Linking fine-scale microbial diversity to ecosystem functions
Resolving genome and community dynamics from environmental change by applying newly-developed tools to complex microbiomes.
Project Lead: Chris Quince
Funding:
This research is supported by the UKRI Biotechnology and Biological Sciences Research Council (BBSRC).
Earlham Institute Strategic Programme Grant Decoding Biodiversity BBX011089/1 and its constituent work package BBS/E/ER/230002C.
Microbial communities, also known as microbiomes, play a crucial role in various aspects of health and the environment.
At the Earlham Institute we’re applying a diverse set of methods and applications to the study of microbiomes that scale in complexity across human health, biotechnology, and agriculture.
Our goal is to understand the underlying principles of microbial community assembly and function, identifying common aspects across different systems. Our work focuses on three key areas:
On short ecological timescales, the microbial lineage is the fundamental unit of diversity in a microbiome. Over longer evolutionary timescales and increasing recombination rates, individual genes and gene cassettes may become effectively independent evolving units.
As part of the Decoding Biodiversity strategic programme, we have developed tools that we will apply to the study of complex microbiomes in order to unravel the dynamics of microbial communities over time, and connected to environmental factors.
We are using pangenomics to connect genes to genomes and determine how these two units interact during community assembly and coevolution.
We will develop tools and technologies tailored to in-field and in-situ analysis of microbial communities for diverse applications in agriculture, environmental monitoring, and process engineering.
Analysis of soil communities will feed into the development of soil health indicators for better agronomy and land management, thus improving farm profitability. We will engage with stakeholders and policy makers to explore ways our tools could be incorporated into practical methods to measure soil health.