Aphanizomenon

Aphanizomenon is an important genus of cyanobacteria that inhabits freshwater lakes and can cause dense blooms. Studies on the species Aphanizomenon flos-aquae have shown that it can regulate buoyancy through light-induced changes in turgor pressure.[1] It is also able to move by means of gliding, though the specific mechanism by which this is possible is not yet known.

Aphanizomenon
Aphanizomenon flos-aquae
Scientific classification
Domain: Bacteria
Phylum: Cyanobacteria
Class: Cyanophyceae
Order: Nostocales
Family: Aphanizomenonaceae
Genus: Aphanizomenon
A.Morren ex Bornet & Flahault, 1888
Species

Aphanizomenon flos-aquae Aphanizomenon gracile Aphanizomenon issatschenkoi Aphanizomenon ovalisporum

Ecology

Overcoming phosphate limitation

Aphanizomenon may become dominant in a water body partially due to their ability to induce phosphate-limitation in other phytoplankton while also increasing phosphate availability to itself through release of cylindrospermopsin.[2] The cylindrospermopsin causes other phytoplankton to increase their alkaline phosphatase activity, increasing inorganic phosphate availability in the water to Aphanizomenon during times when phosphate becomes limiting.

Nitrogen fixation

Aphanizomenon is capable of producing biologically-useful nitrogen (ammonium) by the process of nitrogen fixation from atmospheric nitrogen by use of specialized cells called heterocysts.

A large proportion (between 35-50%) of fixed nitrogen may be released into the surrounding water, providing an important source of biologically-available nitrogen to the ecosystem.[3][4]

Toxin production

Aphanizomenon species may produce cyanotoxins aside from cylindrospermopsin, including anatoxin-a, saxitoxin and BMAA.[5]

Colony formation

Aphanizomenon may form large colonies as a defense against herbivore grazing, especially Daphnia in freshwater. [6]

See also

References

  1. Konopka, A.; T. D. Brock; A. E. Walsby (1978). "Buoyancy regulation by planktonic blue-green algae in Lake Mendota, Wisconsin". Arch. Hydrobiol. 83: 524–537.
  2. Yehonathan Bar-Yosef; Assaf Sukenik; Ora Hadas; Yehudit Viner-Mozzini & Aaron Kaplan (2010). "Enslavement in the Water Body by Toxic Aphanizomenon ovalisporum, Inducing Alkaline Phosphatase in Phytoplanktons". Current Biology. 20 (17): 1557–1561. doi:10.1016/j.cub.2010.07.032. PMID 20705465.
  3. Adam, B.; Klawonn, I.; Svedén, J. B.; Bergkvist, J.; Nahar, N.; Walve, J.; Littmann, S.; Whitehouse, M. J.; Lavik, G.; Kuypers, M. M.; Ploug, H. (2015). "N2-fixation, ammonium release and N-transfer to the microbial and classical food web within a plankton community". The ISME Journal. 10 (2): 450–459. doi:10.1038/ismej.2015.126. PMC 4737936. PMID 26262817.
  4. Ploug, Helle; Musat, Niculina; Adam, Birgit; Moraru, Christina L.; Lavik, Gaute; Vagner, Tomas; Bergman, Birgitta; Kuypers, Marcel M. M. (2010). "Carbon and nitrogen fluxes associated with the cyanobacterium Aphanizomenon sp. in the Baltic Sea". The ISME Journal. 4 (9): 1215–1223. doi:10.1038/ismej.2010.53. PMID 20428225.
  5. "Cyanobacteria/Cyanotoxins". US EPA. 2015. Archived from the original on 2015-10-17. Retrieved 2015-10-25.
  6. "Aphanizomenon blooms: alternate control and cultivation by Daphnia pulex" (PDF). American Society of Limnology and Oceanography Special Symposium No. 3: 299-304. 1980.

Guiry, M.D.; Guiry, G.M. (2008). "Aphanizomenon". AlgaeBase. World-wide electronic publication, National University of Ireland, Galway.


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