A community perspective on the concept of marine holobionts: Current status, challenges, and future directions

Simon M. Dittami; Enrique Arboleda; Jean Christophe Auguet; Arite Bigalke; Enora Briand; Paco Cárdenas; Ulisse Cardini; Johan Decelle; Aschwin H. Engelen; Damien Eveillard; Claire M.M. Gachon; Sarah M. Griffiths; Tilmann Harder; Ehsan Kayal; Elena Kazamia; François H. Lallier; Mónica Medina; Ezequiel M. Marzinelli; Teresa Maria Morganti; Laura Núñez Pons; Soizic Prado; José Pintado; Mahasweta Saha; Marc André Selosse; Derek Skillings; Willem Stock; Shinichi Sunagawa; Eve Toulza; Alexey Vorobev; Catherine Leblanc; Fabrice Not

doi:10.7717/peerj.10911

A community perspective on the concept of marine holobionts: Current status, challenges, and future directions

Simon M. Dittami, Enrique Arboleda, Jean Christophe Auguet, Arite Bigalke, Enora Briand, Paco Cárdenas, Ulisse Cardini, Johan Decelle, Aschwin H. Engelen, Damien Eveillard, Claire M.M. Gachon, Sarah M. Griffiths, Tilmann Harder, Ehsan Kayal, Elena Kazamia, François H. Lallier, Mónica Medina, Ezequiel M. Marzinelli, Teresa Maria Morganti, Laura Núñez PonsSoizic Prado, José Pintado, Mahasweta Saha, Marc André Selosse, Derek Skillings, Willem Stock, Shinichi Sunagawa, Eve Toulza, Alexey Vorobev, Catherine Leblanc, Fabrice Not

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Abstract

Host-microbe interactions play crucial roles in marine ecosystems. However, we still have very little understanding of the mechanisms that govern these relationships, the evolutionary processes that shape them, and their ecological consequences. The holobiont concept is a renewed paradigm in biology that can help to describe and understand these complex systems. It posits that a host and its associated microbiota with which it interacts, form a holobiont, and have to be studied together as a coherent biological and functional unit to understand its biology, ecology, and evolution. Here we discuss critical concepts and opportunities in marine holobiont research and identify key challenges in the field. We highlight the potential economic, sociological, and environmental impacts of the holobiont concept in marine biological, evolutionary, and environmental sciences. Given the connectivity and the unexplored biodiversity specific to marine ecosystems, a deeper understanding of such complex systems requires further technological and conceptual advances, e.g., the development of controlled experimental model systems for holobionts from all major lineages and the modeling of (info)chemical-mediated interactions between organisms. Here we propose that one significant challenge is to bridge cross-disciplinary research on tractable model systems in order to address key ecological and evolutionary questions. This first step is crucial to decipher the main drivers of the dynamics and evolution of holobionts and to account for the holobiont concept in applied areas, such as the conservation, management, and exploitation of marine ecosystems and resources, where practical solutions to predict and mitigate the impact of human activities are more important than ever.

Original language	English (US)
Article number	10911
Journal	PeerJ
Volume	9
DOIs	https://doi.org/10.7717/peerj.10911
State	Published - Feb 25 2021

All Science Journal Classification (ASJC) codes

Neuroscience(all)
Biochemistry, Genetics and Molecular Biology(all)
Agricultural and Biological Sciences(all)

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10.7717/peerj.10911

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Dittami, S. M., Arboleda, E., Auguet, J. C., Bigalke, A., Briand, E., Cárdenas, P., Cardini, U., Decelle, J., Engelen, A. H., Eveillard, D., Gachon, C. M. M., Griffiths, S. M., Harder, T., Kayal, E., Kazamia, E., Lallier, F. H., Medina, M., Marzinelli, E. M., Morganti, T. M., ... Not, F. (2021). A community perspective on the concept of marine holobionts: Current status, challenges, and future directions. PeerJ, 9, Article 10911. https://doi.org/10.7717/peerj.10911

