Particle-associated and free-living bacterial communities in an oligotrophic sea are affected by different environmental factors

Dalit Roth Rosenberg; Markus Haber; Joshua Goldford; Maya Lalzar; Dikla Aharonovich; Ashraf Al-Ashhab; Yoav Lehahn; Daniel Segrè; Laura Steindler; Daniel Sher

doi:10.1111/1462-2920.15611

Particle-associated and free-living bacterial communities in an oligotrophic sea are affected by different environmental factors

Dalit Roth Rosenberg, Markus Haber, Joshua Goldford, Maya Lalzar, Dikla Aharonovich, Ashraf Al-Ashhab, Yoav Lehahn, Daniel Segrè, Laura Steindler, Daniel Sher

Research output: Contribution to journal › Article › peer-review

Abstract

In the oceans and seas, environmental conditions change over multiple temporal and spatial scales. Here, we ask what factors affect the bacterial community structure across time, depth and size fraction during six seasonal cruises (2 years) in the ultra-oligotrophic Eastern Mediterranean Sea. The bacterial community varied most between size fractions (free-living (FL) vs. particle-associated), followed by depth and finally season. The FL community was taxonomically richer and more stable than the particle-associated (PA) one, which was characterized by recurrent ‘blooms’ of heterotrophic bacteria such as Alteromonas and Ralstonia. The heterotrophic FL and PA communities were also correlated with different environmental parameters: the FL population correlated with depth and phytoplankton, whereas PA bacteria were correlated primarily with the time of sampling. A significant part of the variability in community structure could, however, not be explained by the measured parameters. The metabolic potential of the PA community, predicted from 16S rRNA amplicon data using PICRUSt, was enriched in pathways associated with the degradation and utilization of biological macromolecules, as well as plastics, other petroleum products and herbicides. The FL community was enriched in predicted pathways for the metabolism of inositol phosphate, a potential phosphorus source, and of polycyclic aromatic hydrocarbons.

Original language	English
Pages (from-to)	4295-4308
Number of pages	14
Journal	Environmental Microbiology
Volume	23
Issue number	8
DOIs	https://doi.org/10.1111/1462-2920.15611
State	Published - Aug 2021

Bibliographical note

Funding Information:
We thank the captain and crew of the R/V Mediterranean Explorer for their invaluable assistance during the research cruises. We also thank the scientific team on all cruises for their assistance, Dr. Tanya Rivlin (Interuniversity Institute for marine sciences, Eilat) for the nutrient analyses, Dr. Stephan Green (DNA Services Facility at the University of Illinois at Chicago) for the amplicon sequencing, Prof. Michael Krom and Dr. Luca Zoccarato for important discussions and Prof. Einat Segev for critical reading of the manuscript. This study was funded by the Milgrom Foundation (to L. Steindler), the Israel Science Foundation (Grant No. 1243/16 to L. Steindler), the Human Frontiers Science Program (grant number grant RGP0020/2016, to D. Segrè and D. Sher) and by the National Science Foundation ‐ United States‐Israel Binational Science Foundation Program in Oceanography (grant number 1635070/2016532 to D. Segrè and D. Sher). The seasonal cruises were supported by funding from the Leon H. Charney School of Marine Sciences (Haifa University, Israel) and subsidized by the EcoOcean Foundation. M.H. was supported by an Inter‐Institutional post‐doctoral fellowship from the Haifa University and a Helmsley Trust fellowship.

Funding Information:
We thank the captain and crew of the R/V Mediterranean Explorer for their invaluable assistance during the research cruises. We also thank the scientific team on all cruises for their assistance, Dr. Tanya Rivlin (Interuniversity Institute for marine sciences, Eilat) for the nutrient analyses, Dr. Stephan Green (DNA Services Facility at the University of Illinois at Chicago) for the amplicon sequencing, Prof. Michael Krom and Dr. Luca Zoccarato for important discussions and Prof. Einat Segev for critical reading of the manuscript. This study was funded by the Milgrom Foundation (to L. Steindler), the Israel Science Foundation (Grant No. 1243/16 to L. Steindler), the Human Frontiers Science Program (grant number grant RGP0020/2016, to D. Segr? and D. Sher) and by the National Science Foundation - United States-Israel Binational Science Foundation Program in Oceanography (grant number 1635070/2016532 to D. Segr? and D. Sher). The seasonal cruises were supported by funding from the Leon H. Charney School of Marine Sciences (Haifa University, Israel) and subsidized by the EcoOcean Foundation. M.H. was supported by an Inter-Institutional post-doctoral fellowship from the Haifa University and a Helmsley Trust fellowship.

Publisher Copyright:
© 2021 Society for Applied Microbiology and John Wiley & Sons Ltd.

