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Ecology of aerobic anoxygenic phototrophs on a fine-scale taxonomic resolution in Adriatic Sea unravelled by unsupervised neural network

Aerobic anoxygenic phototrophs are metabolically highly active, diverse and widespread polyphyletic members of bacterioplankton whose photoheterotrophic capabilities shifted the paradigm about simplicity of the microbial food chain. Despite their considerable contribution to the transformation of or...

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Published in:	Environmental microbiome 2024-04, Vol.19 (1), p.28-28, Article 28
Main Authors:	Stojan, Iva, Šantić, Danijela, Villena-Alemany, Cristian, Trumbić, Željka, Matić, Frano, Vrdoljak Tomaš, Ana, Lepen Pleić, Ivana, Piwosz, Kasia, Kušpilić, Grozdan, Ninčević Gladan, Živana, Šestanović, Stefanija, Šolić, Mladen
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Language:	English
Subjects:	Abiotic factors Analysis Bacteria Bacterioplankton Biotic factors Chlorophyll Community composition Community structure Ecology Environmental factors Food chains Gammaproteobacteria Genera Heterogeneity Heterotrophic bacteria Homogenization Marine ecosystems Marine environment Microscopy Neural networks Organic matter Orthophosphate PufM gene Roseobacter Salinity Salinity effects Seasonal variations Summer Taxonomy Trophic status
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creator	Stojan, Iva Šantić, Danijela Villena-Alemany, Cristian Trumbić, Željka Matić, Frano Vrdoljak Tomaš, Ana Lepen Pleić, Ivana Piwosz, Kasia Kušpilić, Grozdan Ninčević Gladan, Živana Šestanović, Stefanija Šolić, Mladen
description	Aerobic anoxygenic phototrophs are metabolically highly active, diverse and widespread polyphyletic members of bacterioplankton whose photoheterotrophic capabilities shifted the paradigm about simplicity of the microbial food chain. Despite their considerable contribution to the transformation of organic matter in marine environments, relatively little is still known about their community structure and ecology at fine-scale taxonomic resolution. Up to date, there is no comprehensive (i.e. qualitative and quantitative) analysis of their community composition in the Adriatic Sea. Analysis was based on pufM gene metabarcoding and quantitative FISH-IR approach with the use of artificial neural network. Significant seasonality was observed with regards to absolute abundances (maximum average abundances in spring 2.136 ± 0.081 × 10 cells mL , minimum in summer 0.86 × 10 cells mL ), FISH-IR groups (Roseobacter clade prevalent in autumn, other Alpha- and Gammaproteobacteria in summer) and pufM sequencing data agglomerated at genus-level. FISH-IR results revealed heterogeneity with the highest average relative contribution of AAPs assigned to Roseobacter clade (37.66%), followed by Gammaproteobacteria (35.25%) and general Alphaproteobacteria (31.15%). Community composition obtained via pufM sequencing was dominated by Gammaproteobacteria clade NOR5/OM60, specifically genus Luminiphilus, with numerous rare genera present in relative abundances below 1%. The use of artificial neural network connected this community to biotic (heterotrophic bacteria, HNA and LNA bacteria, Synechococcus, Prochlorococcus, picoeukaryotes, heterotrophic nanoflagellates, bacterial production) and abiotic environmental factors (temperature, salinity, chlorophyll a and nitrate, nitrite, ammonia, total nitrogen, silicate, and orthophosphate concentration). A type of neural network, neural gas analysis at order-, genus- and ASV-level, resulted in five distinct best matching units (representing particular environments) and revealed that high diversity was generally independent of temperature, salinity, and trophic status of the environment, indicating a potentially dissimilar behaviour of aerobic anoxygenic phototrophs compared to the general bacterioplankton. This research represents the first comprehensive analysis of aerobic anoxygenic phototrophs in the Adriatic Sea on a trophic gradient during a year-round period. This study is also one of the first reports of their genus-level ecology lin
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Despite their considerable contribution to the transformation of organic matter in marine environments, relatively little is still known about their community structure and ecology at fine-scale taxonomic resolution. Up to date, there is no comprehensive (i.e. qualitative and quantitative) analysis of their community composition in the Adriatic Sea. Analysis was based on pufM gene metabarcoding and quantitative FISH-IR approach with the use of artificial neural network. Significant seasonality was observed with regards to absolute abundances (maximum average abundances in spring 2.136 ± 0.081 × 10 cells mL , minimum in summer 0.86 × 10 cells mL ), FISH-IR groups (Roseobacter clade prevalent in autumn, other Alpha- and Gammaproteobacteria in summer) and pufM sequencing data agglomerated at genus-level. FISH-IR results revealed heterogeneity with the highest average relative contribution of AAPs assigned to Roseobacter clade (37.66%), followed by Gammaproteobacteria (35.25%) and general Alphaproteobacteria (31.15%). Community composition obtained via pufM sequencing was dominated by Gammaproteobacteria clade NOR5/OM60, specifically genus Luminiphilus, with numerous rare genera present in relative abundances below 1%. The use of artificial neural network connected this community to biotic (heterotrophic bacteria, HNA and LNA bacteria, Synechococcus, Prochlorococcus, picoeukaryotes, heterotrophic nanoflagellates, bacterial production) and abiotic environmental factors (temperature, salinity, chlorophyll a and nitrate, nitrite, ammonia, total nitrogen, silicate, and orthophosphate concentration). 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subjects	Abiotic factors Analysis Bacteria Bacterioplankton Biotic factors Chlorophyll Community composition Community structure Ecology Environmental factors Food chains Gammaproteobacteria Genera Heterogeneity Heterotrophic bacteria Homogenization Marine ecosystems Marine environment Microscopy Neural networks Organic matter Orthophosphate PufM gene Roseobacter Salinity Salinity effects Seasonal variations Summer Taxonomy Trophic status
title	Ecology of aerobic anoxygenic phototrophs on a fine-scale taxonomic resolution in Adriatic Sea unravelled by unsupervised neural network
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