publication . Article . Other literature type . 2018

Temperature Effects Explain Continental Scale Distribution of Cyanobacterial Toxins

Kirsten Christoffersen; Alo Laas; Ülkü Nihan Tavşanoğlu; Christos Avagianos; Iveta Drastichova; Mete Yilmaz; Kersti Kangro; Enrique Moreno-Ostos; Anna Kozak; Iwona Kostrzewska-Szlakowska; ...
Open Access English
  • Published: 13 Apr 2018
Abstract
Peer reviewed
Subjects
free text keywords: Toxines bacterianes, Canvis climàtics, Bacterial toxins, Climatic changes, Microcystin, Anatoxin, Cylindrospermopsin, Temperature, Direct effects, European Multi Lake Survey, Journal Article, international, Global environmental change, Article, indirect effects, spatial distribution, syanobakteerit, toksiinit, lämpötila, levinneisyys, Medicine, R, cyanobacteria, lakes, climate warming, microcystin; anatoxin; cylindrospermopsin; temperature; direct effects; indirect effects; spatial distribution; European Multi Lake Survey, Toxicology, Leerstoelgroep Aquatische ecologie en waterkwaliteitsbeheer, Aquatische Ecologie en Waterkwaliteitsbeheer, WIMEK, Aquatic Ecology and Water Quality Management, İndirect Effects, Microcystins, Settore BIO/07 - Ecologia, Health, Toxicology and Mutagenesis, Anatoxin ; Cylindrospermopsin ; Direct effects ; European Multi Lake Survey ; Indirect effects ; Microcystin ; Spatial distribution ; Temperature, ta1181, ta1172, MICROCYSTIS-AERUGINOSA, PHYTOPLANKTON ASSEMBLAGES, NITROGEN AVAILABILITY, DAPHNIA-MAGNA, FRESH-WATER, BLOOMS, LAKES, CLIMATE, GROWTH, EUTROPHICATION, 1172 Environmental sciences, bacterial toxin, microcystin LR, microcystin RR, nitrogen, phosphorus, anatoxin a, tropane derivative, uracil, controlled study, environmental factor, environmental parameters, epilimnetic temperature, geographic distribution, high performance liquid chromatography, latitude, light climate, limit of detection, limit of quantitation, liquid chromatography-mass spectrometry, longitude, maximum buoyancy frequency, microbial community, microbial diversity, nonhuman, nutrient, phytoplankton, response variable, sea surface temperature, thermocline, analogs and derivatives, analysis, climate change, cyanobacterium, environmental monitoring, Europe, lake, microbiology, water pollutant, Tropanes, Water Pollutants, /dk/atira/pure/researchoutput/pubmedpublicationtype/D016428, /dk/atira/pure/researchoutput/pubmedpublicationtype/D013485, Research Support, Non-U.S. Gov't, Ecology, Ekologi, ddc:570, ddc:550, Nodularin, chemistry.chemical_compound, chemistry, Microcystin-LR, Toxin, medicine.disease_cause, chemistry.chemical_classification, Biology, Microcystis aeruginosa, biology.organism_classification, Cyanobacteria, Zoology, Anatoxin-a
Funded by
EC| BLUEandGREEN
Project
BLUEandGREEN
Boosting scientific excellence and innovation capacity in biorefineries based on marine resources
  • Funder: European Commission (EC)
  • Project Code: 692419
  • Funding stream: H2020 | CSA
,
NWO| EV Diagnostics for monitoring therapy byliquid tuneable Coulter flowcytometry (project 3.2)
Project
  • Funder: Netherlands Organisation for Scientific Research (NWO) (NWO)
  • Project Code: 2300191183
Communities
European Marine ScienceMarine Environmental Science: Boosting scientific excellence and innovation capacity in biorefineries based on marine resources
35 references, page 1 of 3

Codd, G.A.; Meriluoto, J.; Metcalf, J.S. Introduction: Cyanobacteria, Cyanotoxins, Their Human Impact, and 10. Schopf, J.W. The Fossil Record: Tracing the Roots of the Cyanobacterial Lineage. In The Ecology of Cyanobacteria: Their Diversity in Time and Space; Whitton, B.A., Potts, M., Eds.; Springer: Dordrecht, The Netherlands, 2002; pp. 13-35.

