A Century of Disturbance and Dynamics During the Establishment of White Oak (quercus Alba) Dominance in Forests of Southeastern Ohio PDF Download
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Author: Peter G. Butterfield
Publisher:
ISBN:
Category :
Languages : en
Pages : 0
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Book Description
The structure and composition of forest ecosystems throughout eastern North America has been determined by historical disturbances and successional processes. The white oak group (Leucobalanus) was an important species culturally for Indigenous Peoples of eastern North America for hundreds of years and has been highly valued by European colonizers of the 18th and 19th centuries. The white oak tree (Quercus alba) is a geographically widespread species in eastern North America that has historically been a forest dominant. In addition to popular human uses, Q. alba acorns are an important resource for wildlife. Over the past century, despite being a canopy dominant, Q. alba along with other oaks have exhibited a striking lack of regeneration and recruitment into the canopy across much of its range. This regeneration failure has been associated with a dramatic increase in the importance of shade-tolerant maple species (Acer spp.). A transition from oak-to-maple dominance could have largescale effects on biodiversity, wildlife, and soil characteristics. A variety of explanations for this oak-to-maple dominance shift have been offered in the scientific literature, predominant among these is the multiple interactive drivers hypothesis that asserts historical oak dominance was created by the interaction of multiple disturbance processes. Much remains unknown about the causes of oak-to-maple dominance shift and the multiple drivers hypothesis has not been fully vetted. In this Thesis I sought to examine factors that led to formation of Q. alba dominated forests over the past century by focusing on tree-ring analysis in forests of southwestern Ohio. These forests are near the geographic center of the Q. alba range and are broadly characteristic of the ecology in oak forests of eastern North America. I examined cross section samples of Q. alba (n = 62), chestnut oak (Q. montana) (n = 2), and shagbark hickory (Carya ovata) (n = 1) trees to assess (a) long- term fire history in the site and (b) patterns of growth suppression and release that would indicate forest disturbance over the past 100 years. Fire history reconstructions had been previously accomplished. I measured tree-rings on all the samples and then applied release detection techniques designed to detect canopy disturbance that allowed light to penetrate beneath the forest canopy. I predicted (P1) that oak seedlings will have established in open conditions as evidenced by rapid growth in their first decade. Once established, these stems had hypothetically would have utilized release from shade associated with disturbances that create gaps in the canopy to advance in dominance and ultimately reach canopy status. Therefore, I predicted (P2) that oak stems would experience multiple release events prior to canopy dominance. Finally, because we know that anthropogenic fire suppression limited fires in the site after approximately 1930, I predicted (P3) a striking divergence in the two types of disturbance, with fires abruptly ending and gap dynamics occurring occasionally throughout the chronology. Evidence of high light environment establishment for oak saplings was mixed as approximately half of the samples were gap-origin (equivocal support for P1). I found strong evidence that oak trees utilized canopy gaps during canopy accession (affirming P2) as approximately 83% of stems exhibited at least one release and most stems experienced at least two release events. I also found strong evidence of a divergence in the two disturbance processes (affirming P3) as fire scars indicating historical fires occurred in the site from approximately 1880 to 1940 and then ended abruptly, while release events were consistently recorded throughout the chronology. These results support a multiple interacting disturbances framework for oak forest establishment. Specifically, I found strong evidence of historical fires during the initial establishment of the stands followed by releases that were non-fire associated during which Q. alba trees were presumably moving into the forest canopy. These results suggest that management for oak forests could use prescribed fire as a way to initiate a strong pool of oak saplings followed by individual tree or small patch cutting to add light to the forest floor and promote those saplings into a position in the canopy. Understanding long-term dynamics of oak forests is a pressing scientific concern and my data indicate that future work focusing on the interaction of disturbance processes could be a fruitful area of scientific research.
