Post-fire Recovery and Successional Dynamics of an Old-growth Red Spruce Forest in the Southern Appalachian Mountains

Post-fire Recovery and Successional Dynamics of an Old-growth Red Spruce Forest in the Southern Appalachian Mountains
Author: Adam R. Krustchinsky
Publisher:
Total Pages:
Release: 2010
Genre:
ISBN:
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Red spruce is a shade-tolerant conifer whose distribution and abundance reflect Quaternary climate history as well as natural and anthropogenic disturbances. This species once extended further south than its present localities, because of natural and anthropogenic disturbances such as logging, windthrow, and fire. Little is known about the disturbance regime of this species, because long term stand dynamics are difficult to obtain. This-long lived species is hypothesized to be suffering a decline in radial growth, density and abundance at the present time. Recent research suggests pollution, biotic stresses, climate change and natural stand dynamics are the driving forces behind these decreases. The purpose of this study is to investigate the influence of fire in a mesic ecosystem, specifically a high-elevation red spruce (Picea rubens Sarg.) forest on Whitetop Mountain in the southern Appalachian Mountains. Six plots were established in a high elevation red spruce stand to characterize the stand composition. Tree ring data were collected to investigate radial growth relations to inter-annual climatic variability and cross-sections were used to investigate fire history. Red spruce continued to establish throughout the 19th century until a severe fire occurred in 1919 and caused a new cohort of yellow birch (Betula alleghaniensis Britt.) to establish within the stand. Logging and fire caused high mortality in the stand, yet many spruce remain that outdate the past disturbances. Red spruce saplings continue to persist in the stand, showing regeneration despite the abundant hardwoods. Moisture was the main contributing factor to red spruce growth in the dendroclimatic analysis. Red spruce radial growth was significantly correlated to high precipitation and low temperatures of the previous growing season, which is similar to recent research results. This study collaborates the current literature on red spruce growth along with the results found here in creating a model to represent the growth characteristics of red spruce when inter-mixed with hardwoods after a severe disturbance.

Post-Fire Forest Succession, Group-Gap Dynamics, and Implications for Fire Resilience in an Old-Growth Pinus Ponderosa Forest

Post-Fire Forest Succession, Group-Gap Dynamics, and Implications for Fire Resilience in an Old-Growth Pinus Ponderosa Forest
Author: Natalie Pawlikowski
Publisher:
Total Pages:
Release: 2018
Genre:
ISBN:
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This research quantifies forest structure and examines how post-fire succession alters pine-oak composition, group-gap spatial structure, and wildfire resilience in an old-growth ponderosa pine (Pinus ponderosa) forest that was resilient to recent wildfires and exhibits a heterogeneous forest structure thought to be similar to forests before fire exclusion. To quantify forest structure and spatial patterns, trees were aged, mapped, and measured in the year 2000 six-years after a wildfire and in 2016 22-years post-fire in six, 1-hectare, stem map plots in the Beaver Creek Pinery, located in the Ishi Wilderness, Southern Cascades, California. Regeneration seedlings and saplings were tallied in 10x10m cells. Rates of tree recruitment, mortality, and growth for the sites two co-dominant species ponderosa pine and California black oak (Quercus kelloggii) were estimated using demographic models. Local patterns in group structure was quantified using spatial clump algorithms and gap area was quantified using the empty space function. Potential fire behavior and effects were modeled for a range of fuel and weather conditions.Stand density and basal area in both 2000 and 2016 were within the historical range of variability for pre-fire exclusion ponderosa pine forests. Initially, wildfire promoted California black oak; however, oak abundance and regeneration has declined while pine abundance and regeneration has increased in the subsequent 22 years without fire. In 2000, ~15% of trees were classified as individuals and tree group sizes ranged from 2 to 75 trees. Small tree groups (2-4 trees) consist of similar-aged trees while larger groups are multi-aged. In 2016, the percent of trees classified as individuals decreased by ~30%, and the scale and intensity of clustering increased. The greatest change in spatial patterns occurred in plots with the highest rates of post-fire recruitment. The size and frequency of canopy gaps was similar in 2000 and 2016; however, higher densities of seedlings and saplings were associated with canopy gaps in 2016 which suggests, without future fire, canopy gaps will be infilled. Fire behavior models indicate the Beaver Creek Pinery is still resilient to high severity wildfire. Overall, this research broadens our understanding on the persistent effects of fire on spatial heterogeneity and demonstrates that wildfires can be used to restore resiliency to forests where wildfires have been suppressed for nearly a century.