11. Carey, C.C.; Ibelings, B.W.; Hoffmann, E.P.; Hamilton, D.P.; Brookes, J.D. Eco-physiological adaptations that favour freshwater cyanobacteria in a changing climate. Water Res. 2012, 46, 1394-1407. [CrossRef] [PubMed] 12. Mantzouki, E.; Visser, P.M.; Bormans, M.; Ibelings, B.W. Understanding the key ecological traits of cyanobacteria as a basis for their management and control in changing lakes. Aquat. Ecol. 2015, 50, 333-350. [CrossRef] 13. Ibelings, B.W.; Mur, L.R.; Kinsman, R.; Walsby, A.E. Microcystis changes its buoyancy in response to the average irradiance in the surface mixed layer. Archiv für Hydrobiologie 1991, 120, 385-401. [OpenAIRE]

14. Granf, G.G.; Oliver, R.L. Vertical separation of light and available nutrients as a factor causing replacement of green-algae by blue-green algae in the plankton of a stratified lake. J. Ecol. 1982, 70, 829-844. [CrossRef] 15. Arnaud, C.; Bernard, C.; Spoof, L.; Bruno, M. Microcystins and Nodularins. In Handbook of Cyanobacterial Monitoring and Cyanotoxin Analysis; Meriluoto, J., Codd, G.A., Eds.; John Wiley & Sons, Ltd.: Hoboken, NJ, USA, 2017.

16. Hubert, J.F.; Fastner, J. Ecology of Cyanobacteria. In Handbook of Cyanobacterial Monitoring and Cyanotoxin Analysis; John Wiley & Sons, Ltd.: Hoboken, NJ, USA, 2017. [OpenAIRE]

17. Kokocin´ ski, M.; Cameán, A.M.; Carmeli, S.; Guzmán-Guillén, R.; Jos, Á.; Mankiewicz-Boczek, J.; Metcalf, J.S.; Moreno, I.M.; Prieto, A.I.; et al. Cylindrospermopsin and Congeners. In Handbook of Cyanobacterial Monitoring and Cyanotoxin Analysis; Meriluoto, L.S.J., Codd, G.A., Eds.; John Wiley & Sons, Ltd.: Hoboken, NJ, USA, 2017. [OpenAIRE]

18. Nogueira, I.C.; Saker, M.L.; Pflugmacher, S.; Wiegand, C.; Vasconcelos, V.M. Toxicity of the cyanobacterium Cylindrospermopsis raciborskii to Daphnia magna. Environ. Toxicol. 2004, 19, 453-459. [CrossRef] [PubMed] 19. Gilbert, J.J. Effect of food availability on the response of planktonic rotifers to a toxic strain of the cyanobacterium Anabaena flos-aquae. Limnol. Oceanogr. 1996, 41, 1565-1572. [CrossRef] 20. DeMott, W.R.; Zhang, Q.X.; Carmichael, W.W. Effects of toxic cyanobacteria and purified toxins on the survival and feeding of a copepod and three species of Daphnia. Limnol. Oceanogr. 1991, 36, 1346-1357. [OpenAIRE]

