The impact of urea on toxic diatoms – Potential effects of fertilizer silo breakdown on a Pseudo-nitzschia bloom

Research output: Contribution to journalJournal articleResearchpeer-review

Standard

The impact of urea on toxic diatoms – Potential effects of fertilizer silo breakdown on a Pseudo-nitzschia bloom. / Olesen, Anna J.; Harðardóttir, Sara; Daugbjerg, Niels; Andersen, Per; Lyngsgaard, Maren; Krock, Bernd; Lundholm, Nina.

In: Harmful Algae, Vol. 95, 101817, 2020.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Olesen, AJ, Harðardóttir, S, Daugbjerg, N, Andersen, P, Lyngsgaard, M, Krock, B & Lundholm, N 2020, 'The impact of urea on toxic diatoms – Potential effects of fertilizer silo breakdown on a Pseudo-nitzschia bloom', Harmful Algae, vol. 95, 101817. https://doi.org/10.1016/j.hal.2020.101817

APA

Olesen, A. J., Harðardóttir, S., Daugbjerg, N., Andersen, P., Lyngsgaard, M., Krock, B., & Lundholm, N. (2020). The impact of urea on toxic diatoms – Potential effects of fertilizer silo breakdown on a Pseudo-nitzschia bloom. Harmful Algae, 95, [101817]. https://doi.org/10.1016/j.hal.2020.101817

Vancouver

Olesen AJ, Harðardóttir S, Daugbjerg N, Andersen P, Lyngsgaard M, Krock B et al. The impact of urea on toxic diatoms – Potential effects of fertilizer silo breakdown on a Pseudo-nitzschia bloom. Harmful Algae. 2020;95. 101817. https://doi.org/10.1016/j.hal.2020.101817

Author

Olesen, Anna J. ; Harðardóttir, Sara ; Daugbjerg, Niels ; Andersen, Per ; Lyngsgaard, Maren ; Krock, Bernd ; Lundholm, Nina. / The impact of urea on toxic diatoms – Potential effects of fertilizer silo breakdown on a Pseudo-nitzschia bloom. In: Harmful Algae. 2020 ; Vol. 95.

Bibtex

@article{cae22a46ce75457dbd93e0a7012a4b2c,
title = "The impact of urea on toxic diatoms – Potential effects of fertilizer silo breakdown on a Pseudo-nitzschia bloom",
abstract = "In spring 2016, two silos containing liquid nitrogen-containing fertilizer collapsed on a harbor in Fredericia, Denmark. More than 2,750 tons of fertilizer spilled into inner Danish waters. A bloom of Pseudo-nitzschia occurred approximately one month after the incident. The bloom caused a 5-week quarantine of numerous mussel-harvesting areas along the eastern coast of Jutland. The levels of domoic acid measured up to 49 mg kg−1 in mussel meat after the bloom. In the months following the event, the species diversity of phytoplankton was low, while the abundance was high comprising few dominant species including Pseudo-nitzschia. The main part of the liquid nitrogen-containing compound was urea, chemically produced for agricultural use. To investigate the potential impact of urea on Pseudo-nitzschia, four strains, including one strain of P. delicatissima, two of P. seriata and one of P. obtusa, were exposed each to three concentrations of urea in a batch culture experiment: 10 μM, 20 μM and 100 μM N urea, and for comparison one concentration of nitrate (10 μM). Nitrate, ammonium, and urea were metabolized at different rates. Pseudo-nitzschia obtusa produced domoic acid and grew best at low urea concentrations. Both P. seriata strains had a positive correlation between urea concentration and growth rate, and the highest growth rate in the nitrate treatment. One strain of P. seriata produced domoic acid peaking at low N loads (10 µM N urea and 10 µM N nitrate). In conclusion, the ability to adapt to the available nitrogen source and retain a high growth rate was exceedingly varying and not only species-specific but also strain specific.",
keywords = "Domoic acid, Fertilizer spill, Harmful algal bloom, Nitrogen, Pseudo-nitzschia, Urea",
author = "Olesen, {Anna J.} and Sara Har{\dh}ard{\'o}ttir and Niels Daugbjerg and Per Andersen and Maren Lyngsgaard and Bernd Krock and Nina Lundholm",
year = "2020",
doi = "10.1016/j.hal.2020.101817",
language = "English",
volume = "95",
journal = "Harmful Algae",
issn = "1568-9883",
publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - The impact of urea on toxic diatoms – Potential effects of fertilizer silo breakdown on a Pseudo-nitzschia bloom

AU - Olesen, Anna J.

