Fungal diversity in selected coastal mangrove ecosystems in East Berbice Corentyne, Guyana, South America

Wazim R  Sharif; Phillip NB Da  Silva

doi:10.30574/gscbps.2021.17.1.0307

Authors

Wazim R Sharif Division of Natural Sciences, University of Guyana, Berbice Campus, Tain, Corentyne, Guyana, South America.
Phillip NB Da Silva Division of Natural Sciences, University of Guyana, Berbice Campus, Tain, Corentyne, Guyana, South America.

DOI:

https://doi.org/10.30574/gscbps.2021.17.1.0307

Keywords:

Fungal diversity, Mangroves, East Berbice;, Guyana

Abstract

There is limited data on the fungal diversity in mangrove ecosystems in Guyana. This study investigated fungal diversity during the dry season in three selected coastal mangrove ecosystems along the Corentyne Coast of East Berbice, Guyana. Sampling was conducted within randomly established 50 m x 50 m plots containing 20 mini transects of length 12.5 m x 10 m in the overwash mangrove ecosystem at each of six study sites within the three study locations. Samples retrieved from the study plots included leaf, bark, soil and fruiting bodies. These were placed into separate bags and labelled appropriately. Environmental parameters were recorded at each study plot. Fruiting bodies were used to identify macrofungal species, and the leaf, bark and soil were used to prepare cultures from which microfungal samples were identified. The species that were identified were used to compile a checklist of fungal species, and diversity indices were calculated. A total of thirty (30) species were recorded, nine (9) of which were microfungi identified from the cultured samples and twenty-one (21) species were identified from macrofungal fruiting bodies retrieved at the study sites. The results further revealed that an increase in pH and salinity and a decrease in temperature resulted in an increase in species richness. Tidal activity also appeared to reduce species richness. Aspergillus, Rhizopus and Trichoderma were the dominant species at the three study sites with high relative species abundance. There also appeared to be some instances of substrate specificity.

Metrics

Metrics Loading ...

References

Selvam V. Trees and shrubs of the Maldives. 1st ed. Bangkok: Thammada Press Co.,Ltd. 2007.

McLeod E, Salm R. Managing Mangroves for Resilience to Climate Change.

Gland, Switzerland: The World Conservation Union (IUCN). 2006.

Thomas K. Benefits/Uses of Mangroves [Internet]. Mangroves - Guyana. 2014.

Chanderpaul S. Village Mangrove Action Committees get training on importance of mangrove and LCDS. Low Carbon Development Strategy. 2013.

Chales J. Roles of fungi and other microbes [Internet]. Rainforest Conservation Fund. 2009.

Ben J. The importance of fungi. Countrysideinfo.co.uk. 2014.

Gilna, V.V. and Khaleel, K.M. Diversity of fungi in mangrove ecosystem. Journal of Experimental Sciences. 2011; 2(2): 47-48.

Humber R. Fungi: Identification. Ithaca, New York: USDA-ARS Plant Protection Research Unit. 2013.

Bessey E. Morphology and taxonomy of fungi. New York: Hafner Press. 1985.

Moulds: their Isolation, Cultivation and Identification. Saint John, NB: New

Brunswick Museum. 2007.

Kuo M. MushroomExpert.Com. Mushroomexpert.com. 2016.

Petersen J, Læssøe T. MycoKey. Mycokey.com. 2016.

Jennings D, Rayner A. The ecology and physiology of the fungal mycelium. Cambridge [Cambridgeshire]: Cambridge University Press. 1984.

Sridhar KR. Diversity of fungi in mangrove ecosystems. Microbial Diversity: Current Perspeclives and Potential Applications Editors: T. Satyanarayana and B.N. Johri @ 2005 l.K. lnternational Pvt. Ltd., New Delhi. 2005; 129-148

Saravanan R, Sivakumar T. Biodiversity and Biodegradation potentials of Fungi isolated from Marine systems of East Coast of Tamil Nadu, India. International Journal of Current Microbiology and Applied Science. 2013; 2(2319-7706): 192-201.

Jennings D. Physiology of Fungal Nutrition. Cambridge, GBR: Cambridge University Press. 2011.

Wichern J, Wichern F, Joergensen R. Impact of salinity on soil microbial communities and the decomposition of maize in acidic soils. Geoderma. 2006; 137(1-2): 100-108.

Rath KM, Maheshwari A, Rousk J. Linking Microbial Community Structure to Trait Distributions and Functions Using Salinity as an Environmental Filter. MBio. 2019; 10(4): e01607-19.

Vanegas J, Muñoz-García A, Pérez-Parra KA, Figueroa-Galvis I, Mestanza O, Polanía J. Effect of salinity on fungal diversity in the rhizosphere of the halophyte Avicennia germinans from a semi-arid mangrove. Fungal Ecology. 2019; 42.

Lee NLY, Huan D, Quek ZBR, Lee JN, Wainwright BJ. Mangrove-Associated Fungal Communities Are Differentiated by Geographic Location and Host Structure. Front. Microbiol. 2019; 10: 2456.

Ravikumar D, Vittal B. Fungal Diversity on Decomposing Biomass of Mangrove Plant Rhizophora in Pichavaram Estuary, East Coast of India. Indian Journal of Marine Sciences. 1996; 25: 142–144.

Dutta A, Pradhan P, Basu S, Acharya K. Macrofungal diversity and ecology of the mangrove ecosystem in the Indian part of Sundarbans. Biodiversity. 2013; 14(4): 196-206.