[CrossRef] 21. Holland, A.; Kinnear, S. Interpreting the possible ecological role(s) of cyanotoxins: Compounds for competitive advantage and/or physiological aide? Mar. Drugs 2013, 11, 2239-2258. [CrossRef] [PubMed] 22. Capelli, C.; Ballot, A.; Cerasino, L.; Papini, A.; Salmaso, N. Biogeography of bloom-forming microcystin producing and non-toxigenic populations of Dolichospermum lemmermannii (Cyanobacteria). Harmful Algae 2017, 67, 1-12. [CrossRef] [PubMed] 23. Meriluoto, J.L.; Spoof, L.; Codd, G. Handbook of Cyanobacterial Monitoring and Cyanotoxin Analysis; Wiley: Hoboken, NJ, USA, 2017. [OpenAIRE]

33. Fawell, J. Toxins from Blue-Green Algae: Toxicological Assessment of Microcystin-LR; W.R. Centre: Medmenham, UK, 1993; pp. 1-259.

34. Wolf, H.U.; Frank, C. Toxicity assessment of cyanobacterial toxin mixtures. Environ. Toxicol. 2002, 17, 395-399.

[CrossRef] [PubMed] 35. Faassen, E.J.; Lurling, M. Occurrence of the microcystins MC-LW and MC-LF in Dutch surface waters and their contribution to total microcystin toxicity. Mar. Drugs 2013, 11, 2643-2654. [CrossRef] [PubMed] 36. Chorus, I.; Bartram, J. Toxic Cyanobacteria in Water-A Guide to Their Public Health Consequences, Monitoring and Management; Spon Press: London, UK, 1999. [OpenAIRE]

37. Ibelings, B.; Havens, K. Cyanobacterial toxins: A qualitative meta-analysis of concentrations, dosage and effects in freshwater, estuarine and marine biota. Adv. Exp. Med. Biol. 2008, 619, 675-732. [PubMed] 38. Loftin, K.A.; Graham, J.L.; Hilborn, E.; Lehmann, S.; Meyer, M.T.; Dietze, J.E.; Griffith, C. Cyanotoxins in inland lakes of the United States: Occurrence and potential recreational health risks in the EPA National Lakes Assessment 2007. Harmful Algae 2016, 56, 77-90. [CrossRef] [PubMed] 39. Chorus, I. Current Approaches to Cyanotoxin Risk Assessment, Risk Management and Regulations in Different Countries; Chorus, I., Ed.; Federal Environmental Agency (Umweltbundesamt): Dessau-Roßlau, Germany, 2005. [OpenAIRE]

40. Beniston, M.; Stephenson, D.B.; Christensen, O.B.; Ferro, C.A.T.; Frei, C.; Goyette, S.; Halsnaes, K.; Holt, T.; Jylhä, K.; Koffi, B.; et al. Future extreme events in European climate: An exploration of regional climate model projections. Clim. Chang. 2007, 81, 71-95. [CrossRef] 41. Vautard, R.; Gobiet, A.; Sobolowski, S.; Kjellström, E.; Stegehuis, A.; Watkiss, P.; Mendlik, T.; Landgren, O.; Nikulin, G.; Teichmann, C.; et al. The European climate under a 2 C global warming. Environ. Res. Lett.

2014, 9, 034006. [CrossRef] 42. Hoy, A.; Hänsel, S.; Skalak, P.; Ustrnul, Z.; Bochnicek, O. The extreme European summer of 2015 in a secular perspective. Int. J. Climatol. 2016, 37, 1-34.

43. Messineo, V.; Melchiorre, S.; Di Corcia, A.; Gallo, P.; Bruno, M. Seasonal succession of Cylindrospermopsis raciborskii and Aphanizomenon ovalisporum blooms with cylindrospermopsin occurrence in the volcanic Lake Albano, Central Italy. Environ. Toxicol. 2010, 25, 18-27. [PubMed] 44. Salmaso, N.; Cerasino, L.; Boscaini, A.; Capelli, C. Planktic Tychonema (Cyanobacteria) in the large lakes south of the Alps: Phylogenetic assessment and toxigenic potential. FEMS Microbiol. Ecol. 2016, 92, fiw155.

