Structural equation modeling of a winnowed soil microbiome identifies how invasive plants re-structure microbial networks
Mamet et al., 2019
Mamet et al., 2019
The development of microbial networks is central to ecosystem
functioning and is the hallmark of complex natural systems.
Characterizing network development over time and across environmental
gradients is hindered by the millions of potential interactions among
community members, limiting interpretations of network evolution. We
developed a feature selection approach using data winnowing that
identifies the most ecologically influential microorganisms within a
network undergoing change. Using a combination of graph theory,
leave-one-out analysis, and statistical inference, complex microbial
communities are winnowed to identify the core organisms responding to
external gradients or functionality, and then network development is
evaluated against these externalities. In a plant invasion case study,
the winnowed microbial network became more influential as the plant
invasion progressed as a result of direct plant-microbe links rather
than the expected indirect plant–soil–microbe links. This represents the
first use of structural equation modeling to predict microbial network
evolution, which requires identification of keystone taxa and
quantification of the ecological processes underpinning community
structure and function patterns.
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