Soil microbes
like bacteria and fungi break down plant matter (cellulose) that is rich
in carbon. As such, they play a crucial role in carbon cycling on
Earth, yet the factors that influence soil microbial diversity and
activity remain poorly understood.
Traditionally, only the tiny proportion of soil microorganisms that
can be cultivated in a laboratory were studied to better understand
cellulose degradation. But now, thanks to modern molecular techniques,
soil samples can be directly investigated.
Some of these techniques have recently been expanded on as part of
the EU-funded 'Nanosims enabled approach to understand bacterial and
fungal cellulose degraders in soils' (SAE_SNSP_UVA) project. In
particular, researchers were able to extract sample components small
enough to allow single-cell genome sequencing using advanced
instruments.
As a proof-of-concept for their new extraction method, they applied
it to the detection of cellulose-degrading microbes from an Austrian
beech forest soil. More specifically, they used biogeochemical,
molecular and enzymatic studies to characterise different guilds of
these microorganisms.
One major finding was that adding glucose to the samples caused a
shift in the community to favour bacteria, while adding inorganic
nitrogen favoured fungi.
This study has contributed to our knowledge of cellulose degradation
and the factors that govern it. As soils contain the largest pool of
carbon on Earth, it is important to gain a deeper understanding of its
role in the terrestrial carbon cycle.