[CrossRef] [PubMed] 45. Pawlik-Skowron´ ska, B.; Kalinowska, R.; Skowron´ ski, T. Cyanotoxin diversity and food web bioaccumulation in a reservoir with decreasing phosphorus concentrations and perennial cyanobacterial blooms.

35 references, page 1 of 3
Abstract
Peer reviewed
Subjects
free text keywords: Toxines bacterianes, Canvis climàtics, Bacterial toxins, Climatic changes, Microcystin, Anatoxin, Cylindrospermopsin, Temperature, Direct effects, European Multi Lake Survey, Journal Article, international, Global environmental change, Article, indirect effects, spatial distribution, syanobakteerit, toksiinit, lämpötila, levinneisyys, Medicine, R, cyanobacteria, lakes, climate warming, microcystin; anatoxin; cylindrospermopsin; temperature; direct effects; indirect effects; spatial distribution; European Multi Lake Survey, Toxicology, Leerstoelgroep Aquatische ecologie en waterkwaliteitsbeheer, Aquatische Ecologie en Waterkwaliteitsbeheer, WIMEK, Aquatic Ecology and Water Quality Management, İndirect Effects, Microcystins, Settore BIO/07 - Ecologia, Health, Toxicology and Mutagenesis, Anatoxin ; Cylindrospermopsin ; Direct effects ; European Multi Lake Survey ; Indirect effects ; Microcystin ; Spatial distribution ; Temperature, ta1181, ta1172, MICROCYSTIS-AERUGINOSA, PHYTOPLANKTON ASSEMBLAGES, NITROGEN AVAILABILITY, DAPHNIA-MAGNA, FRESH-WATER, BLOOMS, LAKES, CLIMATE, GROWTH, EUTROPHICATION, 1172 Environmental sciences, bacterial toxin, microcystin LR, microcystin RR, nitrogen, phosphorus, anatoxin a, tropane derivative, uracil, controlled study, environmental factor, environmental parameters, epilimnetic temperature, geographic distribution, high performance liquid chromatography, latitude, light climate, limit of detection, limit of quantitation, liquid chromatography-mass spectrometry, longitude, maximum buoyancy frequency, microbial community, microbial diversity, nonhuman, nutrient, phytoplankton, response variable, sea surface temperature, thermocline, analogs and derivatives, analysis, climate change, cyanobacterium, environmental monitoring, Europe, lake, microbiology, water pollutant, Tropanes, Water Pollutants, /dk/atira/pure/researchoutput/pubmedpublicationtype/D016428, /dk/atira/pure/researchoutput/pubmedpublicationtype/D013485, Research Support, Non-U.S. Gov't, Ecology, Ekologi, ddc:570, ddc:550, Nodularin, chemistry.chemical_compound, chemistry, Microcystin-LR, Toxin, medicine.disease_cause, chemistry.chemical_classification, Biology, Microcystis aeruginosa, biology.organism_classification, Cyanobacteria, Zoology, Anatoxin-a
Funded by
EC| BLUEandGREEN
Project
BLUEandGREEN
Boosting scientific excellence and innovation capacity in biorefineries based on marine resources
  • Funder: European Commission (EC)
  • Project Code: 692419
  • Funding stream: H2020 | CSA
,
NWO| EV Diagnostics for monitoring therapy byliquid tuneable Coulter flowcytometry (project 3.2)
Project
  • Funder: Netherlands Organisation for Scientific Research (NWO) (NWO)
  • Project Code: 2300191183
Communities
European Marine ScienceMarine Environmental Science: Boosting scientific excellence and innovation capacity in biorefineries based on marine resources
35 references, page 1 of 3

Codd, G.A.; Meriluoto, J.; Metcalf, J.S. Introduction: Cyanobacteria, Cyanotoxins, Their Human Impact, and 10. Schopf, J.W. The Fossil Record: Tracing the Roots of the Cyanobacterial Lineage. In The Ecology of Cyanobacteria: Their Diversity in Time and Space; Whitton, B.A., Potts, M., Eds.; Springer: Dordrecht, The Netherlands, 2002; pp. 13-35.

