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Biofouling
The Journal of Bioadhesion and Biofilm Research
Volume 30, 2014 - Issue 8
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Articles

Protection of cells from salinity stress by extracellular polymeric substances in diatom biofilms

Deborah J. SteeleSchool of Biological Sciences, University of Essex, Colchester, UK;Faculty of Science & Technology, Bournemouth University, Poole, UK;Plymouth Marine Laboratory, Plymouth, UKCorrespondence[email protected]
,
Daniel J. FranklinFaculty of Science & Technology, Bournemouth University, Poole, UK
&
Graham J.C. UnderwoodSchool of Biological Sciences, University of Essex, Colchester, UK
Pages 987-998 | Received 05 May 2014, Accepted 28 Aug 2014, Published online: 30 Sep 2014
 
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Abstract

Diatom biofilms are abundant in the marine environment. It is assumed (but untested) that extracellular polymeric substances (EPS), produced by diatoms, enable cells to cope with fluctuating salinity. To determine the protective role of EPS, Cylindrotheca closterium was grown in xanthan gum at salinities of 35, 50, 70 and 90 ppt. A xanthan matrix significantly increased cell viability (determined by SYTOX-Green), growth rate and population density by up to 300, 2,300 and 200%, respectively. Diatoms grown in 0.75% w/v xanthan, subjected to acute salinity shock treatments (at salinities 17.5, 50, 70 and 90 ppt) maintained photosynthetic capacity, Fq′/Fm, within 4% of pre-shock values, whereas Fq′/Fm in cells grown without xanthan declined by up to 64% with hypersaline shock. Biofilms that developed in xanthan at standard salinity helped cells to maintain function during salinity shock. These results provide evidence of the benefits of living in an EPS matrix for biofilm diatoms.

Acknowledgements

This work was partly supported by the UK Natural Environment Research Council (NE/E016251/1).

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