ASJC Scopus subject areas

Microbiology
Ecology, Evolution, Behavior and Systematics

Access to Document

10.1111/1462-2920.15611

Cite this

@article{717c8fcd8f134275b65737c4a4dab3d2,

title = "Particle-associated and free-living bacterial communities in an oligotrophic sea are affected by different environmental factors",

abstract = "In the oceans and seas, environmental conditions change over multiple temporal and spatial scales. Here, we ask what factors affect the bacterial community structure across time, depth and size fraction during six seasonal cruises (2 years) in the ultra-oligotrophic Eastern Mediterranean Sea. The bacterial community varied most between size fractions (free-living (FL) vs. particle-associated), followed by depth and finally season. The FL community was taxonomically richer and more stable than the particle-associated (PA) one, which was characterized by recurrent {\textquoteleft}blooms{\textquoteright} of heterotrophic bacteria such as Alteromonas and Ralstonia. The heterotrophic FL and PA communities were also correlated with different environmental parameters: the FL population correlated with depth and phytoplankton, whereas PA bacteria were correlated primarily with the time of sampling. A significant part of the variability in community structure could, however, not be explained by the measured parameters. The metabolic potential of the PA community, predicted from 16S rRNA amplicon data using PICRUSt, was enriched in pathways associated with the degradation and utilization of biological macromolecules, as well as plastics, other petroleum products and herbicides. The FL community was enriched in predicted pathways for the metabolism of inositol phosphate, a potential phosphorus source, and of polycyclic aromatic hydrocarbons.",

author = "{Roth Rosenberg}, Dalit and Markus Haber and Joshua Goldford and Maya Lalzar and Dikla Aharonovich and Ashraf Al-Ashhab and Yoav Lehahn and Daniel Segr{\`e} and Laura Steindler and Daniel Sher",

note = "Funding Information: We thank the captain and crew of the R/V Mediterranean Explorer for their invaluable assistance during the research cruises. We also thank the scientific team on all cruises for their assistance, Dr. Tanya Rivlin (Interuniversity Institute for marine sciences, Eilat) for the nutrient analyses, Dr. Stephan Green (DNA Services Facility at the University of Illinois at Chicago) for the amplicon sequencing, Prof. Michael Krom and Dr. Luca Zoccarato for important discussions and Prof. Einat Segev for critical reading of the manuscript. This study was funded by the Milgrom Foundation (to L. Steindler), the Israel Science Foundation (Grant No. 1243/16 to L. Steindler), the Human Frontiers Science Program (grant number grant RGP0020/2016, to D. Segr{\`e} and D. Sher) and by the National Science Foundation ‐ United States‐Israel Binational Science Foundation Program in Oceanography (grant number 1635070/2016532 to D. Segr{\`e} and D. Sher). The seasonal cruises were supported by funding from the Leon H. Charney School of Marine Sciences (Haifa University, Israel) and subsidized by the EcoOcean Foundation. M.H. was supported by an Inter‐Institutional post‐doctoral fellowship from the Haifa University and a Helmsley Trust fellowship. Funding Information: We thank the captain and crew of the R/V Mediterranean Explorer for their invaluable assistance during the research cruises. We also thank the scientific team on all cruises for their assistance, Dr. Tanya Rivlin (Interuniversity Institute for marine sciences, Eilat) for the nutrient analyses, Dr. Stephan Green (DNA Services Facility at the University of Illinois at Chicago) for the amplicon sequencing, Prof. Michael Krom and Dr. Luca Zoccarato for important discussions and Prof. Einat Segev for critical reading of the manuscript. This study was funded by the Milgrom Foundation (to L. Steindler), the Israel Science Foundation (Grant No. 1243/16 to L. Steindler), the Human Frontiers Science Program (grant number grant RGP0020/2016, to D. Segr? and D. Sher) and by the National Science Foundation - United States-Israel Binational Science Foundation Program in Oceanography (grant number 1635070/2016532 to D. Segr? and D. Sher). The seasonal cruises were supported by funding from the Leon H. Charney School of Marine Sciences (Haifa University, Israel) and subsidized by the EcoOcean Foundation. M.H. was supported by an Inter-Institutional post-doctoral fellowship from the Haifa University and a Helmsley Trust fellowship. Publisher Copyright: {\textcopyright} 2021 Society for Applied Microbiology and John Wiley & Sons Ltd.",

year = "2021",

month = aug,

doi = "10.1111/1462-2920.15611",

language = "English",

volume = "23",

pages = "4295--4308",

journal = "Environmental Microbiology",

issn = "1462-2912",

publisher = "Wiley-Blackwell Publishing Ltd",

number = "8",

}

TY - JOUR

T1 - Particle-associated and free-living bacterial communities in an oligotrophic sea are affected by different environmental factors

