EGU21-14004, updated on 04 Mar 2021
https://doi.org/10.5194/egusphere-egu21-14004
EGU General Assembly 2021
© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

Effects of anthropogenic degradation of an Andean temperate forest on the soil nutrients and on the diversity and function of the soil microbial community

Alejandro Atenas1,2, Felipe Aburto1,2,3, Rodrigo Hasbun4, and Carolina Merino5
Alejandro Atenas et al.
  • 1LISAB: Laboratory of Investigation on Soils, Water and Forest; Faculty of Forestry Sciences; University of Concepción, Concepción, Chile
  • 2Iniciativa Foresta Nativa, University of Concepción, Concepción, Chile
  • 3Silviculture department, Faculty of Forestry Sciences, Concepción, Chile
  • 4Plant Epigenetics laboratory, Faculty of Forestry Sciences; University of Concepción, Concepción, Chile
  • 5Center of Amelioration and Sustainability of Volcanic Soils; Universidad de la Frontera, Temuco, Chile

Soil microorganisms are an essential component of forest ecosystems being directly involved in the decomposition of organic matter and the mineralization of nutrients. Anthropogenic disturbances such as logging and livestock modify the structure and composition of forests and also the structure and diversity of soil microbial communities changing critical biogeochemical processes in the soil. In this research we evaluated the effect of anthropic disturbance on the soil in a degradation gradient of Andean temperate forest. This gradient comprises mature forest stands dominated by Nothofagus dombeyii, secondary forests dominated by Nothofagus alpina with medium degradation, a highly degraded forests dominated by Nothofagus obliqua and a highly degraded grassland. We evaluate the reservoir of the main soil nutrients (TC, TN, NO3-, NH4+) and the structure, diversity and functions of the soil microbial community (bacteria and fungi) via NGS-Illumina sequencing and metagenomic análisis with DADA2 pipeline in R-project. The results show a higher amount of TC, TN, NO3- and C:N ratio in the most degraded condition (degraded grassland). There are no significant differences in the amount of TC, TN and NH4+ along the forest degradation gradient. This reflects a C:N:P stoichiometry that tends to decrease as forest degradation increases. The soil bacteria community was mainly dominated by Phyla Proteobacteria (45.35%), Acidobacteria (20.73%), Actinobacteria (12.59%) and Bacteroidetes (7.32%). At genus level there are significant differences, Bradyrhizobium has a higher relative abundance in the condition of mature forest which tends to decrease along the gradient of degradation forest. The soil fungi community was dominated by the Phyla Ascomycota (42.11%), Mortierellomycota (28.74%), Basidiomycota (24.61%) and Mucoromycota (2.06%). At genus level the condition of degraded grassland has significantly lower relative abundance of the genera Mortierella and Cortinarius. The degraded grassland soil microbial community is significantly less diverse in terms of bacteria (D' = 0.47±0.04) however it is significantly more diverse in terms of fungi (H' = 5.11±0.33).

How to cite: Atenas, A., Aburto, F., Hasbun, R., and Merino, C.: Effects of anthropogenic degradation of an Andean temperate forest on the soil nutrients and on the diversity and function of the soil microbial community, EGU General Assembly 2021, online, 19–30 Apr 2021, EGU21-14004, https://doi.org/10.5194/egusphere-egu21-14004, 2021.