Coupling ecological network analysis with high-throughput sequencing-based surveys: Lessons from the next-generation biomonitoring project

Maxime Dubart; Pascal Alonso; Didac Barroso-Bergada; Nathalie Becker; Kevin Bethune; David A. Bohan; Christophe Boury; Marine Cambon; Elsa Canard; Emilie Chancerel; Julien Chiquet; Patrice David; Natasha de Manincor; Sophie Donnet; Anne Duputié; Benoît Facon; Erwan Guichoux; Tâm Le Minh; Sebastián Ortiz-Martínez; Lucie Piouceau; Ambre Sacco-Martret de Préville; Manuel Plantegenest; Céline Poux; Virginie Ravigné; Stéphane Robin; Marine Trillat; Corinne Vacher; Christian Vernière; François Massol

doi:10.1016/bs.aecr.2021.10.007

Coupling ecological network analysis with high-throughput sequencing-based surveys: Lessons from the next-generation biomonitoring project

Maxime Dubart, Pascal Alonso, Didac Barroso-Bergada, Nathalie Becker, Kevin Bethune, David A. Bohan, Christophe Boury, Marine Cambon, Elsa Canard, Emilie Chancerel, Julien Chiquet, Patrice David, Natasha de Manincor, Sophie Donnet, Anne Duputié, Benoît Facon, Erwan Guichoux, Tâm Le Minh, Sebastián Ortiz-Martínez, Lucie PiouceauAmbre Sacco-Martret de Préville, Manuel Plantegenest, Céline Poux, Virginie Ravigné, Stéphane Robin, Marine Trillat, Corinne Vacher, Christian Vernière, François Massol

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

Abstract

Biomonitoring ecosystems is necessary in order to evaluate risks and to efficiently manage ecosystems and their associated services. Agrosystems are the target of multiple stressors that can affect many species through effects cascading along food webs. However, classic biomonitoring, focused on species diversity or indicator species, might be a poor predictor of the risk of such whole-ecosystem perturbations. Thanks to high-throughput sequencing methods, however, it might be possible to obtain sufficient information about entire ecological communities to infer the functioning of their associated interaction networks, and thus monitor more closely the risk of the collapse of entire food webs due to external stressors. In the course of the ‘next-generation biomonitoring’ project, we collectively sought to experiment with this idea of inferring ecological networks on the basis of metabarcoding information gathered on different systems. We here give an overview of issues and preliminary results associated with this endeavour and highlight the main difficulties that such next-generation biomonitoring is still facing. Going from sampling protocols up to methods for comparing inferred networks, through biomolecular, bioinformatic, and network inference, we review all steps of the process, with a view towards generality and transferability towards other systems.

Original language	English
Title of host publication	The Future of Agricultural Landscapes, Part III
Editors	David A. Bohan, Alex J. Dumbrell, Adam J. Vanbergen
Publisher	Academic Press Inc.
Pages	367-430
Number of pages	64
ISBN (Print)	9780323915038
DOIs	https://doi.org/10.1016/bs.aecr.2021.10.007
Publication status	Published - 1 Jan 2022
Externally published	Yes

Publication series

Name	Advances in Ecological Research
Volume	65
ISSN (Print)	0065-2504

Keywords

Ecological networks
High throughput sequencing
Logic-based machine learning
Microbiomes
Network inference
Next-generation biomonitoring
Next-generation sequencing
eDNA

Access to Document

10.1016/bs.aecr.2021.10.007

Cite this

Dubart, M., Alonso, P., Barroso-Bergada, D., Becker, N., Bethune, K., Bohan, D. A., Boury, C., Cambon, M., Canard, E., Chancerel, E., Chiquet, J., David, P., de Manincor, N., Donnet, S., Duputié, A., Facon, B., Guichoux, E., Le Minh, T., Ortiz-Martínez, S., ... Massol, F. (2022). Coupling ecological network analysis with high-throughput sequencing-based surveys: Lessons from the next-generation biomonitoring project. In D. A. Bohan, A. J. Dumbrell, & A. J. Vanbergen (Eds.), The Future of Agricultural Landscapes, Part III (pp. 367-430). (Advances in Ecological Research; Vol. 65). Academic Press Inc.. https://doi.org/10.1016/bs.aecr.2021.10.007

Dubart, Maxime ; Alonso, Pascal ; Barroso-Bergada, Didac et al. / Coupling ecological network analysis with high-throughput sequencing-based surveys : Lessons from the next-generation biomonitoring project. The Future of Agricultural Landscapes, Part III. editor / David A. Bohan ; Alex J. Dumbrell ; Adam J. Vanbergen. Academic Press Inc., 2022. pp. 367-430 (Advances in Ecological Research).

