Natural tree regeneration and coarse woody debris dynamics after a forest fire in the western Cascade Range

The distribution of coarse woody debris in a fifth-order Cascade Range (Oregon) stream system was examined from a geomorphic point of view. The number, volume, location, orientation, decay class, and pool formation roles of coarse woody debris were investigated. The processes of coarse woody debris production, transport, and storage, which vary with channel and valley floor geomorphology, are responsible for the pattern of coarse woody debris distribution on valley floors. Channel width and sinuosity are the main factors that control production, storage sites, and hydrologic effects of coarse woody debris. The amount of coarse woody debris and the number of pool-forming pieces are relatively high in wide, sinuous reaches, where a complex structure of floodplains and riparian forests develops in association with a braided channel pattern. These relations are transferable to other systems with similar relations of coarse woody debris piece length to channel width.

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Influence of Forest Management Activities on Forest Fire Fuels in Coarse Woody Debris for Pinus densiflora Stands in South Korea

Crisis and Emergency Management Theory and Praxis ◽

10.14251/crisisonomy.2020.16.6.97 ◽

2020 ◽

Vol 16 (6) ◽

pp. 97-103

Author(s):

Sun Joo Lee ◽

Sung Yong Kim ◽

Chun Geun Kwon ◽

Byung Doo Lee ◽

Young Jin Lee

Keyword(s):

Forest Management ◽

South Korea ◽

Forest Fire ◽

Coarse Woody Debris ◽

Pinus Densiflora ◽

Woody Debris

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Effects of Fire Severity and Woody Debris on Tree Regeneration for Exploratory Well Pads in Jack Pine (Pinus banksiana) Forests

Forests ◽

10.3390/f12101330 ◽

2021 ◽

Vol 12 (10) ◽

pp. 1330

Author(s):

Angelo T. Filicetti ◽

Ryan A. LaPointe ◽

Scott E. Nielsen

Keyword(s):

Coarse Woody Debris ◽

Tree Mortality ◽

Negative Binomial ◽

Woody Debris ◽

Fire Severity ◽

Jack Pine ◽

Tree Regeneration ◽

Woodland Caribou ◽

Debris Cover ◽

In Fire

Restoring anthropogenic footprints to pre-disturbance conditions or minimizing their long-term impacts is an important goal in conservation. Many footprints, particularly if left alone, have wide-ranging effects on biodiversity. In Canada, energy exploration footprints result in forest dissection and fragmentation contributing to declines in woodland caribou. Developing cost effective strategies to restore forests and thus conserving the woodland caribou habitat is a conservation priority. In this study, we compared the effects of wildfire and local variation in the amount of residual woody debris on natural regeneration in jack pine on exploratory well pads in Alberta’s boreal forest. Specifically, we investigated how footprint size, fire severity (overstory tree mortality), ground cover of fine and coarse woody debris, and adjacent stand characteristics (i.e., height, age, and cover), affected tree regeneration densities and height using negative binomial count and linear models (Gaussian), respectively. Regeneration density was 30% higher on exploratory well pads than adjacent forests, increased linearly with fire severity on the exploratory well pads (2.2% per 1% increase in fire severity), but non-linearly in adjacent forests (peaking at 51,000 stems/ha at 72% fire severity), and decreased with amount of woody debris on exploratory well pads (2.7% per 1% increase in woody debris cover). The height of regenerating trees on exploratory well pads decreased with fire severity (0.56 cm per 1% increase in fire severity) and was non-linearly related to coarse woody debris (peaking at 286 cm at 9.4% coarse woody debris cover). Heights of 3 and 5 m on exploratory well pads were predicted by 13- and 21-years post-fire, respectively. Our results demonstrate that wildfires can stimulate natural recovery of fire-adapted species, such as jack pine, on disturbances as large as exploratory well pads (500–1330 m2) and that the type and amount of woody debris affects these patterns.

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Effects of position, understorey vegetation and coarse woody debris on tree regeneration in two environmentally contrasting forests of north-western Patagonia: a manipulative approach

Journal of Biogeography ◽

10.1111/j.1365-2699.2006.01511.x ◽

2006 ◽

Vol 33 (8) ◽

pp. 1357-1367 ◽

Cited By ~ 36

Author(s):

Karin Heinemann ◽

Thomas Kitzberger

Keyword(s):

Coarse Woody Debris ◽

Woody Debris ◽

Tree Regeneration ◽

Understorey Vegetation ◽

North Western

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Biodiversity and Coarse Woody Debris in Southern Forests

10.2737/se-gtr-094 ◽

1996 ◽

Cited By ~ 6

Author(s):

James W. McWinn ◽

D.A. Crossley

Keyword(s):

Coarse Woody Debris ◽

Woody Debris

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Baumartenwechsel in den Walliser Waldföhrenwäldern verstärkt nach grossen Störungen

Schweizerische Zeitschrift fur Forstwesen ◽

10.3188/szf.2018.0260 ◽

2018 ◽

Vol 169 (5) ◽

pp. 260-268 ◽

Cited By ~ 2

Author(s):

Thomas Wohlgemuth ◽

Violette Doublet ◽

Cynthia Nussbaumer ◽

Linda Feichtinger ◽

Andreas Rigling

Keyword(s):

Scots Pine ◽

Forest Fire ◽

Tree Regeneration ◽

Fire Disturbance ◽

Pine Forests ◽

The Past ◽

Vegetation Shift ◽

Tree Demography ◽

Scots Pine Forests ◽

High Share

Vegetation shift in Scots pine forests in the Valais accelerated by large disturbances In the past dozen years, several studies have concluded a vegetation shift from Scots pine to oak (pubescent and sessile) forests in the low elevated zones of the Valais. It is, however, not fully clear in which way such a vegetation shift actually occurs and on which processes such a shift would be based. Two studies, one on the tree demography in the intact Pfynwald and the other on the tree regeneration on the large Leuk forest fire patch, serve to discuss different aspects of the shift from Scots pine to oak. The forest stands of Pfynwald consist of 67% Scots pines and 14% oaks. Regenerating trees are 2–3.5 times more frequent in small gaps than under canopy. In gaps of the Upper Pfynwald, seedlings and saplings of Scots pine are three times more abundant than oaks, while both species regenerate in similar quantities under canopy. In the Lower Pfynwald, young oaks – especially seedlings – are more frequent than Scots pines. A different process is going on at the lower part in the Leuk forest fire patch where Scots pines prevailed before the burn of 2003. While Scots pines regenerate exclusively close to the edge of the intact forest, oaks not only resprout from trunk but also profit from unlimited spreading of their seeds by the Eurasian jay. Regeneration from seeds are hence observed in the whole studied area, independent of the proximity of seed trees. After the large fire disturbance, a mixed forests with a high share of oaks is establishing, which translates to a rapid vegetation shift. The two trajectories are discussed in the light of climate change.

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