@article{a2eb791d43e74bfb96477f0af493e668,

title = "A community perspective on the concept of marine holobionts: Current status, challenges, and future directions",

abstract = "Host-microbe interactions play crucial roles in marine ecosystems. However, we still have very little understanding of the mechanisms that govern these relationships, the evolutionary processes that shape them, and their ecological consequences. The holobiont concept is a renewed paradigm in biology that can help to describe and understand these complex systems. It posits that a host and its associated microbiota with which it interacts, form a holobiont, and have to be studied together as a coherent biological and functional unit to understand its biology, ecology, and evolution. Here we discuss critical concepts and opportunities in marine holobiont research and identify key challenges in the field. We highlight the potential economic, sociological, and environmental impacts of the holobiont concept in marine biological, evolutionary, and environmental sciences. Given the connectivity and the unexplored biodiversity specific to marine ecosystems, a deeper understanding of such complex systems requires further technological and conceptual advances, e.g., the development of controlled experimental model systems for holobionts from all major lineages and the modeling of (info)chemical-mediated interactions between organisms. Here we propose that one significant challenge is to bridge cross-disciplinary research on tractable model systems in order to address key ecological and evolutionary questions. This first step is crucial to decipher the main drivers of the dynamics and evolution of holobionts and to account for the holobiont concept in applied areas, such as the conservation, management, and exploitation of marine ecosystems and resources, where practical solutions to predict and mitigate the impact of human activities are more important than ever.",

author = "Dittami, {Simon M.} and Enrique Arboleda and Auguet, {Jean Christophe} and Arite Bigalke and Enora Briand and Paco C{\'a}rdenas and Ulisse Cardini and Johan Decelle and Engelen, {Aschwin H.} and Damien Eveillard and Gachon, {Claire M.M.} and Griffiths, {Sarah M.} and Tilmann Harder and Ehsan Kayal and Elena Kazamia and Lallier, {Fran{\c c}ois H.} and M{\'o}nica Medina and Marzinelli, {Ezequiel M.} and Morganti, {Teresa Maria} and Pons, {Laura N{\'u}{\~n}ez} and Soizic Prado and Jos{\'e} Pintado and Mahasweta Saha and Selosse, {Marc Andr{\'e}} and Derek Skillings and Willem Stock and Shinichi Sunagawa and Eve Toulza and Alexey Vorobev and Catherine Leblanc and Fabrice Not",

note = "Funding Information: This paper is based on the results of a foresight workshop funded by the EuroMarine network, Sorbonne University, and the UMRs 8227 and 7144 of the Roscoff Biological Station. Ezequiel M. Marzinelli was funded by an Australian Research Council Discovery Project (DP180104041), and Jos{\'e} Pintado Valverde was funded by the Galician Innovation Agency (IN607A 2017/4). The work of Simon M. Dittami ad Catherine Leblanc was funded by the ANR project IDEALG (ANR-10-BTBR-04). Claire M.M. Gachon, Catherine Leblanc, and Simon M Dittami received funding from the European Union{\textquoteright}s Horizon 2020 research and innovation program under the Marie Sklodowska-Curie grant agreement number 624575 (ALFF). The work of Fabrice Not was funded by the ANR project IMPEKAB (ANR-15-CE02-001). Ulisse Cardini was funded by the Research Council of Lithuania project INBALANCE (09.3.3-LMT-K-712-01-0069). Johan Decelle was supported by the CNRS and the ATIP-Avenir program, the LabEx GRAL (ANR-10-LABX-49-01) and P{\^o}le CBS from the University of Grenoble Alpes. Paco Cardenas received support from the European Union{\textquoteright}s Horizon 2020 research and innovation program through the SponGES project (grant agreement No. 679849). Elena Kazamia was funded by a Marie Curie Individual Fellowship (Horizon 2020, IRONCOMM). Aschwin H Engelen was supported by Portuguese national funds from FCT - Foundation for Science and Technology through projects UID/Multi/04326/2019 and UIDB/04326/2020. There was no additional external funding received for this study. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript. Funding Information: The following grant information was disclosed by the authors: EuroMarine network, Sorbonne University, and the UMRs 8227 and 7144 of the Roscoff Biological Station. Australian Research Council Discovery Project: DP180104041. The Galician Innovation Agency: IN607A 2017/4. The ANR project IDEALG: ANR-10-BTBR-04. The European Union{\textquoteright}s Horizon 2020 research and innovation program under the Marie Sklodowska-Curie: 624575 (ALFF). The ANR project IMPEKAB: ANR-15-CE02-001. The Research Council of Lithuania project INBALANCE: 09.3.3-LMT-K-712-01-0069. The LabEx GRAL (ANR-10-LABX-49-01). The University of Grenoble Alpes. The European Union{\textquoteright}s Horizon 2020 research and innovation program through the SponGES project: 679849. A Marie Curie Individual Fellowship (Horizon 2020, IRONCOMM). FCT - Foundation for Science and Technology: UID/Multi/04326/2019, UIDB/04326/2020. The ATIP-Avenir program The Centre National de Recherche Scientifique. Publisher Copyright: {\textcopyright} 2021 Dittami et al.",

