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Diversity of halophilic mycoflora habitat in saltpans of Tuticorin and Marakkanam along southeast coast of India

By: M. Helan Soundra Rani, M. Kalaiselvam

Key Words: Fungal diversity, Salterns, Halophilic fungi

Int. J. Micro. Myco. 7(1), 1-17, January 2018.

Certification: ijmm 2018 0010 [Generate Certificate]

Abstract

Highly diverse biological system of solar salterns with different salinities, often provide high densities of mycofloral populations, makes the salterns excellent model systems for both its diverse and activity. In this study, diversity of halophilic fungi in six stations which includes reservoir, evaporator and crystallizer pond of both Marakkanam and Tuticorin saltpans in relation to environmental parameters were carried out for a period of two years. 95 species of halophilic fungi from water and sediment samples belongs to 41 genera were recorded in both saltpans. Aspergillus and Penicillium species were recorded as dominant, vast differences in growth of each isolate at different salt concentrations in the ponds were observed. This paper also elucidated the slight fluctuations in physico-chemical parameter among the ponds with respect to seasonal variations were also recorded.

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Diversity of halophilic mycoflora habitat in saltpans of Tuticorin and Marakkanam along southeast coast of India

Anbazhagan P. 1988. Hydrobiological and benthic ecology of Kodiakkarai coastal sanctuary (Southeast coast of India). Ph.D Thesis, Annamalai University, India 208.

Baati H, Guermazi S, Amdouni R, Gharsallah N, Sghir A, Ammar E. 2008. Prokaryotic diversity of a Tunisian multipond solar saltern. Extremophiles 12, 505-518.

Biswas A, Paul AK. 2012. Physico-chemical analysis of saline soils of solar salterns and isolation of moderately halophilic bacteria for poly
(3-hydroxybutyric acid) production. International Research Journal of Microbiology 2, 227-236.

Buchalo AS, Nevo E, Wasser SP, Oren A, Molitoris HP. 1998. Fungal life in the extremely hyper saline water of the Dead Sea: First records. Proceedings of Royal Society of London 265, 1461-1465.

Butinar L, Santos S, Spencer-Martins I, Oren A, Gunde Cimerman N. 2005a. Yeast diversity in hyper saline habitats. FEMS Microbiology Letters 244, 229-234.

Butinar L, Zalar P, Frisvad JC, Gunde Cimerman N. 2005. The genus Eurotium – members of indigenous fungal community in hyper saline waters of salterns. FEMS Microbiology Ecology 51, 155-166.

Costa LT, Farinha JC, Hecker N, Tomas-Vives P. 1996. Mediterranean wetland inventory: A reference manual. MedWet/Instit. Conserv. Natur./ Wetlands Int. Publications. Lisboa 1, 1-109.

Davis JS. 1993. Biological management for problem solving and biological concepts for a new generation of solar salt works, Seventh Symposium on Salt 1, 611-616.

Davis JS. 2000. Function and management of the biological system for seasonal solar salt work. Global Nest. International Journal 2, 217-226.

Domsch KH, Gams W, Anderson TH. 1993. Compendium of Soil Fungi, Vol 1. IHW-Verlag, Eching.

Dundas IE, Halvorson HO. 1966. Arginine metabolism in Halobacterium salinarium, an obligately halophilic bacterium. Journal of Bacteriology 91,
113-119.

Ehrlich DIA. 1987. The Effect of salinity and temperature gradients on the distribution of littoral microalgae in experimental solar ponds, Dead Sea, Israel. P.S.Z.N.I: Marine Ecology 8, 193-205.

Ellis MB. 1971. Dematiaceous Hyphomycetes. The Common wealth Mycological Institute, Kew, Surrey, England.

Femitha RD, Vaithyanathan C. 2012. Physico-chemical parameters of the various stages in different Salt-pans of Tuticorin district. Journal of Chemical and Pharmaceutical Research 4, 4167- 4173.

Griffith DH. 1994. Fungal Physiology, John Wiley and Sons, New York 472.

Grishkan I, Nevo E, Wasser SP. 2003. Soil micromycete diversity in the hypersaline Dead Sea coastal area (Israel). Mycology Programme 2, 19-28.

Gunde Cimerman N, Zalar P, Petrovic U, Turk M, Kogej T, de Hoog GS, Plemenitas A. 2004. Fungi in the Salterns. In: Halophilic microorganisms, Ventosa, A., (Eds.), Springer- Verlag, Heidelberg 103-113.

