10.7275/HSQ9-PH87
Alteio, Lauren
Lauren
Alteio
https://orcid.org/0000-0002-9108-5083
University of Massachusetts Amherst
Ecology of the Elusive: Genome-Informed Investigation of Soil Microbial Diversity
University of Massachusetts Amherst
2019
Dissertation
Soil is considered one of the most diverse ecosystems on Earth, harboring diversity of organisms across the three domains of life. It is spatially and chemically heterogeneous: properties that intertwine in a complex matrix to support organismal diversity and function across different scales. Soil microorganisms both respond to and drive changes in ecosystems through metabolic activities. A single gram of soil is teeming with millions of cells comprised of thousands of species. Much of this diversity remains uncharacterized due to technical and methodological challenges faced by soil ecologists. Due to the complex physicochemical properties of soil and cross-feeding interactions between organisms, it is difficult to culture microorganisms in isolation. The immense biological diversity of soils also reduces bioinformatic genome assembly efficiency, therefore obscuring the scope of diversity. As one of Earth's main reserviors of stored carbon, containing roughly one-third of carbon globally, terrestrial ecosystems may serve as a carbon source under future climate scenarios and drive further climate change. Despite challenges associated with the study of soil microorganisms, it remains critical to discover and describe diversity of microbial communities in soils if we are to understand resilience of our ecosystems to climate change.