Author: Peter G. Butterfield
Publisher:
ISBN:
Category :
Languages : en
Pages : 0
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Book Description
The structure and composition of forest ecosystems throughout eastern North America has been determined by historical disturbances and successional processes. The white oak group (Leucobalanus) was an important species culturally for Indigenous Peoples of eastern North America for hundreds of years and has been highly valued by European colonizers of the 18th and 19th centuries. The white oak tree (Quercus alba) is a geographically widespread species in eastern North America that has historically been a forest dominant. In addition to popular human uses, Q. alba acorns are an important resource for wildlife. Over the past century, despite being a canopy dominant, Q. alba along with other oaks have exhibited a striking lack of regeneration and recruitment into the canopy across much of its range. This regeneration failure has been associated with a dramatic increase in the importance of shade-tolerant maple species (Acer spp.). A transition from oak-to-maple dominance could have largescale effects on biodiversity, wildlife, and soil characteristics. A variety of explanations for this oak-to-maple dominance shift have been offered in the scientific literature, predominant among these is the multiple interactive drivers hypothesis that asserts historical oak dominance was created by the interaction of multiple disturbance processes. Much remains unknown about the causes of oak-to-maple dominance shift and the multiple drivers hypothesis has not been fully vetted. In this Thesis I sought to examine factors that led to formation of Q. alba dominated forests over the past century by focusing on tree-ring analysis in forests of southwestern Ohio. These forests are near the geographic center of the Q. alba range and are broadly characteristic of the ecology in oak forests of eastern North America. I examined cross section samples of Q. alba (n = 62), chestnut oak (Q. montana) (n = 2), and shagbark hickory (Carya ovata) (n = 1) trees to assess (a) long- term fire history in the site and (b) patterns of growth suppression and release that would indicate forest disturbance over the past 100 years. Fire history reconstructions had been previously accomplished. I measured tree-rings on all the samples and then applied release detection techniques designed to detect canopy disturbance that allowed light to penetrate beneath the forest canopy. I predicted (P1) that oak seedlings will have established in open conditions as evidenced by rapid growth in their first decade. Once established, these stems had hypothetically would have utilized release from shade associated with disturbances that create gaps in the canopy to advance in dominance and ultimately reach canopy status. Therefore, I predicted (P2) that oak stems would experience multiple release events prior to canopy dominance. Finally, because we know that anthropogenic fire suppression limited fires in the site after approximately 1930, I predicted (P3) a striking divergence in the two types of disturbance, with fires abruptly ending and gap dynamics occurring occasionally throughout the chronology. Evidence of high light environment establishment for oak saplings was mixed as approximately half of the samples were gap-origin (equivocal support for P1). I found strong evidence that oak trees utilized canopy gaps during canopy accession (affirming P2) as approximately 83% of stems exhibited at least one release and most stems experienced at least two release events. I also found strong evidence of a divergence in the two disturbance processes (affirming P3) as fire scars indicating historical fires occurred in the site from approximately 1880 to 1940 and then ended abruptly, while release events were consistently recorded throughout the chronology. These results support a multiple interacting disturbances framework for oak forest establishment. Specifically, I found strong evidence of historical fires during the initial establishment of the stands followed by releases that were non-fire associated during which Q. alba trees were presumably moving into the forest canopy. These results suggest that management for oak forests could use prescribed fire as a way to initiate a strong pool of oak saplings followed by individual tree or small patch cutting to add light to the forest floor and promote those saplings into a position in the canopy. Understanding long-term dynamics of oak forests is a pressing scientific concern and my data indicate that future work focusing on the interaction of disturbance processes could be a fruitful area of scientific research.
