Soil respiration variation along an altitudinal gradient in Italian Alps: Disentangling forest structure and temperature effects

Badraghi, Aysan; Ventura, Maurizio; Polo, Andrea; Borruso, Luigimaria; Montagnani, Leonardo

doi:10.1101/2021.02.17.431600

Cited by 5 publications

(2 citation statements)

References 94 publications

(145 reference statements)

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“…Temperature is considered the most important factor influencing global soil respiration [5,27,28] and according to [29] soil respiration positively correlates to ambient temperature. As the temperature decreases within different altitudinal zones [30,31], consequently, soil respiration declines with increasing elevation [32,33] which is consistent with our study in 2016 at infested sites. On the other hand, infested sites in 2017 did not show consistency with the mentioned studies, which was similar to [40].…”

Section: Discussionsupporting

confidence: 91%

“…Soil respiration positively correlates to ambient temperature [29]. As the temperature changes within different altitudinal zones [30,31]), consequently, soil respiration declines with increasing elevation [32,33]. Similarly, a higher solar radiation intake on infested sites is observed and therefore soil and air temperature are rising on the plots with bark beetle infested trees [24].…”

Section: Introductionmentioning

confidence: 99%

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Post-disturbance Dynamics of Soil Respiration in the High Tatra Mts. (Slovakia)

Tomes,

Fleischer, Jr.,

Kubov

et al. 2024

Preprint

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In recent decades, large-scale forest disturbances such as windthrow and bark beetle infestations have significantly impacted the carbon balance of Earth and forest ecosystems, mainly by altering soil respiration (SR) in addition to decreased gross primary productivity. SR is considered the second highest flux on Earth, emitting 78-98 Gt C yr-1 to the atmosphere, thus contributing to global warming. Post-disturbance development is marked by changes in the size of SR. To investigate the impact of bark beetle (Ips typographus) infestations in mountain spruce forests on SR, we measured SR at infested sites by bark beetles and adjacent undisturbed stands in the High Tatra Mountains (Slovakia). The measurements were conducted during the vegetation period (May-September) in 2016 and 2017, five to six years after the initial attack by bark beetles, at an altitudinal gradient (1100-1400 m a.s.l.). SR varied throughout different months and altitudes, and we observed that SR at infested sites reached higher values (in most cases) than at uninfested stands. Average monthly and altitude SR rates during both vegetation periods showed higher values at infested sites, but not all of them were statistically significant. We observed an insignificant change in SR rate between 2016 and 2017 at both infested and uninfested sites. The highest rates of SR were observed in 2016 from July to August at both infested and undisturbed sites. On the other hand, in 2017 the highest SR rates were observed in June and July at undisturbed sites and from June to August at infested sites. However, yearly SR from May-September at infested sites showed significantly higher rates than uninfested ones in both years. SR showed a decreasing pattern with elevation gain in 2016 at infested sites. However, this pattern was not observed in 2017. Based on our observation and results we postulate that SR rates at infested sites are boosted by needle fall and debris from dead and dying trees, which increases heterotrophic SR and compensates the decrease of autotrophic SR from tree roots. This study provides important insights into the impact of bark beetle infestations on SR and highlights the need for further research on the long-term effects of forest disturbances on carbon cycling.

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Section: Discussionsupporting

confidence: 91%

Section: Introductionmentioning

confidence: 99%

Post-disturbance Dynamics of Soil Respiration in the High Tatra Mts. (Slovakia)

Tomes,

Fleischer, Jr.,

Kubov

et al. 2024

Preprint

View full text Add to dashboard Cite

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Drivers of mountain soil organic carbon stock dynamics: A review

Zhang

et al. 2022

J Soils Sediments

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Soil Respiration after Bark Beetle Infestation along a Vertical Transect in Mountain Spruce Forest

Tomes,

Fleischer,

Kubov

et al. 2024

Forests

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In recent decades, large-scale forest disturbances such as windthrow and bark beetle infestations have significantly impacted Earth’s carbon balance and forest ecosystems. This impact alters soil respiration (SR), along with decreased gross primary productivity. To investigate the impact of bark beetle (Ips typographus L.) infestations in mountain spruce forests on SR, we measured SR at sites infested by bark beetles and adjacent undisturbed stands in the Tatra National Park (Slovakia) during the vegetation period (May–September) in 2016–2017 five to six years after the initial bark beetle attack. The measurements were taken along an altitudinal gradient (1100–1400 m a.s.l.). The highest rates of SR were observed during the summer months in both years (from June to August). However, yearly SR from May to September at infested sites showed significantly higher rates than uninfested ones in both years. SR showed a decreasing pattern with elevation gain in 2016 at infested sites, but this pattern was not observed in 2017. This study provides important insights into the impact of bark beetle infestations on SR and emphasizes the need for further research on the long-term effects of forest disturbances on carbon cycling. It also underscores the importance of determining the effect of different components of SR on the changed environment due to bark beetle attacks on mountain spruce forests.

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Soil respiration variation along an altitudinal gradient in Italian Alps: Disentangling forest structure and temperature effects

Cited by 5 publications

References 94 publications

Post-disturbance Dynamics of Soil Respiration in the High Tatra Mts. (Slovakia)

Post-disturbance Dynamics of Soil Respiration in the High Tatra Mts. (Slovakia)

Drivers of mountain soil organic carbon stock dynamics: A review

Soil Respiration after Bark Beetle Infestation along a Vertical Transect in Mountain Spruce Forest

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