2017
DOI: 10.1016/j.agrformet.2016.11.192
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Medium-term dynamics of soil respiration in a Mediterranean mountain ecosystem: The effects of burn severity, post-fire burnt-wood management, and slope-aspect

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Cited by 19 publications
(11 citation statements)
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“…Fire severity has a strong effect on the components of nongrowing season R s with the effect of fire depending on severity and duration, which may account for the divergence in our R s response to fire (Czimczik et al 2006;Meigs et al 2009;Nave et al 2011;Richards et al 2012;Song et al 2018;Uribe et al 2013). High severity fires have greater negative effects on ecosystem processes than that of low severity fires (Dooley and Treseder 2012;Martínez-García et al 2017;Plaza-Álvarez et al 2017). Previous studies have shown that the non-growing season R s of Dahurian Larch in the high latitudes of China decreased by approximately 55% in burned stands, which may be attributed to the decrease of R a after a high severity fire (Hu et al 2017a).…”
Section: Effects Of Fire Disturbance On Non-growing Season Soil Respi...mentioning
confidence: 99%
“…Fire severity has a strong effect on the components of nongrowing season R s with the effect of fire depending on severity and duration, which may account for the divergence in our R s response to fire (Czimczik et al 2006;Meigs et al 2009;Nave et al 2011;Richards et al 2012;Song et al 2018;Uribe et al 2013). High severity fires have greater negative effects on ecosystem processes than that of low severity fires (Dooley and Treseder 2012;Martínez-García et al 2017;Plaza-Álvarez et al 2017). Previous studies have shown that the non-growing season R s of Dahurian Larch in the high latitudes of China decreased by approximately 55% in burned stands, which may be attributed to the decrease of R a after a high severity fire (Hu et al 2017a).…”
Section: Effects Of Fire Disturbance On Non-growing Season Soil Respi...mentioning
confidence: 99%
“…Environmental perturbations affected abiotic factors could alter SR. For example slope aspect might determine SR rates by modifying the microclimatic conditions (Martínez-García et al, 2017). SR was higher in the upper part of the slope and lower in the lower part (Ohashi and Gyokusen, 2007).…”
Section: Introductionmentioning
confidence: 99%
“…Low‐severity fires often result in C accumulation due to partly burned and slash fragments that enter the soil, whereas high‐severity fires lead to significant C loss (Alcañiz et al, 2018), particularly in forests compared with grasslands (Li et al, 2021; Zhou et al, 2022). While studies have shown that fire severity can increase the magnitude of the declines of R s , R h and R a (Cooperdock et al, 2020; Dooley & Treseder, 2012; Hu et al, 2021; Wang et al, 2012) due to increased plant and microbial mortality, other studies (particularly short‐term) have reported positive or neutral impacts (Abdalla et al, 2016; Fierro et al, 2007; Hu et al, 2020; Martínez‐García et al, 2017). Inconsistent responses for larger spatiotemporal scales might be attributed to the differences in fire characteristics, sampling times, vegetation restoration processes, biomes and management practices (Li et al, 2021; Song et al, 2019).…”
Section: Introductionmentioning
confidence: 99%