Author: Megan Lindsay Buchanan
Publisher:
ISBN:
Category : Electronic dissertations
Languages : en
Pages : 49
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Book Description
Throughout much of the eastern US, forests are undergoing a transition from Quercus to Acer-Fagus dominance. While the pattern has been reported in many site-specific analyses and is often linked to changes in disturbance regimes, a landscape-level analysis of historical establishment and disturbance throughout the region has not been conducted. I used tree-ring chronologies to analyze the disturbance history from old-growth Q. alba sites located throughout the species' range with the ultimate goal of determining the environmental conditions and disturbance dynamics that existed throughout the latter period of Quercus dominance and early period of Quercus decline. My analysis provided regional- and range-wide data regarding the frequency of disturbance throughout the development of old-growth Q. alba stands. In general, the temporal distribution of tree establishment dates was bimodal and corresponded to the period of Native American depopulation and the period following European settlement. Drought, Castanea dentata decline, and logging activities also significantly contributed to the long-term, range-wide disturbance regime. Regional discrepancies in release characteristics were identified. The Northern Hardwood Forest Region featured the highest level of disturbance as compared to all other regions. The Central Hardwood Forest Region exhibited the second lowest rate of disturbance (as evidenced by the relativized release descriptors). In general, high-magnitude disturbances occurred throughout the Q. alba range every 234-556 years. My findings confirm that Quercus dominance throughout the latter part of the Holocene was maintained, in part, by high magnitude disturbance events ca. every 400 years. Such high magnitude disturbances remove many disturbance-intolerant species, fragment large areas of the canopy, cause significant damage to subcanopy individuals, and allow disturbance-oriented and mid-successional taxa, such as Quercus, to establish. This return interval for high magnitude disturbance events can be imitated by land managers throughout the region in effort to promote Quercus regeneration.
Author: E Lucy Braun
Publisher:
ISBN: 9781648373107
Category :
Languages : en
Pages : 0
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Book Description
E. Lucy Braun, PhD, describes in detail the forest ecosystems of eastern North America. This classic reference is well-illustrated with maps and tables. A must for those seeking a deeper understanding of the botanical evolution of this region.
Author: Sean Michael Goins
Publisher:
ISBN:
Category : Ecological surveys
Languages : en
Pages : 34
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Book Description
Forest communities are dynamic through time, reacting to shifts in disturbance and climate regimes. A widespread community shift has been witnessed in many forests of eastern North America wherein oak (Quercus spp.) populations are decreasing while maple (Acer spp.) populations are increasing. Altered fire regimes over the last century are thought to be the primary driver of oak-to-maple community shifts; however, the influence of other non-equilibrium processes on this community shift remains under-explored. Our study sought to determine the community structure and disturbance history of an old-growth forest remnant in an area of western Ohio where fires were historically uncommon. To determine community structure, abundance of woody species was measured within 32 plots at 4 canopy strata and dendrochronology was used to determine the relative age-structure of the forest. Dendroecological techniques were also used to determine the disturbance history of the site. We found that early- and mid-successional genera such as oaks and hickories (Carya spp.) decreased in abundance while maples increased in abundance. A shift in disturbance regime ca. 1890 was the primary reason for the observed change in community structure. A suite of 'multiple-interacting drivers' such as anthropogenic land use changes to the areas surrounding the site and alterations in herbivore population density were responsible for the dominance shift that has occurred in this old-growth forest remnant.
Author:
Publisher:
ISBN:
Category : Science
Languages : en
Pages : 598
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Book Description
Includes book reviews and abstracts.
Author: Willard H. Carmean
Publisher:
ISBN:
Category : Site index (Forestry)
Languages : en
Pages : 12
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Book Description
Author: D. C. West
Publisher: Springer Science & Business Media
ISBN: 1461259509
Category : Science
Languages : en
Pages : 530
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Book Description
Succession-nothing in plant, community, or ecosystem ecology has been so elaborated by terminology, so much reviewed, and yet so much the center of controversy. In a general sense, every ecologist uses the concept in teaching and research, but no two ecologists seem to have a unified concept of the details of succession. The word was used by Thoreau to describe, from a naturalist's point of view, the general changes observed during the transition of an old field to a forest. As data accumulated, a lengthy taxonomy of succession developed around early twentieth century ecologists such as Cooper, Clements, and Gleason. Now, nearer the end of the century, and after much discussion concerning the nature of vegetation communities, where do ecologists stand with respect to knowledge of ecological succession? The intent of this book is not to rehash classic philosophies of succession that have emerged through the past several decades of study, but to provide a forum for ecologists to present their current research and present-day interpretation of data. To this end, we brought together a group of scientists currently studying terrestrial plant succession, who represent research experience in a broad spectrum of different ecosystem types. The results of that meeting led to this book, which presents to the reader a unique summary of contemporary research on forest succession.