11. Carey, C.C.; Ibelings, B.W.; Hoffmann, E.P.; Hamilton, D.P.; Brookes, J.D. Eco-physiological adaptations that favour freshwater cyanobacteria in a changing climate. Water Res. 2012, 46, 1394-1407. [CrossRef] [PubMed] 12. Mantzouki, E.; Visser, P.M.; Bormans, M.; Ibelings, B.W. Understanding the key ecological traits of cyanobacteria as a basis for their management and control in changing lakes. Aquat. Ecol. 2015, 50, 333-350. [CrossRef] 13. Ibelings, B.W.; Mur, L.R.; Kinsman, R.; Walsby, A.E. Microcystis changes its buoyancy in response to the average irradiance in the surface mixed layer. Archiv für Hydrobiologie 1991, 120, 385-401. [OpenAIRE]

14. Granf, G.G.; Oliver, R.L. Vertical separation of light and available nutrients as a factor causing replacement of green-algae by blue-green algae in the plankton of a stratified lake. J. Ecol. 1982, 70, 829-844. [CrossRef] 15. Arnaud, C.; Bernard, C.; Spoof, L.; Bruno, M. Microcystins and Nodularins. In Handbook of Cyanobacterial Monitoring and Cyanotoxin Analysis; Meriluoto, J., Codd, G.A., Eds.; John Wiley & Sons, Ltd.: Hoboken, NJ, USA, 2017.

16. Hubert, J.F.; Fastner, J. Ecology of Cyanobacteria. In Handbook of Cyanobacterial Monitoring and Cyanotoxin Analysis; John Wiley & Sons, Ltd.: Hoboken, NJ, USA, 2017. [OpenAIRE]

17. Kokocin´ ski, M.; Cameán, A.M.; Carmeli, S.; Guzmán-Guillén, R.; Jos, Á.; Mankiewicz-Boczek, J.; Metcalf, J.S.; Moreno, I.M.; Prieto, A.I.; et al. Cylindrospermopsin and Congeners. In Handbook of Cyanobacterial Monitoring and Cyanotoxin Analysis; Meriluoto, L.S.J., Codd, G.A., Eds.; John Wiley & Sons, Ltd.: Hoboken, NJ, USA, 2017. [OpenAIRE]

18. Nogueira, I.C.; Saker, M.L.; Pflugmacher, S.; Wiegand, C.; Vasconcelos, V.M. Toxicity of the cyanobacterium Cylindrospermopsis raciborskii to Daphnia magna. Environ. Toxicol. 2004, 19, 453-459. [CrossRef] [PubMed] 19. Gilbert, J.J. Effect of food availability on the response of planktonic rotifers to a toxic strain of the cyanobacterium Anabaena flos-aquae. Limnol. Oceanogr. 1996, 41, 1565-1572. [CrossRef] 20. DeMott, W.R.; Zhang, Q.X.; Carmichael, W.W. Effects of toxic cyanobacteria and purified toxins on the survival and feeding of a copepod and three species of Daphnia. Limnol. Oceanogr. 1991, 36, 1346-1357. [OpenAIRE]

[CrossRef] 21. Holland, A.; Kinnear, S. Interpreting the possible ecological role(s) of cyanotoxins: Compounds for competitive advantage and/or physiological aide? Mar. Drugs 2013, 11, 2239-2258. [CrossRef] [PubMed] 22. Capelli, C.; Ballot, A.; Cerasino, L.; Papini, A.; Salmaso, N. Biogeography of bloom-forming microcystin producing and non-toxigenic populations of Dolichospermum lemmermannii (Cyanobacteria). Harmful Algae 2017, 67, 1-12. [CrossRef] [PubMed] 23. Meriluoto, J.L.; Spoof, L.; Codd, G. Handbook of Cyanobacterial Monitoring and Cyanotoxin Analysis; Wiley: Hoboken, NJ, USA, 2017. [OpenAIRE]

33. Fawell, J. Toxins from Blue-Green Algae: Toxicological Assessment of Microcystin-LR; W.R. Centre: Medmenham, UK, 1993; pp. 1-259.

