oceanography Vol. 56; no. 3; pp. 829 - 840 |
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| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
01.01.2011
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| Subjects | |
| Online Access | Get full text |
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| Abstract | Some members of the diatom genus Pseudo-nitzschia produce the toxin domoic acid (DA), which through trophic transfer causes mass mortalities of wildlife, shellfish harvesting closures, and risks to human health. Nutrient and micronutrient limitation have been shown to regulate da production. This study tested the hypothesis that changing partial pressure of CO sub(2) (pCO sub(2)) can interact with nutrient limitation to help determine cellular da levels, an environmentally relevant issue in light of current increases in atmospheric pCO sub(2). Cultures of the toxic species Pseudo-nitzschia multiseries were incubated using semicontinuous methods under a matrix of three pCO sub(2) conditions: ~22 Pa (220 ppm), ~41 Pa (400 ppm), and ~74 Pa (730 ppm), and two phosphate concentrations: 20 mu mol L super(-1), P-replete; and 0.5 mu mol L super(-1), P-limited. da production was regulated by both pCO sub(2) and phosphate availability. da concentrations were 30-50 times higher in P-limited cultures compared to P-replete ones, at the same pCO sub(2) levels. Increasing CO sub(2) levels stimulated da production under both nutrient conditions, but especially in P-limited cultures, where da levels increased approximately four times over the pCO sub(2) range examined. Growth rates, primary productivity, photosynthesis vs. irradiance parameters, and cellular elemental ratios also responded interactively to the availability of both CO sub(2) and phosphate. Our results raise the possibility that growth rates and toxicity of the diatom Pseudo-nitzschia multiseries could increase substantially in the future high-CO sub(2) ocean, suggesting a potentially escalating negative effect of this harmful algal bloom species on the future marine environment. |
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| AbstractList | Some members of the diatom genus Pseudo-nitzschia produce the toxin domoic acid (DA), which through trophic transfer causes mass mortalities of wildlife, shellfish harvesting closures, and risks to human health. Nutrient and micronutrient limitation have been shown to regulate da production. This study tested the hypothesis that changing partial pressure of CO sub(2) (pCO sub(2)) can interact with nutrient limitation to help determine cellular da levels, an environmentally relevant issue in light of current increases in atmospheric pCO sub(2). Cultures of the toxic species Pseudo-nitzschia multiseries were incubated using semicontinuous methods under a matrix of three pCO sub(2) conditions: ~22 Pa (220 ppm), ~41 Pa (400 ppm), and ~74 Pa (730 ppm), and two phosphate concentrations: 20 mu mol L super(-1), P-replete; and 0.5 mu mol L super(-1), P-limited. da production was regulated by both pCO sub(2) and phosphate availability. da concentrations were 30-50 times higher in P-limited cultures compared to P-replete ones, at the same pCO sub(2) levels. Increasing CO sub(2) levels stimulated da production under both nutrient conditions, but especially in P-limited cultures, where da levels increased approximately four times over the pCO sub(2) range examined. Growth rates, primary productivity, photosynthesis vs. irradiance parameters, and cellular elemental ratios also responded interactively to the availability of both CO sub(2) and phosphate. Our results raise the possibility that growth rates and toxicity of the diatom Pseudo-nitzschia multiseries could increase substantially in the future high-CO sub(2) ocean, suggesting a potentially escalating negative effect of this harmful algal bloom species on the future marine environment. |
| Author | Seubert, Erica L Feng, Yuanyuan Caron, David A Sun, Jun Hutchins, David A Fu, Fei-Xue |
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| SubjectTerms | Bacillariophyceae Marine Pseudo-nitzschia Pseudo-nitzschia multiseries |
| Title | Effects of changing pCO sub(2) and phosphate availability on domoic acid production and physiology of the marine harmful bloom diatom Pseudo-nitzschia multiseries |
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