Metagenomics meets time series analysis: unraveling microbial community dynamics

K. Faust; L.M. Lahti; D. Gonze; W.M. de Vos; J. Raes

doi:10.1016/j.mib.2015.04.004

Metagenomics meets time series analysis: unraveling microbial community dynamics

K. Faust^*, L.M. Lahti, D. Gonze, W.M. de Vos, J. Raes^*

^*Corresponding author for this work

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

332 Citations (Scopus)

Abstract

The recent increase in the number of microbial time series studies offers new insights into the stability and dynamics of microbial communities, from the world's oceans to human microbiota. Dedicated time series analysis tools allow taking full advantage of these data. Such tools can reveal periodic patterns, help to build predictive models or, on the contrary, quantify irregularities that make community behavior unpredictable. Microbial communities can change abruptly in response to small perturbations, linked to changing conditions or the presence of multiple stable states. With sufficient samples or time points, such alternative states can be detected. In addition, temporal variation of microbial interactions can be captured with time-varying networks. Here, we apply these techniques on multiple longitudinal datasets to illustrate their potential for microbiome research.

Original language	English
Pages (from-to)	56-66
Journal	Current Opinion in Microbiology
Volume	25
DOIs	https://doi.org/10.1016/j.mib.2015.04.004
Publication status	Published - 2015

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10.1016/j.mib.2015.04.004Licence: CC BY-NC-ND

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title = "Metagenomics meets time series analysis: unraveling microbial community dynamics",

abstract = "The recent increase in the number of microbial time series studies offers new insights into the stability and dynamics of microbial communities, from the world's oceans to human microbiota. Dedicated time series analysis tools allow taking full advantage of these data. Such tools can reveal periodic patterns, help to build predictive models or, on the contrary, quantify irregularities that make community behavior unpredictable. Microbial communities can change abruptly in response to small perturbations, linked to changing conditions or the presence of multiple stable states. With sufficient samples or time points, such alternative states can be detected. In addition, temporal variation of microbial interactions can be captured with time-varying networks. Here, we apply these techniques on multiple longitudinal datasets to illustrate their potential for microbiome research.",

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AU - Lahti, L.M.

AU - Gonze, D.

AU - de Vos, W.M.

AU - Raes, J.

PY - 2015

Y1 - 2015

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AB - The recent increase in the number of microbial time series studies offers new insights into the stability and dynamics of microbial communities, from the world's oceans to human microbiota. Dedicated time series analysis tools allow taking full advantage of these data. Such tools can reveal periodic patterns, help to build predictive models or, on the contrary, quantify irregularities that make community behavior unpredictable. Microbial communities can change abruptly in response to small perturbations, linked to changing conditions or the presence of multiple stable states. With sufficient samples or time points, such alternative states can be detected. In addition, temporal variation of microbial interactions can be captured with time-varying networks. Here, we apply these techniques on multiple longitudinal datasets to illustrate their potential for microbiome research.

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JO - Current Opinion in Microbiology

JF - Current Opinion in Microbiology

ER -

Metagenomics meets time series analysis: unraveling microbial community dynamics

Abstract

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