Image_6_Seasonality of the Microbial Community Composition in the North Atlantic.pdf

Planktonic communities constitute the basis of life in marine environments and have profound impacts in geochemical cycles. In the North Atlantic, seasonality drives annual transitions in the ecology of the water column. Phytoplankton bloom annually in spring as a result of these transitions, creati...

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Main Authors: Luis M. Bolaños (6191141), Chang Jae Choi (9440300), Alexandra Z. Worden (7308893), Nicholas Baetge (8783870), Craig A. Carlson (7837151), Stephen Giovannoni (5351801)
Format: Still Image
Language:unknown
Published: 2021
Subjects:
Oceanography
Marine Biology
Marine Geoscience
Biological Oceanography
Chemical Oceanography
Physical Oceanography
Marine Engineering
North Atlantic Aerosols and Marine Ecosystems Study
phytoplankton community composition
bacterioplankton community composition
North Atlantic subregions
seasonal succession
amplicon sequence variants
North Atlantic
Online Access:https://doi.org/10.3389/fmars.2021.624164.s006
id ftsmithonian:oai:figshare.com:article/13719814
record_format openpolar
spelling ftsmithonian:oai:figshare.com:article/13719814 2023-05-15T17:28:42+02:00 Image_6_Seasonality of the Microbial Community Composition in the North Atlantic.pdf Luis M. Bolaños (6191141) Chang Jae Choi (9440300) Alexandra Z. Worden (7308893) Nicholas Baetge (8783870) Craig A. Carlson (7837151) Stephen Giovannoni (5351801) 2021-02-05T05:08:03Z https://doi.org/10.3389/fmars.2021.624164.s006 unknown https://figshare.com/articles/figure/Image_6_Seasonality_of_the_Microbial_Community_Composition_in_the_North_Atlantic_pdf/13719814 doi:10.3389/fmars.2021.624164.s006 CC BY 4.0 CC-BY Oceanography Marine Biology Marine Geoscience Biological Oceanography Chemical Oceanography Physical Oceanography Marine Engineering North Atlantic Aerosols and Marine Ecosystems Study phytoplankton community composition bacterioplankton community composition North Atlantic subregions seasonal succession amplicon sequence variants Image Figure 2021 ftsmithonian https://doi.org/10.3389/fmars.2021.624164.s006 2021-02-26T12:08:45Z Planktonic communities constitute the basis of life in marine environments and have profound impacts in geochemical cycles. In the North Atlantic, seasonality drives annual transitions in the ecology of the water column. Phytoplankton bloom annually in spring as a result of these transitions, creating one of the major biological pulses in productivity on earth. The timing and geographical distribution of the spring bloom as well as the resulting biomass accumulation have largely been studied using the global capacity of satellite imaging. However, fine-scale variability in the taxonomic composition, spatial distribution, seasonal shifts, and ecological interactions with heterotrophic bacterioplankton has remained largely uncharacterized. The North Atlantic Aerosols and Marine Ecosystems Study (NAAMES) conducted four meridional transects to characterize plankton ecosystems in the context of the annual bloom cycle. Using 16S rRNA gene-based community profiles we analyzed the temporal and spatial variation in plankton communities. Seasonality in phytoplankton and bacterioplankton composition was apparent throughout the water column, with changes dependent on the hydrographic origin. From winter to spring in the subtropic and subpolar subregions, phytoplankton shifted from the predominance of cyanobacteria and picoeukaryotic green algae to diverse photosynthetic eukaryotes. By autumn, the subtropics were dominated by cyanobacteria, while a diverse array of eukaryotes dominated the subpolar subregions. Bacterioplankton were also strongly influenced by geographical subregions. SAR11, the most abundant bacteria in the surface ocean, displayed higher richness in the subtropics than the subpolar subregions. SAR11 subclades were differentially distributed between the two subregions. Subclades Ia.1 and Ia.3 co-occurred in the subpolar subregion, while Ia.1 dominated the subtropics. In the subtropical subregion during the winter, the relative abundance of SAR11 subclades “II” and 1c.1 were elevated in the upper mesopelagic. In the winter, SAR202 subclades generally prevalent in the bathypelagic were also dominant members in the upper mesopelagic zones. Co-varying network analysis confirmed the large-scale geographical organization of the plankton communities and provided insights into the vertical distribution of bacterioplankton. This study represents the most comprehensive survey of microbial profiles in the western North Atlantic to date, revealing stark seasonal differences in composition and richness delimited by the biogeographical distribution of the planktonic communities. Still Image North Atlantic Unknown
institution Open Polar
collection Unknown
op_collection_id ftsmithonian
language unknown
topic Oceanography
Marine Biology
Marine Geoscience
Biological Oceanography
Chemical Oceanography
Physical Oceanography
Marine Engineering
North Atlantic Aerosols and Marine Ecosystems Study
phytoplankton community composition