34. Wolf, H.U.; Frank, C. Toxicity assessment of cyanobacterial toxin mixtures. Environ. Toxicol. 2002, 17, 395-399.

[CrossRef] [PubMed] 35. Faassen, E.J.; Lurling, M. Occurrence of the microcystins MC-LW and MC-LF in Dutch surface waters and their contribution to total microcystin toxicity. Mar. Drugs 2013, 11, 2643-2654. [CrossRef] [PubMed] 36. Chorus, I.; Bartram, J. Toxic Cyanobacteria in Water-A Guide to Their Public Health Consequences, Monitoring and Management; Spon Press: London, UK, 1999. [OpenAIRE]

37. Ibelings, B.; Havens, K. Cyanobacterial toxins: A qualitative meta-analysis of concentrations, dosage and effects in freshwater, estuarine and marine biota. Adv. Exp. Med. Biol. 2008, 619, 675-732. [PubMed] 38. Loftin, K.A.; Graham, J.L.; Hilborn, E.; Lehmann, S.; Meyer, M.T.; Dietze, J.E.; Griffith, C. Cyanotoxins in inland lakes of the United States: Occurrence and potential recreational health risks in the EPA National Lakes Assessment 2007. Harmful Algae 2016, 56, 77-90. [CrossRef] [PubMed] 39. Chorus, I. Current Approaches to Cyanotoxin Risk Assessment, Risk Management and Regulations in Different Countries; Chorus, I., Ed.; Federal Environmental Agency (Umweltbundesamt): Dessau-Roßlau, Germany, 2005. [OpenAIRE]

40. Beniston, M.; Stephenson, D.B.; Christensen, O.B.; Ferro, C.A.T.; Frei, C.; Goyette, S.; Halsnaes, K.; Holt, T.; Jylhä, K.; Koffi, B.; et al. Future extreme events in European climate: An exploration of regional climate model projections. Clim. Chang. 2007, 81, 71-95. [CrossRef] 41. Vautard, R.; Gobiet, A.; Sobolowski, S.; Kjellström, E.; Stegehuis, A.; Watkiss, P.; Mendlik, T.; Landgren, O.; Nikulin, G.; Teichmann, C.; et al. The European climate under a 2 C global warming. Environ. Res. Lett.

2014, 9, 034006. [CrossRef] 42. Hoy, A.; Hänsel, S.; Skalak, P.; Ustrnul, Z.; Bochnicek, O. The extreme European summer of 2015 in a secular perspective. Int. J. Climatol. 2016, 37, 1-34.

43. Messineo, V.; Melchiorre, S.; Di Corcia, A.; Gallo, P.; Bruno, M. Seasonal succession of Cylindrospermopsis raciborskii and Aphanizomenon ovalisporum blooms with cylindrospermopsin occurrence in the volcanic Lake Albano, Central Italy. Environ. Toxicol. 2010, 25, 18-27. [PubMed] 44. Salmaso, N.; Cerasino, L.; Boscaini, A.; Capelli, C. Planktic Tychonema (Cyanobacteria) in the large lakes south of the Alps: Phylogenetic assessment and toxigenic potential. FEMS Microbiol. Ecol. 2016, 92, fiw155.

[CrossRef] [PubMed] 45. Pawlik-Skowron´ ska, B.; Kalinowska, R.; Skowron´ ski, T. Cyanotoxin diversity and food web bioaccumulation in a reservoir with decreasing phosphorus concentrations and perennial cyanobacterial blooms.

35 references, page 1 of 3
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