2019
DOI: 10.1016/j.soilbio.2019.107571
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Soil bacterial and fungal response to wildfires in the Canadian boreal forest across a burn severity gradient

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Cited by 178 publications
(246 citation statements)
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References 88 publications
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“…Fire effects on the soil microbial community (heterotrophs and symbionts) increase with fire severity (Whitman et al., 2019) which can alter plant recovery and microbially mediated ecosystem processes after fire events. Overall, fire decreases bacterial biomass and diversity, fungal species richness and mycorrhizal colonization, although responses of fungal species can be ephemeral (Dove & Hart, 2017).…”
Section: Fire Sets Ecological Ground Rules Through Soilsmentioning
confidence: 99%
See 1 more Smart Citation
“…Fire effects on the soil microbial community (heterotrophs and symbionts) increase with fire severity (Whitman et al., 2019) which can alter plant recovery and microbially mediated ecosystem processes after fire events. Overall, fire decreases bacterial biomass and diversity, fungal species richness and mycorrhizal colonization, although responses of fungal species can be ephemeral (Dove & Hart, 2017).…”
Section: Fire Sets Ecological Ground Rules Through Soilsmentioning
confidence: 99%
“…Combined with the inherent heterogeneity of fire, spatial variability in soil properties can be important for determining post‐fire changes in nutrients at the landscape scale that can alter whole ecosystems (Homann, Bormann, & Boyle, 2001). However, it is unclear how heterogeneity in fire behaviour determines heterogeneity in soil responses over time, in large part because of the limited studies that investigate fire severity gradients (Adkins et al., 2019; Garcia‐Oliva et al., 2018; Hewitt, Hollingsworth, Chapin, & Taylor, 2016; Kolka et al., 2017; Whitman et al., 2019). Most of our understanding of how fire severity influences soil responses is based on the comparison between wildfire and prescribed fire with the assumption that wildfires are more severe than prescribed fires (Nave, Vance, Swanston, & Curtis, 2011).…”
Section: Fire Sets Ecological Ground Rules Through Soilsmentioning
confidence: 99%
“…Additionally, some of these PyOM-responsive bacteria are from genera that have been identified as being fire-responsive in other studies (e.g., Microvirga (55), Bacillus (56), and Noviherbaspirillum (57)). Because all of the named taxa were also responsive to OM amendments over the short term, we raise the question of whether these OTUs may be responding to the more easily-mineralizable fractions of PyOM, or, in the case of fires, also to fire-released OM.…”
Section: Pyom Responders Differ Across Soils and Do Not Reflect A Commentioning
confidence: 83%
“…Soil ecosystem stability is influenced by the burning frequencies and can sustain prescribed burning occurring with more than four-year intervals [16]. An investigation of wildfire effects on soil bacterial and fungal communities in an extreme fire season in the northwestern Canadian boreal forest showed that fire occurrence, as well as moisture regime, are among the significant predictors of post combustion soil microbial community composition [17].…”
Section: Discussionmentioning
confidence: 99%