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Main Authors: Kanjer, Lucija, Filek, Klara, Mucko, Maja, Lupić, Mateja Zekan, Frleta-Valić, Maša, Gračan, Romana, Bosak, Sunčica
Format: Artículo científico
Language:en
Published: Journal of phycology 2024
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/39435667/
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author Kanjer, Lucija
Filek, Klara
Mucko, Maja
Lupić, Mateja Zekan
Frleta-Valić, Maša
Gračan, Romana
Bosak, Sunčica
author_facet Kanjer, Lucija
Filek, Klara
Mucko, Maja
Lupić, Mateja Zekan
Frleta-Valić, Maša
Gračan, Romana
Bosak, Sunčica
Kanjer, Lucija
Filek, Klara
Mucko, Maja
Lupić, Mateja Zekan
Frleta-Valić, Maša
Gračan, Romana
Bosak, Sunčica
collection PubMed - marine biology
contents Growing older, growing more diverse: Sea turtles and epibiotic cyanobacteria. Kanjer, Lucija Filek, Klara Mucko, Maja Lupić, Mateja Zekan Frleta-Valić, Maša Gračan, Romana Bosak, Sunčica Animals Turtles Cyanobacteria RNA, Ribosomal, 16S Biofilms Biodiversity Symbiosis Cyanobacteria are known for forming associations with various animals, including sea turtles, yet our understanding of cyanobacteria associated with sea turtles remains limited. This study aims to address this knowledge gap by investigating the diversity of cyanobacteria in biofilm samples from loggerhead sea turtle carapaces, utilizing a 16S rRNA gene amplicon sequencing approach. The predominant cyanobacterial order identified was Nodosilineales, with the genus Rhodoploca having the highest relative abundance. Our results suggest that cyanobacterial communities become more diverse as sea turtles age, as we observed a positive correlation between community diversity and the length of a sea turtle's carapace. Since larger and older turtles predominantly utilize neritic habitats, the shift to a more diverse cyanobacterial community aligned with a change in loggerhead habitat. Our research provides detailed insights into the cyanobacterial communities associated with loggerhead sea turtles, establishing a foundation for future studies delving into this fascinating ecological relationship and its potential implications for sea turtle conservation.
format Artículo científico
id pubmed_39435667
institution PubMed
language en
publishDate 2024
publisher Journal of phycology
record_format pubmed
spellingShingle Growing older, growing more diverse: Sea turtles and epibiotic cyanobacteria.
Kanjer, Lucija
Filek, Klara
Mucko, Maja
Lupić, Mateja Zekan
Frleta-Valić, Maša
Gračan, Romana
Bosak, Sunčica
Animals
Turtles
Cyanobacteria
RNA, Ribosomal, 16S
Biofilms
Biodiversity
Symbiosis
Growing older, growing more diverse: Sea turtles and epibiotic cyanobacteria. Kanjer, Lucija Filek, Klara Mucko, Maja Lupić, Mateja Zekan Frleta-Valić, Maša Gračan, Romana Bosak, Sunčica Animals Turtles Cyanobacteria RNA, Ribosomal, 16S Biofilms Biodiversity Symbiosis Cyanobacteria are known for forming associations with various animals, including sea turtles, yet our understanding of cyanobacteria associated with sea turtles remains limited. This study aims to address this knowledge gap by investigating the diversity of cyanobacteria in biofilm samples from loggerhead sea turtle carapaces, utilizing a 16S rRNA gene amplicon sequencing approach. The predominant cyanobacterial order identified was Nodosilineales, with the genus Rhodoploca having the highest relative abundance. Our results suggest that cyanobacterial communities become more diverse as sea turtles age, as we observed a positive correlation between community diversity and the length of a sea turtle's carapace. Since larger and older turtles predominantly utilize neritic habitats, the shift to a more diverse cyanobacterial community aligned with a change in loggerhead habitat. Our research provides detailed insights into the cyanobacterial communities associated with loggerhead sea turtles, establishing a foundation for future studies delving into this fascinating ecological relationship and its potential implications for sea turtle conservation.
title Growing older, growing more diverse: Sea turtles and epibiotic cyanobacteria.
topic Animals
Turtles
Cyanobacteria
RNA, Ribosomal, 16S
Biofilms
Biodiversity
Symbiosis
url https://pubmed.ncbi.nlm.nih.gov/39435667/