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Original Articles

Change in the elemental composition and cell geometry of the marine diatom Attheya longicornis under nitrogen- and iron-depleted conditions

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Pages 11-20 | Received 02 Nov 2016, Accepted 09 Feb 2017, Published online: 31 Mar 2017
 

Abstract

The morphology of the siliceous cell wall (frustule) is fundamental to the identification of diatom species. One of the fundamental questions is the ecophysiological role of the diatom frustule, which often shows morphological plasticity under different growth conditions. In this study, the morphology and elemental composition of the diatom Attheya longicornis were investigated under nutrient-replete (control), iron-depleted and nitrogen-depleted conditions. This cylindrical, unicellular species has four siliceous horns per cell. The horns are each formed from a hoop-like structure with a supporting rod, which greatly increases the surface area (SA) of the cell. Under the iron-depleted conditions, relative to the controls, the SA to cell volume ratio, silicon cell quota and siliceous horn length increased 2.3-, 2.3- and 1.4-fold, respectively. Under the nitrogen-depleted conditions, the cell size decreased without an increase in horn length, and the cellular biogenic silica (BSi) content was the highest between the three growth media. The change in cell geometry and elemental composition modified the sinking behaviour of A. longicornis. Estimated sinking rate was fastest in the nitrogen-depleted cells, followed by the controls and iron-depleted cells. The data suggest that the biogeochemical processes of BSi could show vertically opposite direction depending on the growth-limiting factors through a change in the elemental composition and cell morphology of diatoms. Such plastic responses to nitrogen and iron depletion may contribute to the relatively wide distribution of this species from the coastal to open ocean in the subarctic region.

Acknowledgements

It is grateful that invaluable comments from two anonymous reviewers significantly improved this manuscript. The SEM analysis of A. longicornis frustules was carried out with JSM-6360LA at the OPEN FACILITY, Hokkaido University Sousei Hall.

Disclosure statement

No potential conflict of interest was reported by the authors.

Additional information

Funding

This work was supported by grants from the Sasakawa Scientific Research Grant from the Japan Science Society to K. S., for Scientific Research Project from the Research Institute for Humanity and Nature to K. K., and for Scientific Research (18201001) from the Ministry of Education, Culture, Sports, Science and Technology to K. K.

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