Vermeire M. L., Thoresen J., Lennard K., Vikram S., Kirkman K., Swemmer A. M., Te Beest M., Siebert F., Gordijn P., Venter Z., Brunel Caroline, Wolfaard G., Krumins J. A., Cramer M. D., Hawkins H. J. (2021). Fire and herbivory drive fungal and bacterial communities through distinct above-and-belowground mechanisms. Science of the Total Environment, 785, p. 147189 [11 p.]. ISSN 0048-9697.
Titre du document
Fire and herbivory drive fungal and bacterial communities through distinct above-and-belowground mechanisms
Année de publication
2021
Auteurs
Vermeire M. L., Thoresen J., Lennard K., Vikram S., Kirkman K., Swemmer A. M., Te Beest M., Siebert F., Gordijn P., Venter Z., Brunel Caroline, Wolfaard G., Krumins J. A., Cramer M. D., Hawkins H. J.
Source
Science of the Total Environment, 2021,
785, p. 147189 [11 p.] ISSN 0048-9697
Fire and herbivory are important natural disturbances in grassy biomes. Both drivers are likely to influence belowground microbial communities but no studies have unravelled the long-term impact of both fire and herbivory on bacterial and fungal communities. We hypothesized that soil bacterial communities change through disturbance-induced shifts in soil properties (e.g. pH, nutrients) while soil fungal communities change through vegetation modification (biomass and species composition). To test these ideas, we characterised soil physicochemical properties (pH, acidity, C, N, P and exchangeable cations content, texture, bulk density, moisture), plant species richness and biomass, microbial biomass and bacterial and fungal community composition and diversity (using 16S and ITS rRNA amplicon sequencing, respectively) in six long-term (18 to 70 years) ecological research sites in South African savanna and grassland ecosystems. We found that fire and herbivory regimes profoundly modified soil physico-chemical properties, plant species richness and standing biomass. In all sites, an increase in woody biomass (ranging from 12 to 50%) was observed when natural disturbances were excluded. The intensity and direction of changes in soil properties were highly dependent on the topo-pedo-climatic context. Overall, fire and herbivory shaped bacterial and fungal communities through distinct driving forces: edaphic properties (including Mg, pH, Ca) for bacteria, and vegetation (herbaceous biomass and woody cover) for fungi. Fire and herbivory explained on average 7.5 and 9.8% of the fungal community variability, respectively, compared to 6.0 and 5.6% for bacteria. The relatively small changes in microbial communities due to natural disturbance is in stark contrast to dramatic vegetation and edaphic changes and suggests that soil microbial communities, having evolved with disturbance, are resistant to change. This represents both a buffer to short-term anthropogenicinduced changes and a restoration challenge in the face of long-term changes.
Plan de classement
Sciences fondamentales / Techniques d'analyse et de recherche [020]
;
Biologie du sol [074]
;
Sciences du monde végétal [076]
;
Etudes, transformation, conservation du milieu naturel [082]
Description Géographique
AFRIQUE DU SUD
Localisation
Fonds IRD [F B010082209]
Identifiant IRD
fdi:010082209