year = "2021",

month = feb,

day = "25",

doi = "10.7717/peerj.10911",

language = "English (US)",

volume = "9",

journal = "PeerJ",

issn = "2167-8359",

publisher = "PeerJ",

}

Dittami, SM, Arboleda, E, Auguet, JC, Bigalke, A, Briand, E, Cárdenas, P, Cardini, U, Decelle, J, Engelen, AH, Eveillard, D, Gachon, CMM, Griffiths, SM, Harder, T, Kayal, E, Kazamia, E, Lallier, FH, Medina, M, Marzinelli, EM, Morganti, TM, Pons, LN, Prado, S, Pintado, J, Saha, M, Selosse, MA, Skillings, D, Stock, W, Sunagawa, S, Toulza, E, Vorobev, A, Leblanc, C & Not, F 2021, 'A community perspective on the concept of marine holobionts: Current status, challenges, and future directions', PeerJ, vol. 9, 10911. https://doi.org/10.7717/peerj.10911

TY - JOUR

T1 - A community perspective on the concept of marine holobionts

T2 - Current status, challenges, and future directions

AU - Dittami, Simon M.

AU - Arboleda, Enrique

AU - Auguet, Jean Christophe

AU - Bigalke, Arite

AU - Briand, Enora

AU - Cárdenas, Paco

AU - Cardini, Ulisse

AU - Decelle, Johan

AU - Engelen, Aschwin H.

AU - Eveillard, Damien

AU - Gachon, Claire M.M.

AU - Griffiths, Sarah M.

AU - Harder, Tilmann

AU - Kayal, Ehsan

AU - Kazamia, Elena

AU - Lallier, François H.

AU - Medina, Mónica

AU - Marzinelli, Ezequiel M.

