This document provides background information on longleaf pine ecosystems and describes a study conducted at Oak Mountain State Park in Alabama. It discusses how longleaf pine ecosystems used to dominate the southeastern US but were largely destroyed by logging and fire suppression. The study aimed to better understand montane longleaf pine ecosystems by examining relationships between environmental variables, juvenile pine abundance, and adult pine basal area across foothill and mountain slope sites. It hypothesized that variables like decreased soil depth and increased slope or tree competition would negatively impact pine recruitment and growth. The document outlines the environmental variables measured, including canopy openness, slope, and soil depth.
This study examined edge effects on Mount Jefferson by analyzing environmental variables like solar radiation and elevation in relation to distance from forest edges. The key findings were:
1) Edge distance was not significantly correlated with biomass, canopy height, or environmental variables.
2) Higher biomass plots were correlated with greater solar radiation and higher elevation, suggesting these factors better predict carbon storage.
3) Canopy height was also positively correlated with higher solar radiation levels.
So while edge effects did not strongly influence the measured variables, solar radiation appears to play a larger role in predicting carbon storage and canopy heights on Mount Jefferson.
Seminário 4 egerton-warburton_et_al-2000-ecological_applications_mycorrhiza (2)Carlos Alberto Monteiro
This document summarizes a study that evaluated shifts in arbuscular mycorrhizal (AM) fungal communities along an anthropogenic nitrogen deposition gradient in coastal sage scrub vegetation in southern California. The researchers found that increasing nitrogen input was associated with displacement of larger-spored AM fungi species by proliferation of small-spored Glomus species. There was also a reduction in AM species richness and diversity, as well as decreases in spore abundance, root infection, and changes in spore production timing in more nitrogen-enriched sites. A fertilization experiment yielded similar results, indicating that nitrogen input likely explains the relationship between pollution and shifts in the AM communities.
1) There was a positive relationship between local and regional plant species richness in tallgrass prairie, but this relationship varied with grazing, topography, and fire frequency.
2) Experimental removal of the dominant grass Andropogon scoparius resulted in a significant increase in local species richness compared to reference plots.
3) Overall species richness was higher in grazed areas compared to ungrazed areas, but grazing did not significantly affect the relationship between number of sites occupied and average abundance across the landscape.
State and transition models (STMs) are tools that integrate ecosystem dynamics into management by defining alternative ecosystem states and the transitions between them. Climate relates to STMs by influencing ecological sites and the potential vegetation communities. As climate changes, STMs may need to consider shifting reference states and allow for novel communities. Applying STMs across mixed land uses adds complexity but can help assess conservation value under different land use states.
- The document analyzes growth patterns of black spruce trees in a central Maine peat bog to understand relationships between tree growth, climate, and distance from the bog edge.
- Tree cores were collected from black spruce trees along three transects at increasing distances from the bog edge. Tree and stand characteristics, growth rates, and influence of climate factors like temperature and precipitation were analyzed.
- Preliminary results suggest that tree growth rates increased with distance from the bog edge likely due to higher nutrient availability further from the bog. Climate accounted for only small variations in growth, with temperature having a greater influence than precipitation.
Fire Intensity Effects on Coastal Redwood RegenerationAxël Eaton
This study examined the relationship between fire severity and basal sprouting in coastal redwood trees in Big Creek Reserve, California. The researchers measured 112 redwood trees and classified burn severity. They found coastal redwoods produced more basal sprouts with increasing burn severity, as measured by char height and the presence of goosepens. Even after accounting for tree size, higher burn severity was correlated with greater sprouting. This response may be due to increased light availability or redirection of nutrients after severe burning. The findings suggest forest management could use controlled burning to reduce fuels while stimulating redwood regeneration to conserve the species in the face of climate change.
