Hidden Microbial Diversity in Mangrove Depths: New Cyanobacterial Species of <i>Picosynechococcus</i> and Two New Records of <i>Sirenicapillaria</i> and <i>Allocoleopsis</i> from the Andaman Coast of Thailand

Hidden Microbial Diversity in Mangrove Depths: New Cyanobacterial Species of <i>Picosynechococcus</i> and Two New Records of <i>Sirenicapillaria</i> and <i>Allocoleopsis</i> from the Andaman Coast of Thailand

In Thailand, mangrove forests form a major component of the Andaman coastal ecosystems in the southern provinces. However, studies on their microbial assemblage largely revolved around groups of bacteria, fungi, and eukaryotic microalgae, while the diversity of cyanobacteria in these regions remains...

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Bibliographic Details
Main Authors: Billy Lim Chun Ginn, Faradina Merican, Jantana Praiboon, Sinchai Maneekat, Narongrit Muangmai
Format: Article
Language:English
Published: MDPI AG 2025-04-01
Series:Diversity
Subjects:
Andaman Sea
cyanobacteria
first record
new species
polyphasic approach
tropical mangrove
Online Access:https://www.mdpi.com/1424-2818/17/5/319
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Summary:In Thailand, mangrove forests form a major component of the Andaman coastal ecosystems in the southern provinces. However, studies on their microbial assemblage largely revolved around groups of bacteria, fungi, and eukaryotic microalgae, while the diversity of cyanobacteria in these regions remains almost unknown. This taxonomic study applied the polyphasic approach to examine seven cyanobacterial strains collected from different mangrove environments (including soil crust, tree bark, wood, and rock surface) across Ranong, Phang-Nga, and Phuket provinces. The comprehensive analysis combining morphology, ecology, 16S rRNA phylogenetic relationships, genetic identity, ITS secondary structure, and ITS dissimilarity resulted in the first records of the genera <i>Picosynechococcus</i>, <i>Allocoleopsis</i>, and <i>Sirenicapillaria</i> in Thailand, and led to the description of a new species, <i>Picosynechococcus mangrovensis</i> sp. nov. This new species was differentiated from the type species <i>P. fontinalis</i> based on the distinct 16S rRNA gene phylogenetic position, low 16S rRNA genetic similarity, its slightly halophilic nature, and ability to form pseudo-filaments with up to 160 cells. Our research significantly expands the documented cyanobacterial diversity of Southeast Asian mangrove ecosystems, establishing a critical foundation for future ecological and biotechnological investigations in these understudied yet vital tropical habitats.
ISSN:1424-2818

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