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title = "Coupling ecological network analysis with high-throughput sequencing-based surveys: Lessons from the next-generation biomonitoring project",

abstract = "Biomonitoring ecosystems is necessary in order to evaluate risks and to efficiently manage ecosystems and their associated services. Agrosystems are the target of multiple stressors that can affect many species through effects cascading along food webs. However, classic biomonitoring, focused on species diversity or indicator species, might be a poor predictor of the risk of such whole-ecosystem perturbations. Thanks to high-throughput sequencing methods, however, it might be possible to obtain sufficient information about entire ecological communities to infer the functioning of their associated interaction networks, and thus monitor more closely the risk of the collapse of entire food webs due to external stressors. In the course of the {\textquoteleft}next-generation biomonitoring{\textquoteright} project, we collectively sought to experiment with this idea of inferring ecological networks on the basis of metabarcoding information gathered on different systems. We here give an overview of issues and preliminary results associated with this endeavour and highlight the main difficulties that such next-generation biomonitoring is still facing. Going from sampling protocols up to methods for comparing inferred networks, through biomolecular, bioinformatic, and network inference, we review all steps of the process, with a view towards generality and transferability towards other systems.",

keywords = "Ecological networks, High throughput sequencing, Logic-based machine learning, Microbiomes, Network inference, Next-generation biomonitoring, Next-generation sequencing, eDNA",

author = "Maxime Dubart and Pascal Alonso and Didac Barroso-Bergada and Nathalie Becker and Kevin Bethune and Bohan, \{David A.\} and Christophe Boury and Marine Cambon and Elsa Canard and Emilie Chancerel and Julien Chiquet and Patrice David and \{de Manincor\}, Natasha and Sophie Donnet and Anne Duputi{\'e} and Beno{\^i}t Facon and Erwan Guichoux and \{Le Minh\}, T{\^a}m and Sebasti{\'a}n Ortiz-Mart{\'i}nez and Lucie Piouceau and \{Sacco-Martret de Pr{\'e}ville\}, Ambre and Manuel Plantegenest and C{\'e}line Poux and Virginie Ravign{\'e} and St{\'e}phane Robin and Marine Trillat and Corinne Vacher and Christian Verni{\`e}re and Fran{\c c}ois Massol",

note = "Publisher Copyright: {\textcopyright} 2022 Elsevier Ltd",

year = "2022",

month = jan,

day = "1",

doi = "10.1016/bs.aecr.2021.10.007",

language = "English",

isbn = "9780323915038",

series = "Advances in Ecological Research",

publisher = "Academic Press Inc.",

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booktitle = "The Future of Agricultural Landscapes, Part III",

}

Dubart, M, Alonso, P, Barroso-Bergada, D, Becker, N, Bethune, K, Bohan, DA, Boury, C, Cambon, M, Canard, E, Chancerel, E, Chiquet, J, David, P, de Manincor, N, Donnet, S, Duputié, A, Facon, B, Guichoux, E, Le Minh, T, Ortiz-Martínez, S, Piouceau, L, Sacco-Martret de Préville, A, Plantegenest, M, Poux, C, Ravigné, V, Robin, S, Trillat, M, Vacher, C, Vernière, C & Massol, F 2022, Coupling ecological network analysis with high-throughput sequencing-based surveys: Lessons from the next-generation biomonitoring project. in DA Bohan, AJ Dumbrell & AJ Vanbergen (eds), The Future of Agricultural Landscapes, Part III. Advances in Ecological Research, vol. 65, Academic Press Inc., pp. 367-430. https://doi.org/10.1016/bs.aecr.2021.10.007

Coupling ecological network analysis with high-throughput sequencing-based surveys: Lessons from the next-generation biomonitoring project. / Dubart, Maxime; Alonso, Pascal; Barroso-Bergada, Didac et al.
The Future of Agricultural Landscapes, Part III. ed. / David A. Bohan; Alex J. Dumbrell; Adam J. Vanbergen. Academic Press Inc., 2022. p. 367-430 (Advances in Ecological Research; Vol. 65).

