Add to ORKGIncreasing wildfire severity, which is common throughout the western United States, can have deleterious effects on plant regeneration and large impacts on carbon (C) and nitrogen (N) cycling rates. Soil microbes are pivotal in facilitating these elemental cycles, so understanding the impact of increasing fire severity on soil microbial communities is critical. Here, we assess the long-term impact of high-severity fires on the soil microbiome. We find that high-severity wildfires result in a multi-decadal (>25 y) recovery of the soil microbiome mediated by concomitant differences in aboveground vegetation, soil chemistry, and microbial assembly processes. Our results depict a distinct taxonomic and functional successional pattern of incr...
Little attention has been paid to the effects of wildfires on soil bacterial communities. The oppos...
This study analysed the resistance and resilience to 1 and 4 successive drying and rewetting (D/Rw) ...
Understanding the temporal and depth-related spatial controls on microbial functional redundancy and...
Increasing wildfire severity, which is common throughout the western United States, can have deleter...
Forest soil microbiomes have crucial roles in carbon storage, biogeochemical cycling and rhizosphere...
Fire is a crucial event regulating the structure and functioning of many ecosystems. Yet few studies...
Fire is a crucial event regulating the structure and functioning of many ecosystems.Yet few studies ...
Fire is an ecological disturbance that alters soil microbiomes and the functions they mediate in ter...
Although pyrogenic organic matter (PyOM) generated during wildfires plays a critical role in post-fi...
It is increasingly evident that the plant microbiome is a strong determinant of plant health. While ...
Doctor of PhilosophyDepartment of BiologyAri M. JumpponenFires, both wild and prescribed, have lasti...
Landscape position and depth in the soil column influence the movement of microbial substrate throug...
Forest fires alter soil microbial communities that are essential to support ecosystem recovery follo...
Soil microbes regulate the transfer of carbon (C) from ecosystems to the atmosphere and in doing so ...
Tundra ecosystems have experienced an increased frequency of fire, and this trend is predicted to co...
Little attention has been paid to the effects of wildfires on soil bacterial communities. The oppos...
This study analysed the resistance and resilience to 1 and 4 successive drying and rewetting (D/Rw) ...
Understanding the temporal and depth-related spatial controls on microbial functional redundancy and...
Increasing wildfire severity, which is common throughout the western United States, can have deleter...
Forest soil microbiomes have crucial roles in carbon storage, biogeochemical cycling and rhizosphere...
Fire is a crucial event regulating the structure and functioning of many ecosystems. Yet few studies...
Fire is a crucial event regulating the structure and functioning of many ecosystems.Yet few studies ...
Fire is an ecological disturbance that alters soil microbiomes and the functions they mediate in ter...
Although pyrogenic organic matter (PyOM) generated during wildfires plays a critical role in post-fi...
It is increasingly evident that the plant microbiome is a strong determinant of plant health. While ...
Doctor of PhilosophyDepartment of BiologyAri M. JumpponenFires, both wild and prescribed, have lasti...
Landscape position and depth in the soil column influence the movement of microbial substrate throug...
Forest fires alter soil microbial communities that are essential to support ecosystem recovery follo...
Soil microbes regulate the transfer of carbon (C) from ecosystems to the atmosphere and in doing so ...
Tundra ecosystems have experienced an increased frequency of fire, and this trend is predicted to co...
Little attention has been paid to the effects of wildfires on soil bacterial communities. The oppos...
This study analysed the resistance and resilience to 1 and 4 successive drying and rewetting (D/Rw) ...
Understanding the temporal and depth-related spatial controls on microbial functional redundancy and...