Author:
Publisher:
ISBN:
Category : Biogeography
Languages : en
Pages : 92
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Book Description
This volume represents a first attempt at holistically classifying and mapping ecological regions across all three countries of the North American continent. A common analytical methodology is used to examine North American ecology at multiple scales, from large continental ecosystems to subdivisions of these that correlate more detailed physical and biological settings with human activities on two levels of successively smaller units. The volume begins with an overview of North America from an ecological perspective, concepts of ecological regionalization. This is followed by descriptions of the 15 broad ecological regions, including information on physical and biological setting and human activities. The final section presents case studies in applications of the ecological characterization methodology to environmental issues. The appendix includes a list of common and scientific names of selected species characteristic of the ecological regions.
Author: Shepard Krech
Publisher: W. W. Norton & Company
ISBN: 9780393321005
Category : History
Languages : en
Pages : 322
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Book Description
Krech (anthropology, Brown U.) treats such provocative issues as whether the Eden in which Native Americans are viewed as living prior to European contact was a feature of native environmentalism or simply low population density; indigenous use of fire; and the Indian role in near-extinctions of buffalo, deer, and beaver. He concludes that early Indians' culturally-mediated closeness with nature was not always congruent with modern conservation ideas, with implications for views of, and by, contemporary Indians. Annotation copyrighted by Book News, Inc., Portland, OR
Author: Don C. Radcliffe
Publisher:
ISBN:
Category : Forest ecology
Languages : en
Pages : 87
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Book Description
Oak (Quercus spp.) and hickory (Carya spp.) trees are failing to replace themselves in forests of the eastern U.S., likely due to fire suppression and a moister climate during the past century. Our study explored the implications of this mesophication process for future forest composition in southeastern Ohio. In 2016-2018 we resampled permanent plots first established in 1993-1995, in mature forests of the Athens and Marietta Units of the Wayne National Forest. We used mixed logistic regression models to characterize mortality patterns of five oak and one hickory species, and generalized linear mixed models to characterize sapling density patterns of three common shade-tolerant tree species that are likely to dominate future forest composition. For both the mortality and sapling models, we chose a set of a priori topographic, edaphic, and stand structural variables, and used the full set of a priori covariates for analysis of each species. Our mortality data revealed relatively high mortality rates for all species of the red oak subgenus (Erythrobalanus). Models indicated that chestnut oak (Quercus montana) and pignut hickory (Carya glabra) mortality were positively associated with competition, while white oak (Quercus alba) mortality was negatively associated with competition. Northern red oak (Quercus rubra) mortality was associated with mesic topographic positions and older stand age. Our sapling data showed that American beech (Fagus grandifolia) nearly doubled in density between the two sampling periods (217 trees per hectare[tph] 1990s, 429 tph 2010s), while both red maple (Acer rubrum) and sugar maple (Acer saccharum) nearly halved in density (red maple 441 tph 1990s, 216 tph 2010s; sugar maple 608 tph 1990s, 298 tph 2010s). Models indicated that soil acidity was positively related with red maple sapling density, and negatively associated with sugar maple sapling density. Higher slope positions were positively related with red maple sapling density and negatively associated with American beech sapling density. Overall, these results indicated that stand structural variables are more important than soil characteristics and topographic position in explaining mature tree mortality of most common oak and hickory species, and that topographic and acidity gradients will likely partially explain future relative dominance patterns of red maple, sugar maple, and American beech.