Secondary forests in southeastern Wisconsin were found to have distinct plant compositions compared to primary forests. Herbaceous layers in secondary forests were dominated by lower quality species like white avens, goldenrod, and multiflora rose, rather than native species found in primary forests. Canopies of secondary forests contained ash, cherry, and box-elder trees rather than oak species present in primary forests. Native plant richness and floristic quality in secondary forests increased with proximity to primary forest edges, suggesting limited dispersal of native species into secondary forests from forest interiors over time.
Reforestation is one of the Philippines’ government efforts to restore and rehabilitate degraded mangrove ecosystems. Although there is recovery of the ecosystem in terms of vegetation, the recovery of closely-linked faunal species in terms of community structure is still understudied. This research investigates the community structure of mangrove crabs under two different management schemes: protected mangroves and reforested mangroves. The transect-plot method was employed in each management scheme to quantify the vegetation, crab assemblages and environmental variables. Community composition of crabs and mangrove trees were compared between protected and reforested mangroves using non-metric multi-dimensional scaling and analysis of similarity in PRIMER 6. Chi-squared was used to test the variance of sex ration of the crabs. Canonical Correspondence Analysis was used to determine the relationship between crabs and environmental parameters. A total of twelve species of crabs belonging to six families were identified in protected mangroves while only four species were documented in reforested mangroves. Perisesarma indiarum and Baptozius vinosus were the most dominant species in protected and reforested mangrove, respectively. Univariate analysis of variance of crab assemblage data revealed significant differences in crab composition and abundance between protected mangroves and from reforested mangroves (P<0.05).><0.05).Environmental factors and human intervention had contributed to the difference in crab assemblages in mangrove ecosystems.
This study examined edge effects on Mount Jefferson by analyzing environmental variables like solar radiation and elevation in relation to distance from forest edges. The key findings were:
1) Edge distance was not significantly correlated with biomass, canopy height, or environmental variables.
2) Higher biomass plots were correlated with greater solar radiation and higher elevation, suggesting these factors better predict carbon storage.
3) Canopy height was also positively correlated with higher solar radiation levels.
So while edge effects did not strongly influence the measured variables, solar radiation appears to play a larger role in predicting carbon storage and canopy heights on Mount Jefferson.
Seminário 4 egerton-warburton_et_al-2000-ecological_applications_mycorrhiza (2)Carlos Alberto Monteiro
This document summarizes a study that evaluated shifts in arbuscular mycorrhizal (AM) fungal communities along an anthropogenic nitrogen deposition gradient in coastal sage scrub vegetation in southern California. The researchers found that increasing nitrogen input was associated with displacement of larger-spored AM fungi species by proliferation of small-spored Glomus species. There was also a reduction in AM species richness and diversity, as well as decreases in spore abundance, root infection, and changes in spore production timing in more nitrogen-enriched sites. A fertilization experiment yielded similar results, indicating that nitrogen input likely explains the relationship between pollution and shifts in the AM communities.
1) There was a positive relationship between local and regional plant species richness in tallgrass prairie, but this relationship varied with grazing, topography, and fire frequency.
2) Experimental removal of the dominant grass Andropogon scoparius resulted in a significant increase in local species richness compared to reference plots.
3) Overall species richness was higher in grazed areas compared to ungrazed areas, but grazing did not significantly affect the relationship between number of sites occupied and average abundance across the landscape.
State and transition models (STMs) are tools that integrate ecosystem dynamics into management by defining alternative ecosystem states and the transitions between them. Climate relates to STMs by influencing ecological sites and the potential vegetation communities. As climate changes, STMs may need to consider shifting reference states and allow for novel communities. Applying STMs across mixed land uses adds complexity but can help assess conservation value under different land use states.
- The document analyzes growth patterns of black spruce trees in a central Maine peat bog to understand relationships between tree growth, climate, and distance from the bog edge.
- Tree cores were collected from black spruce trees along three transects at increasing distances from the bog edge. Tree and stand characteristics, growth rates, and influence of climate factors like temperature and precipitation were analyzed.
- Preliminary results suggest that tree growth rates increased with distance from the bog edge likely due to higher nutrient availability further from the bog. Climate accounted for only small variations in growth, with temperature having a greater influence than precipitation.