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

TY - CHAP

T1 - Coupling ecological network analysis with high-throughput sequencing-based surveys

T2 - Lessons from the next-generation biomonitoring project

AU - Dubart, Maxime

AU - Alonso, Pascal

AU - Barroso-Bergada, Didac

AU - Becker, Nathalie

AU - Bethune, Kevin

AU - Bohan, David A.

AU - Boury, Christophe

AU - Cambon, Marine

AU - Canard, Elsa

AU - Chancerel, Emilie

AU - Chiquet, Julien

AU - David, Patrice

AU - de Manincor, Natasha

AU - Donnet, Sophie

AU - Duputié, Anne

AU - Facon, Benoît

AU - Guichoux, Erwan

AU - Le Minh, Tâm

AU - Ortiz-Martínez, Sebastián

AU - Piouceau, Lucie

AU - Sacco-Martret de Préville, Ambre

AU - Plantegenest, Manuel

AU - Poux, Céline

AU - Ravigné, Virginie

AU - Robin, Stéphane

AU - Trillat, Marine

AU - Vacher, Corinne

AU - Vernière, Christian

AU - Massol, François

PY - 2022/1/1

Y1 - 2022/1/1

N2 - Biomonitoring ecosystems is necessary in order to evaluate risks and to efficiently manage ecosystems and their associated services. Agrosystems are the target of multiple stressors that can affect many species through effects cascading along food webs. However, classic biomonitoring, focused on species diversity or indicator species, might be a poor predictor of the risk of such whole-ecosystem perturbations. Thanks to high-throughput sequencing methods, however, it might be possible to obtain sufficient information about entire ecological communities to infer the functioning of their associated interaction networks, and thus monitor more closely the risk of the collapse of entire food webs due to external stressors. In the course of the ‘next-generation biomonitoring’ project, we collectively sought to experiment with this idea of inferring ecological networks on the basis of metabarcoding information gathered on different systems. We here give an overview of issues and preliminary results associated with this endeavour and highlight the main difficulties that such next-generation biomonitoring is still facing. Going from sampling protocols up to methods for comparing inferred networks, through biomolecular, bioinformatic, and network inference, we review all steps of the process, with a view towards generality and transferability towards other systems.

AB - Biomonitoring ecosystems is necessary in order to evaluate risks and to efficiently manage ecosystems and their associated services. Agrosystems are the target of multiple stressors that can affect many species through effects cascading along food webs. However, classic biomonitoring, focused on species diversity or indicator species, might be a poor predictor of the risk of such whole-ecosystem perturbations. Thanks to high-throughput sequencing methods, however, it might be possible to obtain sufficient information about entire ecological communities to infer the functioning of their associated interaction networks, and thus monitor more closely the risk of the collapse of entire food webs due to external stressors. In the course of the ‘next-generation biomonitoring’ project, we collectively sought to experiment with this idea of inferring ecological networks on the basis of metabarcoding information gathered on different systems. We here give an overview of issues and preliminary results associated with this endeavour and highlight the main difficulties that such next-generation biomonitoring is still facing. Going from sampling protocols up to methods for comparing inferred networks, through biomolecular, bioinformatic, and network inference, we review all steps of the process, with a view towards generality and transferability towards other systems.

KW - Ecological networks

KW - High throughput sequencing

KW - Logic-based machine learning

KW - Microbiomes

KW - Network inference

KW - Next-generation biomonitoring

KW - Next-generation sequencing

KW - eDNA

U2 - 10.1016/bs.aecr.2021.10.007

DO - 10.1016/bs.aecr.2021.10.007

M3 - Chapter

AN - SCOPUS:85118356562

SN - 9780323915038

T3 - Advances in Ecological Research

SP - 367

EP - 430

BT - The Future of Agricultural Landscapes, Part III

A2 - Bohan, David A.

A2 - Dumbrell, Alex J.

A2 - Vanbergen, Adam J.

PB - Academic Press Inc.

ER -

Dubart M, Alonso P, Barroso-Bergada D, Becker N, Bethune K, Bohan DA et al. Coupling ecological network analysis with high-throughput sequencing-based surveys: Lessons from the next-generation biomonitoring project. In Bohan DA, Dumbrell AJ, Vanbergen AJ, editors, The Future of Agricultural Landscapes, Part III. Academic Press Inc. 2022. p. 367-430. (Advances in Ecological Research). doi: 10.1016/bs.aecr.2021.10.007

Coupling ecological network analysis with high-throughput sequencing-based surveys: Lessons from the next-generation biomonitoring project

Abstract

Publication series

Keywords

Access to Document

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