Cryptoendolithic growth of the red alga Galdieria sulphuraria in volcanic areas

WOLFGANG GROSS; JAN KÜVER; GILBERT TISCHENDORF; NICOLAS BOUCHAALA; WILHELM BÜSCH

doi:10.1080/09670269810001736503

Abstract

The habitat of the acido- and thermophilic red algae Galdieria sulphuraria and Cyanidium caldarium was examined in acidic hot sulphur springs in the vicinity of Naples (Italy). These species grew on soil and rocks, but a large part of the populations was cryptoendolithic. The endolithic algal layer (1–3 mm in thickness) was covered by amorphous silica (1–2 mm in thickness) containing traces of hydrotroilite (FeS.nH2O) and elemental sulphur. Organotrophic bacteria and fungi were not found in the algal layer. Light penetration measurements showed that 0·1–1% of the sunlight reached the upper part of the algal layer. Thus, low-light-adapted algae should be able to perform some photosynthesis in this endolithic habitat. Under conditions where light is even more limited, e.g. in winter or after darkening of the covering layer, many of the cells might not survive. Aqueous extracts of these algae are excellent growth substrates for Galdieria sulphuraria. Therefore, we propose that compounds released from dead cells in the endolithic layer are used by the surrounding Galdieria cells for heterotrophic metabolism. This would increase their chance of surviving prolonged periods under detrimental conditions.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Seckbach, Joseph 1999. Enigmatic Microorganisms and Life in Extreme Environments. p. 425.

Heilmann, Ingo Perera, Imara Y. Gross, Wolfgang and Boss, Wendy F. 1999. Changes in Phosphoinositide Metabolism with Days in Culture Affect Signal Transduction Pathways inGaldieria sulphuraria1. Plant Physiology, Vol. 119, Issue. 4, p. 1331.

Gross, Wolfgang 1999. Enigmatic Microorganisms and Life in Extreme Environments. p. 437.

Gross, W. and Oesterhelt, Christine 1999. Ecophysiological Studies on the Red Alga Galdieria sulphuraria Isolated from Southwest Iceland. Plant Biology, Vol. 1, Issue. 6, p. 694.

Gimmler, H. 2001. Algal Adaptation to Environmental Stresses. p. 259.

Heilmann, Ingo Perera, Imara Y. Gross, Wolfgang and Boss, Wendy F. 2001. Plasma Membrane Phosphatidylinositol 4,5-Bisphosphate Levels Decrease with Time in Culture. Plant Physiology, Vol. 126, Issue. 4, p. 1507.

Hughes, Kevin A. and Lawley, Blair 2003. A novel Antarctic microbial endolithic community within gypsum crusts. Environmental Microbiology, Vol. 5, Issue. 7, p. 555.

Chen, Lanzhou Li, Dunhai and Liu, Yongding 2003. Salt tolerance of Microcoleus vaginatus Gom., a cyanobacterium isolated from desert algal crust, was enhanced by exogenous carbohydrates. Journal of Arid Environments, Vol. 55, Issue. 4, p. 645.

Weber, Andreas Oesterhelt, Christine Gross, Wolfgang Br�utigam, Andrea Imboden, Lori Krassovskaya, Inga Linka, Nicole Truchina, Julia Schneidereit, J�rg Voll, Hildegard Voll, Lars Zimmermann, Marc Jamai, Aziz Riekhof, Wayne Yu, Bin Garavito, R. and Benning, Christoph 2004. EST-analysis of the thermo-acidophilic red microalga Galdieriasulphuraria reveals potential for lipid A biosynthesis and unveils the pathway of carbon export from rhodoplasts. Plant Molecular Biology, Vol. 55, Issue. 1, p. 17.

Ferris, M. J. Sheehan, K. B. Kühl, M. Cooksey, K. Wigglesworth-Cooksey, B. Harvey, R. and Henson, J. M. 2005. Algal Species and Light Microenvironment in a Low-pH, Geothermal Microbial Mat Community. Applied and Environmental Microbiology, Vol. 71, Issue. 11, p. 7164.

Barbier, Guillaume Oesterhelt, Christine Larson, Matthew D. Halgren, Robert G. Wilkerson, Curtis Garavito, R. Michael Benning, Christoph and Weber, Andreas P.M. 2005. Comparative Genomics of Two Closely Related Unicellular Thermo-Acidophilic Red Algae, Galdieria sulphuraria and Cyanidioschyzon merolae, Reveals the Molecular Basis of the Metabolic Flexibility of Galdieria sulphuraria and Significant Differences in Carbohydrate Metabolism of Both Algae. Plant Physiology, Vol. 137, Issue. 2, p. 460.

De los Ríos, A. Sancho, L. G. Grube, M. Wierzchos, J. and Ascaso, C. 2005. Endolithic growth of two Lecidea lichens in granite from continental Antarctica detected by molecular and microscopy techniques. New Phytologist, Vol. 165, Issue. 1, p. 181.

Schmidt, Rikke Ankerstjerne Wiebe, Marilyn G. and Eriksen, Niels Thomas 2005. Heterotrophic high cell‐density fed‐batch cultures of the phycocyanin‐producing red alga Galdieria sulphuraria. Biotechnology and Bioengineering, Vol. 90, Issue. 1, p. 77.

Walker, Jeffrey J. Spear, John R. and Pace, Norman R. 2005. Geobiology of a microbial endolithic community in the Yellowstone geothermal environment. Nature, Vol. 434, Issue. 7036, p. 1011.

Gaylarde, Peter Michael Jungblut, Anne-Dorothee Gaylarde, Christine Claire and Neilan, Brett Anthony 2006. Endolithic Phototrophs from an Active Geothermal Region in New Zealand. Geomicrobiology Journal, Vol. 23, Issue. 7, p. 579.

Norris, Tracy B. and Castenholz, Richard W. 2006. Endolithic photosynthetic communities within ancient and recent travertine deposits in Yellowstone National Park. FEMS Microbiology Ecology, Vol. 57, Issue. 3, p. 470.

Yoon, Hwan Su Ciniglia, Claudia Wu, Min Comeron, Josep M Pinto, Gabriele Pollio, Antonino and Bhattacharya, Debashish 2006. Establishment of endolithic populations of extremophilic Cyanidiales (Rhodophyta). BMC Evolutionary Biology, Vol. 6, Issue. 1,

Oesterhelt, C. Vogelbein, S. Shrestha, R. P. Stanke, M. and Weber, A. P. M. 2007. The genome of the thermoacidophilic red microalga Galdieria sulphuraria encodes a small family of secreted class III peroxidases that might be involved in cell wall modification. Planta, Vol. 227, Issue. 2, p. 353.

Schilling, Silke and Oesterhelt, Christine 2007. Structurally reduced monosaccharide transporters in an evolutionarily conserved red alga. Biochemical Journal, Vol. 406, Issue. 2, p. 325.

Graverholt, Olav Sune and Eriksen, Niels Thomas 2007. Heterotrophic high-cell-density fed-batch and continuous-flow cultures of Galdieria sulphuraria and production of phycocyanin. Applied Microbiology and Biotechnology, Vol. 77, Issue. 1, p. 69.

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Cryptoendolithic growth of the red alga Galdieria sulphuraria in volcanic areas

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Cryptoendolithic growth of the red alga Galdieria sulphuraria in volcanic areas

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