Fire Intensity Effects on Coastal Redwood RegenerationAxël Eaton
This study examined the relationship between fire severity and basal sprouting in coastal redwood trees in Big Creek Reserve, California. The researchers measured 112 redwood trees and classified burn severity. They found coastal redwoods produced more basal sprouts with increasing burn severity, as measured by char height and the presence of goosepens. Even after accounting for tree size, higher burn severity was correlated with greater sprouting. This response may be due to increased light availability or redirection of nutrients after severe burning. The findings suggest forest management could use controlled burning to reduce fuels while stimulating redwood regeneration to conserve the species in the face of climate change.
Secondary forests in southeastern Wisconsin were found to have distinct plant compositions compared to primary forests. Herbaceous layers in secondary forests were dominated by lower quality species like white avens, goldenrod, and multiflora rose, rather than native species found in primary forests. Canopies of secondary forests contained ash, cherry, and box-elder trees rather than oak species present in primary forests. Native plant richness and floristic quality in secondary forests increased with proximity to primary forest edges, suggesting limited dispersal of native species into secondary forests from forest interiors over time.
Reforestation is one of the Philippines’ government efforts to restore and rehabilitate degraded mangrove ecosystems. Although there is recovery of the ecosystem in terms of vegetation, the recovery of closely-linked faunal species in terms of community structure is still understudied. This research investigates the community structure of mangrove crabs under two different management schemes: protected mangroves and reforested mangroves. The transect-plot method was employed in each management scheme to quantify the vegetation, crab assemblages and environmental variables. Community composition of crabs and mangrove trees were compared between protected and reforested mangroves using non-metric multi-dimensional scaling and analysis of similarity in PRIMER 6. Chi-squared was used to test the variance of sex ration of the crabs. Canonical Correspondence Analysis was used to determine the relationship between crabs and environmental parameters. A total of twelve species of crabs belonging to six families were identified in protected mangroves while only four species were documented in reforested mangroves. Perisesarma indiarum and Baptozius vinosus were the most dominant species in protected and reforested mangrove, respectively. Univariate analysis of variance of crab assemblage data revealed significant differences in crab composition and abundance between protected mangroves and from reforested mangroves (P<0.05).><0.05).Environmental factors and human intervention had contributed to the difference in crab assemblages in mangrove ecosystems.
Paper - Landscape Change Over 60 Years Surrounding Cedarburg BogJason Schroeder
This article describes my project to classify historical land use of the Cedarburg Bog. I worked on this as a student at the University of Wisconsin-Milwaukee.
This research paper examines how plant species richness varies along a subtropical elevation gradient in eastern Nepal. The study analyzes species richness data from 1500 to 100 meters above sea level, divided into 15 100-meter elevation bands. Species were counted in standardized plots and assigned to different life forms, including trees, shrubs, climbers, herbs and ferns. Climate variables like potential evapotranspiration and mean annual rainfall were analyzed to explain variations in species richness of different life forms along the elevation gradient. The results found relationships between climate variables and species richness for woody life forms but not for herbaceous life forms. A water-energy dynamics model was found to explain 63-70% of the variation in species richness for
This study mapped the vegetation types in the Jama Coaque Reserve in Ecuador using GPS waypoints collected along trails. Five vegetation types were identified: primary and secondary tropical moist forest, primary and secondary premontane cloud forest, and agroforestry. Vegetation maps showed general patterns of increasing elevation between forest types. The average starting elevation of cloud forest was 518m, agreeing with prior predictions of 525m, except along northern trails where cloud forest began at lower elevations. Future research could use drones to map forest types between trails at the reserve.