Hooley P, Fincham DA, Whitehead MP, Clipson NJW. 2003. Fungal osmotolerance. Advance in Applied Microbiology 53, 177-211.

Javor BJ. 2002. Industrial microbiology of solar salt production. Journal of Indian Microbiology and Biotechnology 28, 42-47.

Jones EBG. 1988. Do fungi occurring the sea?. Mycologist 2, 150-157.

Kamat TK, Kerkar S. 2011. Pharmaceutical potentials of bacteria from saltpans of Goa, India. International Journal of Pharmaceutical Applications 2, 150-154.

Kirk PM, Cannon PF, David JC, Stalpers JA. 2001. Ainsworth and Bisby’s Dictionary of the Fungi, IX (Eds.), CAB International, Oxon UK.

Kis-Papo T, Grishkan I, Oren A, Wasser SP, Nevo E. 2001. Spatiotemporal diversity of filamentous fungi in the hyper saline Dead Sea. Mycological Research 105, 749-756.

Kis-Papo T, Oren A, Wasser SP, Nevo E. 2003. Survival of filamentous fungi in hypersaline Dead Sea water. Microbial Ecology 45, 183-190.

Kogej T, Ramos J, Plemenitas A, Gunde Cimerman N. 2005. The halophilic fungus Hortaea werneckii and the halotolerant fungus Aureobasidium pullulans maintain low intracellular cation concentrations in hypersaline environments. Applied Environmental and Microbiology 71, 6600-6605.

Kovac N. 2009. Chemical characterization of stromatolitic “Petola” layer (Secovlje salt-pans, Slovenia) using FT-IR spectroscopy. ANNALES. Series Historia Naturalis 19, 95-102.

Lambshead JD, Platth M, Shawk M. 1983. The detection of differerences among assemblages of marine species based on an assessment of dominace and diversity. Journal of Natural History 17, 859-874.

Litchfield CD. 1991. Red-the magic color for solar salt production. In: Das Salz in der Rechts- und Handelsgeschichte, Hocquet J.C. and R. Palme, (Eds.), Berenkamp, Schwaz 403-412.

Liu X, Cai K, Yu S. 2004. Geochemical simulation of the formation of brine and salt minerals based on Pitzer model in Caka Salt Lake. Science 47, 720-726.

Madkour F, Gaballah MM. 2012. Phytoplankton assemblage of a solar saltern in Port Fouad, Egypt. Oceanologia 54, 687-700.

Manikandan M, Kannan VR, Pasic L. 2009. Diversity of microorganisms in solar salterns of Tamil Nadu, India. World Journal of Microbiology and Biotechnology 25, 1007-1017.

Maria GL, Sridhar KR. 2002. Richness and diversity of filamentous fungi on woody litter of mangroves along the west coast of India. Current Science 83, 1573-1580.

Nazareth S, Gonsalves V, Nayak S. 2012. A first record of obligate halophilic Aspergilli from the Dead Sea. Indian Journal of Microbiology 52, 22-27.

Nealson KH, Stahl S. 1997. Microorganisms and biogeochemical cycles: What can we learn from layered microbial communities?. In: Geomicrobiology, Banfield, J. and K.H. Nealson, (Eds.), Mineralogical Society of America, Washington, DC 1-34.

Nedumaran T, Perumal P. 2012. Biodiversity of cyanobacteria from Uppanar estuary, Southeast Coast of India. Emirates Journal Food and Agriculture 24, 248-254.

Nguyen RT, Harvey HR. 2001. Preservation of protein in marine systems: Hydrophobic and other non-covalent association as major stabilizing forces. Geochimica et Cosmochimica Acta 65, 467-1480.

Nikolaou E, Agrafioti I, Stumpf M, Quinn J, Stansfield I, Brown AJP. 2009. Phylogenetic diversity of stress signalling pathways in fungi, BMC Evolutionary Biology 9, 44-62.

Oren A, Bina D, Ionescu D, Prasil O, Rehakova K, Schumann R, Sorensen K, Warkentin M, Woelfel J, Zapomelova E. 2009. Saltern evaporation ponds as model systems for the study of microbial processes under hypersaline conditions- An interdisciplinary study of the salterns of Eilat, Israel. Proceedings of the 2nd International Conference on the Ecological Importance of Solar Saltworks. Merida, Yucatan Mexico.

Oren A. 2002. Diversity of halophilic microorganisms: Environments, phylogeny, physiology and applications. Journal of Industrial Microbiology and Biotechnology 28, 56-63.