AU - Roth Rosenberg, Dalit

AU - Haber, Markus

AU - Goldford, Joshua

AU - Lalzar, Maya

AU - Aharonovich, Dikla

AU - Al-Ashhab, Ashraf

AU - Lehahn, Yoav

AU - Segrè, Daniel

AU - Steindler, Laura

AU - Sher, Daniel

N1 - Funding Information: We thank the captain and crew of the R/V Mediterranean Explorer for their invaluable assistance during the research cruises. We also thank the scientific team on all cruises for their assistance, Dr. Tanya Rivlin (Interuniversity Institute for marine sciences, Eilat) for the nutrient analyses, Dr. Stephan Green (DNA Services Facility at the University of Illinois at Chicago) for the amplicon sequencing, Prof. Michael Krom and Dr. Luca Zoccarato for important discussions and Prof. Einat Segev for critical reading of the manuscript. This study was funded by the Milgrom Foundation (to L. Steindler), the Israel Science Foundation (Grant No. 1243/16 to L. Steindler), the Human Frontiers Science Program (grant number grant RGP0020/2016, to D. Segrè and D. Sher) and by the National Science Foundation ‐ United States‐Israel Binational Science Foundation Program in Oceanography (grant number 1635070/2016532 to D. Segrè and D. Sher). The seasonal cruises were supported by funding from the Leon H. Charney School of Marine Sciences (Haifa University, Israel) and subsidized by the EcoOcean Foundation. M.H. was supported by an Inter‐Institutional post‐doctoral fellowship from the Haifa University and a Helmsley Trust fellowship. Funding Information: We thank the captain and crew of the R/V Mediterranean Explorer for their invaluable assistance during the research cruises. We also thank the scientific team on all cruises for their assistance, Dr. Tanya Rivlin (Interuniversity Institute for marine sciences, Eilat) for the nutrient analyses, Dr. Stephan Green (DNA Services Facility at the University of Illinois at Chicago) for the amplicon sequencing, Prof. Michael Krom and Dr. Luca Zoccarato for important discussions and Prof. Einat Segev for critical reading of the manuscript. This study was funded by the Milgrom Foundation (to L. Steindler), the Israel Science Foundation (Grant No. 1243/16 to L. Steindler), the Human Frontiers Science Program (grant number grant RGP0020/2016, to D. Segr? and D. Sher) and by the National Science Foundation - United States-Israel Binational Science Foundation Program in Oceanography (grant number 1635070/2016532 to D. Segr? and D. Sher). The seasonal cruises were supported by funding from the Leon H. Charney School of Marine Sciences (Haifa University, Israel) and subsidized by the EcoOcean Foundation. M.H. was supported by an Inter-Institutional post-doctoral fellowship from the Haifa University and a Helmsley Trust fellowship. Publisher Copyright: © 2021 Society for Applied Microbiology and John Wiley & Sons Ltd.

PY - 2021/8

Y1 - 2021/8

N2 - In the oceans and seas, environmental conditions change over multiple temporal and spatial scales. Here, we ask what factors affect the bacterial community structure across time, depth and size fraction during six seasonal cruises (2 years) in the ultra-oligotrophic Eastern Mediterranean Sea. The bacterial community varied most between size fractions (free-living (FL) vs. particle-associated), followed by depth and finally season. The FL community was taxonomically richer and more stable than the particle-associated (PA) one, which was characterized by recurrent ‘blooms’ of heterotrophic bacteria such as Alteromonas and Ralstonia. The heterotrophic FL and PA communities were also correlated with different environmental parameters: the FL population correlated with depth and phytoplankton, whereas PA bacteria were correlated primarily with the time of sampling. A significant part of the variability in community structure could, however, not be explained by the measured parameters. The metabolic potential of the PA community, predicted from 16S rRNA amplicon data using PICRUSt, was enriched in pathways associated with the degradation and utilization of biological macromolecules, as well as plastics, other petroleum products and herbicides. The FL community was enriched in predicted pathways for the metabolism of inositol phosphate, a potential phosphorus source, and of polycyclic aromatic hydrocarbons.

AB - In the oceans and seas, environmental conditions change over multiple temporal and spatial scales. Here, we ask what factors affect the bacterial community structure across time, depth and size fraction during six seasonal cruises (2 years) in the ultra-oligotrophic Eastern Mediterranean Sea. The bacterial community varied most between size fractions (free-living (FL) vs. particle-associated), followed by depth and finally season. The FL community was taxonomically richer and more stable than the particle-associated (PA) one, which was characterized by recurrent ‘blooms’ of heterotrophic bacteria such as Alteromonas and Ralstonia. The heterotrophic FL and PA communities were also correlated with different environmental parameters: the FL population correlated with depth and phytoplankton, whereas PA bacteria were correlated primarily with the time of sampling. A significant part of the variability in community structure could, however, not be explained by the measured parameters. The metabolic potential of the PA community, predicted from 16S rRNA amplicon data using PICRUSt, was enriched in pathways associated with the degradation and utilization of biological macromolecules, as well as plastics, other petroleum products and herbicides. The FL community was enriched in predicted pathways for the metabolism of inositol phosphate, a potential phosphorus source, and of polycyclic aromatic hydrocarbons.

UR - http://www.scopus.com/inward/record.url?scp=85107506220&partnerID=8YFLogxK

U2 - 10.1111/1462-2920.15611

DO - 10.1111/1462-2920.15611

M3 - Article

AN - SCOPUS:85107506220

SN - 1462-2912

VL - 23

SP - 4295

EP - 4308

JO - Environmental Microbiology

JF - Environmental Microbiology

IS - 8

ER -

Particle-associated and free-living bacterial communities in an oligotrophic sea are affected by different environmental factors

Abstract

Bibliographical note

ASJC Scopus subject areas

Access to Document

Other files and links

Fingerprint

Cite this