Restoration, Reconciliation, and Reconnecting with Nature Nearby
`
For more information, Please see websites below:
`
Organic Edible Schoolyards & Gardening with Children
http://scribd.com/doc/239851214
`
Double Food Production from your School Garden with Organic Tech
http://scribd.com/doc/239851079
`
Free School Gardening Art Posters
http://scribd.com/doc/239851159`
`
Increase Food Production with Companion Planting in your School Garden
http://scribd.com/doc/239851159
`
Healthy Foods Dramatically Improves Student Academic Success
http://scribd.com/doc/239851348
`
City Chickens for your Organic School Garden
http://scribd.com/doc/239850440
`
Simple Square Foot Gardening for Schools - Teacher Guide
http://scribd.com/doc/239851110
David Lindenmayer_LTERN and the conservation and management of temperate euca...TERN Australia
This document discusses research on the conservation and management of temperate eucalypt woodlands in Australia. It describes several long-term research studies monitoring plants, animals, and vegetation structure in woodland plots. Key findings include increased detection rates of some woodland bird species over the past decade, the importance of replanted and regrowth woodlands for biodiversity, and improvements to vegetation and birds from interventions like grazing control. The document advocates for conservation initiatives on private lands, incentives to prevent clearing, controlling damaging grazing, and continued restoration funding to benefit biodiversity in temperate woodlands.
This document defines biomes and provides details on the distribution, structure, and relative productivity of several major biomes, including tropical rainforests, deserts, tundra, temperate deciduous forests, prairies, savannas, chaparral, coral reefs, estuaries, lakes and rivers. It lists recommended websites for further information on biomes and their global distribution. Key details are provided for each biome.
The document summarizes a study examining the vegetation that has established over four years on a fauna overpass in Brisbane, Australia. Researchers surveyed plant species present on the overpass and compared it to adjacent forest vegetation. They found 45 plant species on the overpass, with over half planted but many self-sown from local topsoil. Survival of planted species was high at 95%. Vegetation similarity to forest was moderate for groundcover but high for tree species. The developing vegetation structure is providing habitat for birds and other wildlife using the overpass to cross the road.
Jerry Franklin - Early seral forest: a diminishing resource?Ecoshare
The document discusses early successional forest communities that occur after stand-replacing disturbances before the reestablishment of a closed forest canopy. These communities have altered microclimates, are structurally and biologically rich, and alter ecosystem processes. They provide important habitat and are highly biodiverse, but salvage logging and reforestation efforts can negatively impact the recovery of these communities by removing structural legacies and reducing heterogeneity. Naturally regenerated early successional forests are likely more resilient to climate change due to their diversity.
Tree regeneration, Fenner School July 2009joernfischer
The document summarizes research on tree regeneration in Australia's temperate grazing zone. It finds that under current grazing practices, trees are not regenerating at most sites due to lack of seedlings. If practices do not change, millions of hectares currently supporting tens of millions of trees could become treeless. The research identifies grazing regime, tree density, and soil nutrients as factors influencing regeneration, finding that ungrazed areas and fast livestock rotation support more regeneration than continuous grazing.
MAMMALS, EDGE EFFECTS, AND THE LOSS OF TROPICAL FOREST DIVERSITY Asquith & Me...Fundación Natura Bolivia
This document summarizes a study that experimentally tested how changes in mammal communities and wind exposure have affected tree diversity on forest fragments in Panama. The study assessed seed and seedling survival on islands and forest sites with different mammal compositions (no mammals, rats only, intermediate communities) and wind exposures (exposed, protected, interior). It was predicted that fragments with fewer mammal species would have lower seed dispersal, seed survival, and higher seedling herbivory, while exposed sites would have lower germination, seedling establishment and survival, especially in dry seasons. The results provide evidence that changes in biotic and abiotic conditions have reduced tree diversity on forest fragments by imposing multiple barriers to seedling recruitment.
Beckel - Leaf physiology response across a disturbance gradient in a temperat...Rick Beckel
This document summarizes a study that examined the photosynthetic efficiency of sapling trees across four common species in a disturbed northern Michigan forest. Light response curves and measurements of apparent quantum yield and maximum photosynthetic rate (Amax) were taken for 117 saplings across a disturbance gradient caused by girdling over 6700 trees. Amax was found to significantly increase over the disturbance gradient for red oak and American beech saplings. This suggests these species have a strong capacity to take advantage of canopy gaps, which may impact future forest composition. The physiological responses observed could help refine parameters in earth systems models regarding forest response to disturbance.