AU - Morganti, Teresa Maria

AU - Pons, Laura Núñez

AU - Prado, Soizic

AU - Pintado, José

AU - Saha, Mahasweta

AU - Selosse, Marc André

AU - Skillings, Derek

AU - Stock, Willem

AU - Sunagawa, Shinichi

AU - Toulza, Eve

AU - Vorobev, Alexey

AU - Leblanc, Catherine

AU - Not, Fabrice

N1 - Funding Information: This paper is based on the results of a foresight workshop funded by the EuroMarine network, Sorbonne University, and the UMRs 8227 and 7144 of the Roscoff Biological Station. Ezequiel M. Marzinelli was funded by an Australian Research Council Discovery Project (DP180104041), and José Pintado Valverde was funded by the Galician Innovation Agency (IN607A 2017/4). The work of Simon M. Dittami ad Catherine Leblanc was funded by the ANR project IDEALG (ANR-10-BTBR-04). Claire M.M. Gachon, Catherine Leblanc, and Simon M Dittami received funding from the European Union’s Horizon 2020 research and innovation program under the Marie Sklodowska-Curie grant agreement number 624575 (ALFF). The work of Fabrice Not was funded by the ANR project IMPEKAB (ANR-15-CE02-001). Ulisse Cardini was funded by the Research Council of Lithuania project INBALANCE (09.3.3-LMT-K-712-01-0069). Johan Decelle was supported by the CNRS and the ATIP-Avenir program, the LabEx GRAL (ANR-10-LABX-49-01) and Pôle CBS from the University of Grenoble Alpes. Paco Cardenas received support from the European Union’s Horizon 2020 research and innovation program through the SponGES project (grant agreement No. 679849). Elena Kazamia was funded by a Marie Curie Individual Fellowship (Horizon 2020, IRONCOMM). Aschwin H Engelen was supported by Portuguese national funds from FCT - Foundation for Science and Technology through projects UID/Multi/04326/2019 and UIDB/04326/2020. There was no additional external funding received for this study. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript. Funding Information: The following grant information was disclosed by the authors: EuroMarine network, Sorbonne University, and the UMRs 8227 and 7144 of the Roscoff Biological Station. Australian Research Council Discovery Project: DP180104041. The Galician Innovation Agency: IN607A 2017/4. The ANR project IDEALG: ANR-10-BTBR-04. The European Union’s Horizon 2020 research and innovation program under the Marie Sklodowska-Curie: 624575 (ALFF). The ANR project IMPEKAB: ANR-15-CE02-001. The Research Council of Lithuania project INBALANCE: 09.3.3-LMT-K-712-01-0069. The LabEx GRAL (ANR-10-LABX-49-01). The University of Grenoble Alpes. The European Union’s Horizon 2020 research and innovation program through the SponGES project: 679849. A Marie Curie Individual Fellowship (Horizon 2020, IRONCOMM). FCT - Foundation for Science and Technology: UID/Multi/04326/2019, UIDB/04326/2020. The ATIP-Avenir program The Centre National de Recherche Scientifique. Publisher Copyright: © 2021 Dittami et al.

PY - 2021/2/25

Y1 - 2021/2/25

N2 - Host-microbe interactions play crucial roles in marine ecosystems. However, we still have very little understanding of the mechanisms that govern these relationships, the evolutionary processes that shape them, and their ecological consequences. The holobiont concept is a renewed paradigm in biology that can help to describe and understand these complex systems. It posits that a host and its associated microbiota with which it interacts, form a holobiont, and have to be studied together as a coherent biological and functional unit to understand its biology, ecology, and evolution. Here we discuss critical concepts and opportunities in marine holobiont research and identify key challenges in the field. We highlight the potential economic, sociological, and environmental impacts of the holobiont concept in marine biological, evolutionary, and environmental sciences. Given the connectivity and the unexplored biodiversity specific to marine ecosystems, a deeper understanding of such complex systems requires further technological and conceptual advances, e.g., the development of controlled experimental model systems for holobionts from all major lineages and the modeling of (info)chemical-mediated interactions between organisms. Here we propose that one significant challenge is to bridge cross-disciplinary research on tractable model systems in order to address key ecological and evolutionary questions. This first step is crucial to decipher the main drivers of the dynamics and evolution of holobionts and to account for the holobiont concept in applied areas, such as the conservation, management, and exploitation of marine ecosystems and resources, where practical solutions to predict and mitigate the impact of human activities are more important than ever.

AB - Host-microbe interactions play crucial roles in marine ecosystems. However, we still have very little understanding of the mechanisms that govern these relationships, the evolutionary processes that shape them, and their ecological consequences. The holobiont concept is a renewed paradigm in biology that can help to describe and understand these complex systems. It posits that a host and its associated microbiota with which it interacts, form a holobiont, and have to be studied together as a coherent biological and functional unit to understand its biology, ecology, and evolution. Here we discuss critical concepts and opportunities in marine holobiont research and identify key challenges in the field. We highlight the potential economic, sociological, and environmental impacts of the holobiont concept in marine biological, evolutionary, and environmental sciences. Given the connectivity and the unexplored biodiversity specific to marine ecosystems, a deeper understanding of such complex systems requires further technological and conceptual advances, e.g., the development of controlled experimental model systems for holobionts from all major lineages and the modeling of (info)chemical-mediated interactions between organisms. Here we propose that one significant challenge is to bridge cross-disciplinary research on tractable model systems in order to address key ecological and evolutionary questions. This first step is crucial to decipher the main drivers of the dynamics and evolution of holobionts and to account for the holobiont concept in applied areas, such as the conservation, management, and exploitation of marine ecosystems and resources, where practical solutions to predict and mitigate the impact of human activities are more important than ever.

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A community perspective on the concept of marine holobionts: Current status, challenges, and future directions

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