Pseudo-nitzschia physiological ecology, phylogeny, toxicity, monitoring and impact on ecosystem health

Research output: Contribution to journalJournal articleResearchpeer-review

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Pseudo-nitzschia physiological ecology, phylogeny, toxicity, monitoring and impact on ecosystem health. / Trainer, Vera L.; Bates, Steve S.; Lundholm, Nina; Thessen, Anne E.; Cochlan, William P.; Adams, Nicolaus G.; Trick, Charles G.

In: Harmful Algae, Vol. 14, 2012, p. 271-300.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Trainer, VL, Bates, SS, Lundholm, N, Thessen, AE, Cochlan, WP, Adams, NG & Trick, CG 2012, 'Pseudo-nitzschia physiological ecology, phylogeny, toxicity, monitoring and impact on ecosystem health', Harmful Algae, vol. 14, pp. 271-300. https://doi.org/10.1016/j.hal.2011.10.025

APA

Trainer, V. L., Bates, S. S., Lundholm, N., Thessen, A. E., Cochlan, W. P., Adams, N. G., & Trick, C. G. (2012). Pseudo-nitzschia physiological ecology, phylogeny, toxicity, monitoring and impact on ecosystem health. Harmful Algae, 14, 271-300. https://doi.org/10.1016/j.hal.2011.10.025

Vancouver

Trainer VL, Bates SS, Lundholm N, Thessen AE, Cochlan WP, Adams NG et al. Pseudo-nitzschia physiological ecology, phylogeny, toxicity, monitoring and impact on ecosystem health. Harmful Algae. 2012;14:271-300. https://doi.org/10.1016/j.hal.2011.10.025

Author

Trainer, Vera L. ; Bates, Steve S. ; Lundholm, Nina ; Thessen, Anne E. ; Cochlan, William P. ; Adams, Nicolaus G. ; Trick, Charles G. / Pseudo-nitzschia physiological ecology, phylogeny, toxicity, monitoring and impact on ecosystem health. In: Harmful Algae. 2012 ; Vol. 14. pp. 271-300.

Bibtex

@article{9b311e0da0f144818d0694976d9d6fda,
title = "Pseudo-nitzschia physiological ecology, phylogeny, toxicity, monitoring and impact on ecosystem health",
abstract = "Over the last decade, our understanding of the environmental controls on Pseudo-nitzschia blooms and domoic acid (DA) production has matured. Pseudo-nitzschia have been found along most of the world{\textquoteright}s coastlines, while the impacts of its toxin, DA, are most persistent and detrimental in upwelling systems. However, Pseudo-nitzschia and DA have recently been detected in the open ocean{\textquoteright}s high-nitrate, lowchlorophyll regions, in addition to fjords, gulfs and bays, showing their presence in diverse environments. The toxin has been measured in zooplankton, shellfish, crustaceans, echinoderms, worms, marine mammals and birds, as well as in sediments, demonstrating its stable transfer through the marine food web and abiotically to the benthos. The linkage of DA production to nitrogenous nutrient physiology, trace metal acquisition, and even salinity, suggests that the control of toxin production is complex and likely influenced by a suite of environmental factors that may be unique to a particular region. Advances in our knowledge of Pseudo-nitzschia sexual reproduction, also in field populations, illustrate its importance in bloom dynamics and toxicity. The combination of careful taxonomy and powerful new molecular methods now allow for the complete characterization of Pseudo-nitzschia populations and how they respond to environmental changes. Here we summarize research that represents our increased knowledge over the last decade of Pseudo-nitzschia and its production of DA, including changes in worldwide range, phylogeny, physiology, ecology, monitoring and public health impacts. ",
author = "Trainer, {Vera L.} and Bates, {Steve S.} and Nina Lundholm and Thessen, {Anne E.} and Cochlan, {William P.} and Adams, {Nicolaus G.} and Trick, {Charles G.}",
year = "2012",
doi = "10.1016/j.hal.2011.10.025",
language = "English",
volume = "14",
pages = "271--300",
journal = "Harmful Algae",
issn = "1568-9883",
publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Pseudo-nitzschia physiological ecology, phylogeny, toxicity, monitoring and impact on ecosystem health

AU - Trainer, Vera L.

AU - Bates, Steve S.

AU - Lundholm, Nina

AU - Thessen, Anne E.

AU - Cochlan, William P.

AU - Adams, Nicolaus G.

AU - Trick, Charles G.

PY - 2012

Y1 - 2012

N2 - Over the last decade, our understanding of the environmental controls on Pseudo-nitzschia blooms and domoic acid (DA) production has matured. Pseudo-nitzschia have been found along most of the world’s coastlines, while the impacts of its toxin, DA, are most persistent and detrimental in upwelling systems. However, Pseudo-nitzschia and DA have recently been detected in the open ocean’s high-nitrate, lowchlorophyll regions, in addition to fjords, gulfs and bays, showing their presence in diverse environments. The toxin has been measured in zooplankton, shellfish, crustaceans, echinoderms, worms, marine mammals and birds, as well as in sediments, demonstrating its stable transfer through the marine food web and abiotically to the benthos. The linkage of DA production to nitrogenous nutrient physiology, trace metal acquisition, and even salinity, suggests that the control of toxin production is complex and likely influenced by a suite of environmental factors that may be unique to a particular region. Advances in our knowledge of Pseudo-nitzschia sexual reproduction, also in field populations, illustrate its importance in bloom dynamics and toxicity. The combination of careful taxonomy and powerful new molecular methods now allow for the complete characterization of Pseudo-nitzschia populations and how they respond to environmental changes. Here we summarize research that represents our increased knowledge over the last decade of Pseudo-nitzschia and its production of DA, including changes in worldwide range, phylogeny, physiology, ecology, monitoring and public health impacts.

AB - Over the last decade, our understanding of the environmental controls on Pseudo-nitzschia blooms and domoic acid (DA) production has matured. Pseudo-nitzschia have been found along most of the world’s coastlines, while the impacts of its toxin, DA, are most persistent and detrimental in upwelling systems. However, Pseudo-nitzschia and DA have recently been detected in the open ocean’s high-nitrate, lowchlorophyll regions, in addition to fjords, gulfs and bays, showing their presence in diverse environments. The toxin has been measured in zooplankton, shellfish, crustaceans, echinoderms, worms, marine mammals and birds, as well as in sediments, demonstrating its stable transfer through the marine food web and abiotically to the benthos. The linkage of DA production to nitrogenous nutrient physiology, trace metal acquisition, and even salinity, suggests that the control of toxin production is complex and likely influenced by a suite of environmental factors that may be unique to a particular region. Advances in our knowledge of Pseudo-nitzschia sexual reproduction, also in field populations, illustrate its importance in bloom dynamics and toxicity. The combination of careful taxonomy and powerful new molecular methods now allow for the complete characterization of Pseudo-nitzschia populations and how they respond to environmental changes. Here we summarize research that represents our increased knowledge over the last decade of Pseudo-nitzschia and its production of DA, including changes in worldwide range, phylogeny, physiology, ecology, monitoring and public health impacts.

U2 - 10.1016/j.hal.2011.10.025

DO - 10.1016/j.hal.2011.10.025

M3 - Journal article

VL - 14

SP - 271

EP - 300

JO - Harmful Algae

JF - Harmful Algae

SN - 1568-9883

ER -

ID: 37713456