Journal
SCIENCE OF THE TOTAL ENVIRONMENT
Volume 846, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.scitotenv.2022.157467
Keywords
Biocrust; Microbial community composition; Mosses; Post -fire management; Wildfire
Categories
Funding
- POSTFIRE_CARE project of the Spanish Research Agency (AEI)
- European Union through European Funding for Regional Development (FEDER) [CGL2016-75178-C2-1-R]
- Spanish Ministry of Economy and Competitiveness [FPI-MINECO BES-2017-081283]
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Research has shown that pioneer moss biocrusts have significant effects on the recovery and resilience of soils in early post-fire stages in semi-arid areas. These biocrusts can soften the impact of wildfires on soil, alter the diversity and composition of microbial communities, and affect the physicochemical and biochemical properties of soil. The presence of moss biocrusts promotes rapid successional transition of soil microbial communities and plays a crucial role in improving their resilience.
After wildfires in Mediterranean ecosystems, ruderal mosses are pioneer species, stabilizing the soil surface previous to the establishment of vascular vegetation. However, little is known about the implication of pioneer moss biocrusts for the recovery and resilience of soils in early post-fire stages in semi-arid areas. Therefore, we studied the effects of the burgeoning biocrust on soil physicochemical and biochemical properties and the diversity and composition of micro-bial communities after a moderate-to-high wildfire severity. Seven months after the wildfire, the biocrust softened the strong impact of the fire in soils, affecting the diversity and composition of bacteria and fungi community compared to the uncrusted soils exposed to unfavourable environmental stress. Soil moisture, phosphorous, and enzyme activities representing the altered biogeochemical cycles after the fire, were the main explanatory variables for biocrust micro-bial community composition under the semi-arid conditions. High bacterial diversity was found in soils under mosses, while long-lasting legacies are expected in the fungal community, which showed greater sensitivity to the fire. The composition of bacterial and fungal communities at several taxonomical levels was profoundly altered by the presence of the moss biocrust, showing a rapid successional transition toward the unburned soil community. Pioneer moss biocrust play an important role improving the resilience of soil microbial communities. In the context of increasing fire intensity, studying the moss biocrust effects on the recovery of soils microbiome is essential to understanding the resistance and resilience of Mediterranean forests to wildfires.
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