bacterioplankton community composition
North Atlantic subregions
seasonal succession
amplicon sequence variants
spellingShingle Oceanography
Marine Biology
Marine Geoscience
Biological Oceanography
Chemical Oceanography
Physical Oceanography
Marine Engineering
North Atlantic Aerosols and Marine Ecosystems Study
phytoplankton community composition
bacterioplankton community composition
North Atlantic subregions
seasonal succession
amplicon sequence variants
Luis M. Bolaños (6191141)
Chang Jae Choi (9440300)
Alexandra Z. Worden (7308893)
Nicholas Baetge (8783870)
Craig A. Carlson (7837151)
Stephen Giovannoni (5351801)
Image_6_Seasonality of the Microbial Community Composition in the North Atlantic.pdf
topic_facet Oceanography
Marine Biology
Marine Geoscience
Biological Oceanography
Chemical Oceanography
Physical Oceanography
Marine Engineering
North Atlantic Aerosols and Marine Ecosystems Study
phytoplankton community composition
bacterioplankton community composition
North Atlantic subregions
seasonal succession
amplicon sequence variants
description Planktonic communities constitute the basis of life in marine environments and have profound impacts in geochemical cycles. In the North Atlantic, seasonality drives annual transitions in the ecology of the water column. Phytoplankton bloom annually in spring as a result of these transitions, creating one of the major biological pulses in productivity on earth. The timing and geographical distribution of the spring bloom as well as the resulting biomass accumulation have largely been studied using the global capacity of satellite imaging. However, fine-scale variability in the taxonomic composition, spatial distribution, seasonal shifts, and ecological interactions with heterotrophic bacterioplankton has remained largely uncharacterized. The North Atlantic Aerosols and Marine Ecosystems Study (NAAMES) conducted four meridional transects to characterize plankton ecosystems in the context of the annual bloom cycle. Using 16S rRNA gene-based community profiles we analyzed the temporal and spatial variation in plankton communities. Seasonality in phytoplankton and bacterioplankton composition was apparent throughout the water column, with changes dependent on the hydrographic origin. From winter to spring in the subtropic and subpolar subregions, phytoplankton shifted from the predominance of cyanobacteria and picoeukaryotic green algae to diverse photosynthetic eukaryotes. By autumn, the subtropics were dominated by cyanobacteria, while a diverse array of eukaryotes dominated the subpolar subregions. Bacterioplankton were also strongly influenced by geographical subregions. SAR11, the most abundant bacteria in the surface ocean, displayed higher richness in the subtropics than the subpolar subregions. SAR11 subclades were differentially distributed between the two subregions. Subclades Ia.1 and Ia.3 co-occurred in the subpolar subregion, while Ia.1 dominated the subtropics. In the subtropical subregion during the winter, the relative abundance of SAR11 subclades “II” and 1c.1 were elevated in the upper mesopelagic. In the winter, SAR202 subclades generally prevalent in the bathypelagic were also dominant members in the upper mesopelagic zones. Co-varying network analysis confirmed the large-scale geographical organization of the plankton communities and provided insights into the vertical distribution of bacterioplankton. This study represents the most comprehensive survey of microbial profiles in the western North Atlantic to date, revealing stark seasonal differences in composition and richness delimited by the biogeographical distribution of the planktonic communities.
format Still Image
author Luis M. Bolaños (6191141)
Chang Jae Choi (9440300)
Alexandra Z. Worden (7308893)
Nicholas Baetge (8783870)
Craig A. Carlson (7837151)
Stephen Giovannoni (5351801)
author_facet Luis M. Bolaños (6191141)
Chang Jae Choi (9440300)
Alexandra Z. Worden (7308893)
Nicholas Baetge (8783870)
Craig A. Carlson (7837151)
Stephen Giovannoni (5351801)
author_sort Luis M. Bolaños (6191141)
title Image_6_Seasonality of the Microbial Community Composition in the North Atlantic.pdf
title_short Image_6_Seasonality of the Microbial Community Composition in the North Atlantic.pdf
title_full Image_6_Seasonality of the Microbial Community Composition in the North Atlantic.pdf
title_fullStr Image_6_Seasonality of the Microbial Community Composition in the North Atlantic.pdf
title_full_unstemmed Image_6_Seasonality of the Microbial Community Composition in the North Atlantic.pdf
title_sort image_6_seasonality of the microbial community composition in the north atlantic.pdf
publishDate 2021
url https://doi.org/10.3389/fmars.2021.624164.s006
genre North Atlantic
genre_facet North Atlantic
op_relation https://figshare.com/articles/figure/Image_6_Seasonality_of_the_Microbial_Community_Composition_in_the_North_Atlantic_pdf/13719814
doi:10.3389/fmars.2021.624164.s006
op_rights CC BY 4.0
op_rightsnorm CC-BY
op_doi https://doi.org/10.3389/fmars.2021.624164.s006
_version_ 1766121543564263424

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