Fire and Forest Dynamics in Northern Boreal Forestsakfireconsortium
This webinar was presented by Jill Johnston on Oct 28, 2010. For more information about this webinar, visit the Alaska Fire Science Consortium website at http://akfireconsortium.uaf.edu
The document discusses key concepts related to terrestrial flora and fauna, including ecosystems, biomes, plant and animal adaptations, and spatial groupings. It provides definitions and examples of ecosystems and biomes. It describes various plant categorizations and adaptations to different environments. It also discusses animal characteristics, types, adaptations, competition/cooperation, and zoogeographic regions. Key points are made about the dominance of certain plant genera in Australia and its unique fauna resulting from isolation.
Vegetation development dynamics of fire experimental plots at olokemeji fores...Alexander Decker
This document summarizes a study on the effects of different fire treatments on three experimental plots in Olokemeji Forest Reserve in Nigeria over 70 years. Plot A was burned annually late in the dry season, Plot B was burned early in the dry season, and Plot C was unburned as a control. Plot A developed into a savanna woodland with few tree species, while Plot B became a transitional woodland. Plot C developed into a closed-canopy forest with the highest tree diversity and soil litter. The timing and frequency of fires significantly impacted the long-term vegetation development in each plot.
A variable retention harvest is proposed for a 60-year-old forest stand on BLM land in Oregon's Salem District to create diverse early seral habitat while providing timber revenue. This method emulates natural disturbances and maintains structural diversity better than clearcutting. It would retain 25% of trees and debris to benefit species. The $1.2 million revenue would support local economies under the O&C Act. While some impacts like reduced carbon sequestration occur, the action complies with environmental laws and benefits both ecology and economy more than alternatives. Public acceptance may be increased through education on how variable retention differs from clearcutting.
Key Features Of Early Seral Habitats For WildlifeEcoshare
This document discusses the importance of early seral habitats for wildlife following natural disturbances. It notes that early seral habitats provide open structure with legacy trees and snags, as well as herbs, grasses, shrubs, and deciduous hardwoods. Many species rely on the diversity of plants and food resources provided in early seral habitats. The document outlines elements that contribute to quality early seral habitat, such as residual trees and snags that provide foraging and nesting resources. It also discusses the negative impacts of forest management practices that reduce structural elements and alter vegetation composition in early seral habitats.
mosaic approach to landscape management. #biodiversity Runway Project
the mosaic approach to landscape management is an evolutionary step up from a species approach; you design the places important species can thrive. It's being done well in England.
Assessing the Impact of Blister Rust Infected Whitebark Pine in the Alpine Treelines of Glacier National Park and the Beartooth Plateau, U.S.A. Presented by Emily Smith-Mckenna at the "Perth II: Global Change and the World's Mountains" conference in Perth, Scotland in September 2010.
The document discusses the importance of habitat and biodiversity in landscaping. It provides information on creating habitat structure and composition using native plant species to support local wildlife and ecosystem diversity. Specific benefits mentioned include maintaining native plant populations, providing food and shelter for birds and insects, and buffering against invasive species. The document emphasizes using only native and non-invasive plant species suited to the local bioregion in order to best support biodiversity.
WE1.L09 - DESDYNI BIODIVERSITY AND HABITAT KEY VARIABLES AND IMPLICATIONS FOR...grssieee
This document discusses the use of lidar and radar data from the proposed DESDynI mission to characterize 3D vegetation structure for assessments of biodiversity and habitat. It identifies key variables like canopy height, height profiles, biomass, and cover that influence habitat suitability and have been correlated with species diversity. Fusion of lidar and radar is highlighted as providing more complete and accurate global maps of these important structural metrics compared to either sensor alone. The document concludes that lidar-radar fusion holds promise for advancing scientific understanding of biodiversity patterns in relation to forest structure and how these may change in response to disturbance events.
