Abstract
Fusarium genus comprises important saprophytic and phytopathogenic fungi and is widespread in nature. The present study reports the occurrence of Fusarium spp. in soils from two mangrove forests in northern Peninsular Malaysia and analyzed physico-chemical properties of the mangrove soil. Based on TEF-1α sequences, nine Fusarium species were identified: Fusarium solani species complex (FSSC) (n = 77), Fusarium verticillioides (n = 20), Fusarium incarnatum (n = 10), Fusarium proliferatum (n = 7), Fusarium lateritium (n = 4), Fusarium oxysporum (n = 3), Fusarium rigidiuscula (n = 2), Fusarium chlamydosporum (n = 1), and Fusarium camptoceras (n = 1); FSSC isolates were the most prevalent. Phylogenetic analysis of the combined TEF-1α and ITS sequences revealed diverse phylogenetic affinities among the FSSC isolates and potentially new phylogenetic clades of FSSC. Soil analysis showed varied carbon content, pH, soil moisture, and salinity, but not nitrogen content, between sampling locations. Regardless of the physico-chemical properties, various Fusarium species were recovered from the mangrove soils. These were likely saprophytes; however, some were well-known plant pathogens and opportunistic human pathogens. Thus, mangrove soils might serve as inoculum sources for plant and human pathogenic Fusarium species. The present study demonstrates the occurrence of various Fusarium species in the extreme environment of mangrove soil, thereby contributing to the knowledge on species diversity in Fusarium.
Highlights
The genus Fusarium is a large taxonomically complex genus comprising more than 200 species [1]
Based on a BLAST search of translation elongation factor-1α (TEF-1α) sequences, the isolates were molecularly identified as Fusarium solani species complex (FSSC) (n = 77), F. verticillioides (n = 20), F. incarnatum (n = 10), F. proliferatum (n = 7), F. lateritium (n = 4), F. oxysporum (n = 3), F. rigidiuscula (n = 2), and F. camptoceras (n = 1)
BLAST results based on the Genbank and Fusarium-ID databases are shown in Table S3 (FSSC) and Table S4
Summary
The genus Fusarium is a large taxonomically complex genus comprising more than 200 species [1]. The ability of Fusarium to infect various crops is associated with the capability of the fungus to occupy a wide range of substrates, various modes of survival and their cosmopolitan occurrence in agricultural and natural ecosystems [2]. A number of plant pathogenic Fusarium spp. produced mycotoxins in the field or during storage. Among well-known mycotoxins produced by mycotoxigenic Fusarium are fumonisins, zearalenones, trichothecenes, deoxynivalenol, and moniliformin. These mycotoxins contaminated food and feed which in turn can cause harmful effects on humans and animals. Plant pathogenic and mycotoxigenic Fusarium spp. have the ability to reduce crop yield as well as reduce the quality of agricultural products.
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