Oren A. 2003. Physical and chemical limnology of the Dead Sea. In: Fungal life in the Dead Sea, Nevo, E., A. Oren and S.P. Wasser, (Eds.), Gantner Verlag, Ruggel 45-67.

Pedros-Alio C, Calderon-Paz JI, MacLean ML, Medina G, Marrase C, Gasol JM, Guixa-Boixereu N. 2000. The microbial food web along salinity gradients. FEMS Microbiology Ecology 32, 143-155.

Pedros-Alio C. 2004. Trophic ecology of solar salterns. In: Halophilic Microorganisms, Ventosa, A., (Eds.), Springer-Verlag Heidelberg 33-48.

Petrovic A. 1998. Diatoms from the saltern of Ston (Croatia). Rapport Commission International Mer Mediterranean 35, 574-575.

Pielou EC. 1966. The measurement of diversity in different types of biological collections. Journal of Theoretical Biology 13,144.

Radhika D, Veerabahu C, Nagarajan J. 2011. Distribution of Phytoplankton and Artemia in the Solar Salterns at Tuticorin. Current World Environment 6,233-239.

Rajalekshmi G. 2001. Distribution of fungi in the hypersaline (Solar salterns) environs of Tamil Nadu, M.Sc., dissertation, CAS in Marine Biology, Annamalai University, India 18.

Rasheed MA, Rodes CA, Thomas R. 2001. Poprt of mackey seagrass, algae and macro-invertebrate communication. CRC Reef Research Centre technical report No. 43, Townsville.

Redkar RJ, Herzog RW, Singh NK. 1998. Transcriptional activation of the Aspergilllus nidulans gpd, A promoter by osmotic signals. Appl. Environ. Microbiol 64, 2229-2231.

Rodriguez-Valera F. 1988. Characteristics and microbial ecology of hyper saline environments. In: Halophilic bacteria, Rodriguez-Valera, F. and F.L. Boca Raton, (Eds.), CRC Press 3-30.

Sammy N. 1983. Biological systems in North-Western Australian solar salt fields. In: Sixth symposium on salt, Schreiber, B.C and H.L. Harner (Eds.), The salt Institute, Toronto 1, 207-215.

Satyanarayana T, Raghukumar C, Shivaji S. 2005. Extremophilic microbes: Diversity and perspectives, Current Science 89, 78-90.

Selbmann L, de Hoog GS, Mazzaglia A, Friedmann EI, Onofri S. 2005. Fungi at the edge of life: Cryptoendolithic black fungi from Antarctic deserts. Studies in Mycology 51, 1-32.

Shannon CE, Wiener W. 1949. The mathematical theory of communication. Univ. of. Ilinois Press. Urbana.

Strickland JDH, Parsons TR. 1972. A practical handbook of seawater analysis. Fisheries Research Board. Canada Bulletin 167, 310.

Subramanian B, Mahadevan M. 1999. Seasonal and diurnal variation of Hydrobiological characters of coastal waters of Chennai Bay of Bengal. Indian Journal of Marine Sciences 28, 429-433.

Subramanian SK, Kannan L. 1998. Environmental parameters of the Indian marine biosphere reserve off Tuticorin in the Gulf of Mannar. Seaweed Research Utilization 20, 85-90.

Thamizhmani R, Vimal Raj R, Sivakumar T. 2013. Abundance and diversity of fungi in salt pan and marine ecosystem of the east coast of Tamil Nadu, India. International Journal of Current Microbiology and Applied Sciences 2, 67-75.

Tresner HD, Hayes JA. 1971. Sodium chloride tolerance of terrestrial fungi. Applied Microbiology 22, 210-213.

Turk M, Montiel V, Zigon D, Plemenitas A, Ramos J. 2007. Plasma membrane composition of Debaryomyces hansenii adapt to changes in pH and external salinity. Microbiology 153, 3586-3592.

Zalar P, de Hoog GS, Schroers HF, Frank JM, Gunde Cimerman N. 2005. Taxonomy and phylogeny of the xerophilic genus Wallemia (Wallemiomycetes and Wallemiales, Nov.). Antonie van Leeuwenhoek 87, 311-328.

M. Helan Soundra Rani, M. Kalaiselvam.
Diversity of halophilic mycoflora habitat in saltpans of Tuticorin and Marakkanam along southeast coast of India.
Int. J. Micro. Myco. 7(1), 1-17, January 2018.
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