The enzymatic arsenal of several soil microorganisms renders them particularly suitable for
the degradation of lignocellulose, a process of distinct ecological significance with promising …

Lignocellulose wastes stemming from agricultural residues can offer an excellent
opportunity as alternative energy solutions in addition to fossil fuels. Besides, the …

Given the increase in habitat fragmentation in the Mediterranean forests, understanding its
impacts over the ecology of soil microbial communities, responsible for many ecosystem …

Temperate coniferous forests sustain the highest levels of biomass of all terrestrial
ecosystems and belong to the major carbon sinks on Earth. However, the community …

The soil is one of the most complex systems where species belonging to different kingdoms
live together (Young and Crawford, 2004). In particular, microorganisms such as bacteria …

The mechanisms by which specific anaerobic microorganisms remain firmly attached to
lignocellulosic material, allowing them to efficiently decompose organic matter, have yet to …

Forest soils represent important terrestrial carbon (C) pools, where C is primarily fixed in
plant biomass and then is incorporated in the biomass of fungi and bacteria. Although …

An exploration of the ligninolytic potential of lignocellulolytic microbial consortia can improve
our understanding of the eco-enzymology of lignin conversion in nature. In this study, we …

Fungi are the main organisms responsible for plant biomass degradation in soils. While
many studies have evaluated the impact of tree species on the taxonomic diversity of soil …

Abstract Melojo oak (Quercus pyrenaica Willd.) is a key tree species of Mediterranean
forests; however, these forests show an advanced stage of deterioration in the Iberian …