Wildfires in boreal ecosystems: past, present and some emerging trends

Girardin, Martin P.; Ali, Adam A.; Hély, Christelle

doi:10.1071/wfv19n8_fo

Cited by 19 publications

(5 citation statements)

References 26 publications

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“…This is especially true given current stand conditions that promote more damaging wildfires, such as high surface fuel loads and high densities of younger trees (ladder fuels) and snags (Agee & Skinner, ). Similar effects of changing climate–fire dynamics have been found throughout western forests, including the Sierra Nevada (Littell et al ., ), as well as in boreal systems (Girardin et al ., ), south African systems (Archibald et al ., ), and projected globally (Gonzalez et al ., ).…”

Section: Discussionmentioning

confidence: 99%

Carbon dynamics in the future forest: the importance of long‐term successional legacy and climate–fire interactions

Loudermilk

Scheller

Weisberg

et al. 2013

Global Change Biology

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Understanding how climate change may influence forest carbon (C) budgets requires knowledge of forest growth relationships with regional climate, long-term forest succession, and past and future disturbances, such as wildfires and timber harvesting events. We used a landscape-scale model of forest succession, wildfire, and C dynamics (LANDIS-II) to evaluate the effects of a changing climate (A2 and B1 IPCC emissions; Geophysical Fluid Dynamics Laboratory General Circulation Models) on total forest C, tree species composition, and wildfire dynamics in the Lake Tahoe Basin, California, and Nevada. The independent effects of temperature and precipitation were assessed within and among climate models. Results highlight the importance of modeling forest succession and stand development processes at the landscape scale for understanding the C cycle. Due primarily to landscape legacy effects of historic logging of the Comstock Era in the late 1880s, C sequestration may continue throughout the current century, and the forest will remain a C sink (Net Ecosystem Carbon Balance > 0), regardless of climate regime. Climate change caused increases in temperatures limited simulated C sequestration potential because of augmented fire activity and reduced establishment ability of subalpine and upper montane trees. Higher temperatures influenced forest response more than reduced precipitation. As the forest reached its potential steady state, the forest could become C neutral or a C source, and climate change could accelerate this transition. The future of forest ecosystem C cycling in many forested systems worldwide may depend more on major disturbances and landscape legacies related to land use than on projected climate change alone.

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Section: Discussionmentioning

confidence: 99%

Carbon dynamics in the future forest: the importance of long‐term successional legacy and climate–fire interactions

Loudermilk

Scheller

Weisberg

et al. 2013

Global Change Biology

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“…We found no evidence of an increase in AAB or overall number of fires per year in the NWT Taiga Shield since the start of fire records in 1965, consistent with Rickbiel, Hermosilla, Coops, White, and Wulder (). However, many studies have shown or predicted an increase in AAB and fire frequency in Canadian boreal forests, primarily due to increased summer drought conditions (Flannigan, Krawchuk, deGroot, Wotton, & Gowman, ; Gillett, Weaver, Zwiers, & Flannigan, ; Girardin, Ali, & Hély, ; Kasischke & Turetsky, ). The susceptibility of forests in our study area to frequent and large fires appears to be influenced more by the effects of temperature on fuel dryness, than by precipitation despite similar precipitation levels as those reported by Larsen () and McCoy and Burn ().…”

Section: Discussionmentioning

confidence: 99%

Fire and lichen dynamics in the Taiga Shield of the Northwest Territories and implications for barren‐ground caribou winter forage

Lewis

Johnson

Karim

2019

J Vegetation Science

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Questions:Fire is the main disturbance agent in boreal forests and has profound effects on vegetation composition and structure, including terrestrial lichens that provide critical winter forage for barren-ground caribou. What is the influence of fire on forest structure and the distribution and species assemblage of forage lichens? What is the current or potential effect of climate change on forage lichen in the boreal forest?Location: High Boreal, Low Subarctic, and High Subarctic ecoregions of the Taiga Shield Ecozone in the Northwest Territories, Canada. Methods:We used fire history data, satellite and air photo images, and field sampling to determine fire history and severity, and subsequent effects on tree and lichen species composition, in a 880,000 ha study area in the winter range of the Bathurst caribou herd.Results: We found that low-and mixed-severity fires were more common than highseverity fires, and that forest fire severity increased with distance to treeline. Forest structure and composition were more important drivers of lichen cover than fire severity or time since fire. Conclusions:While fire had a dominant role in forest structure and composition, the effects on lichen availability were due more to variation in tree growth. We found little evidence of changes in fire regime over the length of our reconstructions (approximately 200 years); however, increases in temperature and the positive relationship between temperature and fire frequency may lead to shortened fire cycles causing a reduction in the availability of forage lichens through burning. K E Y W O R D SBarren-ground caribou, Bathurst caribou herd, boreal forest, fire severity, lichen, Taiga Shield

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“…Lena Pillars, which was a Nature Park since 1994, was nominated World Heritage Site in 2012, is the youngest of the 201 protected areas analysed in this study. Most of the forest loss occurred in this area in -2004and 2011), when it was already protected (but before the establishment of the World Heritage Site in 2012). However, in 2013 (just one year after its nomination by UNESCO) and then in 2016 and 2018, high other-than-fire loss peaks were recorded.…”

Section: Lena Pillars World Heritage Sitementioning

confidence: 99%

“…In the last decades, however, large areas of Russian boreal forests have been damaged by different factors (mainly logging and fires), which led to significant forest loss (Girardin et al, 2011;Pyzhev et al, 2021). Boreal forests in Russia play a crucial role in climate change because they are an important carbon sink, holding almost 50% of the northern hemisphere's terrestrial carbon.…”

Section: Introductionmentioning

confidence: 99%