Master's Theses Directories

Master's Theses Directories
Author:
Publisher:
Total Pages: 312
Release: 2007
Genre: Dissertations, Academic
ISBN:
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"Education, arts and social sciences, natural and technical sciences in the United States and Canada".

A Key for Predicting Postfire Successional Trajectories in Black Spruce Stands of Interior Alaska

A Key for Predicting Postfire Successional Trajectories in Black Spruce Stands of Interior Alaska
Author: Jill Frances Johnstone
Publisher:
Total Pages: 46
Release: 2008
Genre: Black spruce
ISBN:
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Black spruce (Picea mariana (Mill) B.S.P) is the dominant forest cover type in interior Alaska and is prone to frequent, stand-replacing wildfires. Through impacts on tree recruitment, the degree of fire consumption of soil organic layers can act as an important determinant of whether black spruce forests regenerate to a forest composition similar to the prefire forest, or to a new forest composition dominated by deciduous hardwoods. Here we present a simple, rule-based framework for predicting fire-initiated changes in forest cover within Alaska's black spruce forests. Four components are presented: (1) a key to classifying potential site moisture, (2) a summary of conditions that favor black spruce self-replacement, (3) a key to predicting postfire forest recovery in recently burned stands, and (4) an appendix of photos to be used as a visual reference tool. This report should be useful to managers in designing fire management actions and predicting the effects of recent and future fires on postfire forest cover in black spruce forests of interior Alaska.

Structural Characteristics and Recruitment Dynamics of Old-Growth Red Spruce-Northern Hardwoods Mixedwood Forests

Structural Characteristics and Recruitment Dynamics of Old-Growth Red Spruce-Northern Hardwoods Mixedwood Forests
Author: Jordan T. Luff
Publisher:
Total Pages: 0
Release: 2024
Genre: Forests and forestry
ISBN:
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Mixedwoods forests occur in temperate forests around the world, providing unique ecological, economic, and cultural benefits, but there are key knowledge gaps on their natural dynamics and development pathways. In northeastern North America, records and studies show that red spruce was once a common component of northern hardwoods in this region; however, historic selective harvesting has greatly reduced the preponderance of these mixedwood ecosystems. Given the narrow regeneration niche of red spruce and the various anthropogenic and natural disturbances that have reduced this species, significant challenges exist to the restoration of red spruce-northern hardwoods mixedwoods. To address this challenge, our study characterized the structure and composition of two old-growth mixedwoods stands, Township 40 of Adirondack Park in New York and the Bowl Natural Area of White Mountain National Forest in New Hampshire.We used dendroecological data from large, stem-mapped plots to reconstruct the natural disturbance pathways of these forests to inform techniques for restoring and sustaining red spruce-northern hardwood forests into the future. At Township 40, red spruce was the second most abundant species, occupied 58.1% of the dominant and codominant crown classes, and had an importance value (IV) of 22.5%. At the Bowl, red spruce was the most abundant species, occupied 81.4% of the dominant and codominant crown classes, and had an IV of 37.3%. Large trees (stems [greater than or equal to]50 cm DBH) made up 30-33% of the basal area at each site and were predominantly comprised of yellow birch and red spruce. Red spruce dominated the sapling layer (stems 2.54-9.9 cm DBH) at both sites. Snags (standing dead trees) and coarse woody material (CWM) were also abundant, with Township 40 having 237 snags/ha and average CWM volume of 94.5 m3/ha and the Bowl containing 110 snags/ha and average CWM volume of 99.1 m3/ha. There was no evidence of stand-replacing disturbance at either site. The mean decadal rate of canopy loss at both sites was 6.3% with decadal canopy loss