AU - Harðardóttir, Sara

AU - Daugbjerg, Niels

AU - Andersen, Per

AU - Lyngsgaard, Maren

AU - Krock, Bernd

AU - Lundholm, Nina

PY - 2020

Y1 - 2020

N2 - In spring 2016, two silos containing liquid nitrogen-containing fertilizer collapsed on a harbor in Fredericia, Denmark. More than 2,750 tons of fertilizer spilled into inner Danish waters. A bloom of Pseudo-nitzschia occurred approximately one month after the incident. The bloom caused a 5-week quarantine of numerous mussel-harvesting areas along the eastern coast of Jutland. The levels of domoic acid measured up to 49 mg kg−1 in mussel meat after the bloom. In the months following the event, the species diversity of phytoplankton was low, while the abundance was high comprising few dominant species including Pseudo-nitzschia. The main part of the liquid nitrogen-containing compound was urea, chemically produced for agricultural use. To investigate the potential impact of urea on Pseudo-nitzschia, four strains, including one strain of P. delicatissima, two of P. seriata and one of P. obtusa, were exposed each to three concentrations of urea in a batch culture experiment: 10 μM, 20 μM and 100 μM N urea, and for comparison one concentration of nitrate (10 μM). Nitrate, ammonium, and urea were metabolized at different rates. Pseudo-nitzschia obtusa produced domoic acid and grew best at low urea concentrations. Both P. seriata strains had a positive correlation between urea concentration and growth rate, and the highest growth rate in the nitrate treatment. One strain of P. seriata produced domoic acid peaking at low N loads (10 µM N urea and 10 µM N nitrate). In conclusion, the ability to adapt to the available nitrogen source and retain a high growth rate was exceedingly varying and not only species-specific but also strain specific.

AB - In spring 2016, two silos containing liquid nitrogen-containing fertilizer collapsed on a harbor in Fredericia, Denmark. More than 2,750 tons of fertilizer spilled into inner Danish waters. A bloom of Pseudo-nitzschia occurred approximately one month after the incident. The bloom caused a 5-week quarantine of numerous mussel-harvesting areas along the eastern coast of Jutland. The levels of domoic acid measured up to 49 mg kg−1 in mussel meat after the bloom. In the months following the event, the species diversity of phytoplankton was low, while the abundance was high comprising few dominant species including Pseudo-nitzschia. The main part of the liquid nitrogen-containing compound was urea, chemically produced for agricultural use. To investigate the potential impact of urea on Pseudo-nitzschia, four strains, including one strain of P. delicatissima, two of P. seriata and one of P. obtusa, were exposed each to three concentrations of urea in a batch culture experiment: 10 μM, 20 μM and 100 μM N urea, and for comparison one concentration of nitrate (10 μM). Nitrate, ammonium, and urea were metabolized at different rates. Pseudo-nitzschia obtusa produced domoic acid and grew best at low urea concentrations. Both P. seriata strains had a positive correlation between urea concentration and growth rate, and the highest growth rate in the nitrate treatment. One strain of P. seriata produced domoic acid peaking at low N loads (10 µM N urea and 10 µM N nitrate). In conclusion, the ability to adapt to the available nitrogen source and retain a high growth rate was exceedingly varying and not only species-specific but also strain specific.

KW - Domoic acid

KW - Fertilizer spill

KW - Harmful algal bloom

KW - Nitrogen

KW - Pseudo-nitzschia

KW - Urea

U2 - 10.1016/j.hal.2020.101817

DO - 10.1016/j.hal.2020.101817

M3 - Journal article

C2 - 32439060

AN - SCOPUS:85084032860

VL - 95

JO - Harmful Algae

JF - Harmful Algae

SN - 1568-9883

M1 - 101817

ER -

ID: 242361916