Paper - Landscape Change Over 60 Years Surrounding Cedarburg BogJason Schroeder
This article describes my project to classify historical land use of the Cedarburg Bog. I worked on this as a student at the University of Wisconsin-Milwaukee.
This research paper examines how plant species richness varies along a subtropical elevation gradient in eastern Nepal. The study analyzes species richness data from 1500 to 100 meters above sea level, divided into 15 100-meter elevation bands. Species were counted in standardized plots and assigned to different life forms, including trees, shrubs, climbers, herbs and ferns. Climate variables like potential evapotranspiration and mean annual rainfall were analyzed to explain variations in species richness of different life forms along the elevation gradient. The results found relationships between climate variables and species richness for woody life forms but not for herbaceous life forms. A water-energy dynamics model was found to explain 63-70% of the variation in species richness for
This study mapped the vegetation types in the Jama Coaque Reserve in Ecuador using GPS waypoints collected along trails. Five vegetation types were identified: primary and secondary tropical moist forest, primary and secondary premontane cloud forest, and agroforestry. Vegetation maps showed general patterns of increasing elevation between forest types. The average starting elevation of cloud forest was 518m, agreeing with prior predictions of 525m, except along northern trails where cloud forest began at lower elevations. Future research could use drones to map forest types between trails at the reserve.
Restoration, Reconciliation, and Reconnecting with Nature Nearby
`
For more information, Please see websites below:
`
Organic Edible Schoolyards & Gardening with Children
http://scribd.com/doc/239851214
`
Double Food Production from your School Garden with Organic Tech
http://scribd.com/doc/239851079
`
Free School Gardening Art Posters
http://scribd.com/doc/239851159`
`
Increase Food Production with Companion Planting in your School Garden
http://scribd.com/doc/239851159
`
Healthy Foods Dramatically Improves Student Academic Success
http://scribd.com/doc/239851348
`
City Chickens for your Organic School Garden
http://scribd.com/doc/239850440
`
Simple Square Foot Gardening for Schools - Teacher Guide
http://scribd.com/doc/239851110
David Lindenmayer_LTERN and the conservation and management of temperate euca...TERN Australia
This document discusses research on the conservation and management of temperate eucalypt woodlands in Australia. It describes several long-term research studies monitoring plants, animals, and vegetation structure in woodland plots. Key findings include increased detection rates of some woodland bird species over the past decade, the importance of replanted and regrowth woodlands for biodiversity, and improvements to vegetation and birds from interventions like grazing control. The document advocates for conservation initiatives on private lands, incentives to prevent clearing, controlling damaging grazing, and continued restoration funding to benefit biodiversity in temperate woodlands.
This document defines biomes and provides details on the distribution, structure, and relative productivity of several major biomes, including tropical rainforests, deserts, tundra, temperate deciduous forests, prairies, savannas, chaparral, coral reefs, estuaries, lakes and rivers. It lists recommended websites for further information on biomes and their global distribution. Key details are provided for each biome.
The document summarizes a study examining the vegetation that has established over four years on a fauna overpass in Brisbane, Australia. Researchers surveyed plant species present on the overpass and compared it to adjacent forest vegetation. They found 45 plant species on the overpass, with over half planted but many self-sown from local topsoil. Survival of planted species was high at 95%. Vegetation similarity to forest was moderate for groundcover but high for tree species. The developing vegetation structure is providing habitat for birds and other wildlife using the overpass to cross the road.
Jerry Franklin - Early seral forest: a diminishing resource?Ecoshare
The document discusses early successional forest communities that occur after stand-replacing disturbances before the reestablishment of a closed forest canopy. These communities have altered microclimates, are structurally and biologically rich, and alter ecosystem processes. They provide important habitat and are highly biodiverse, but salvage logging and reforestation efforts can negatively impact the recovery of these communities by removing structural legacies and reducing heterogeneity. Naturally regenerated early successional forests are likely more resilient to climate change due to their diversity.
Tree regeneration, Fenner School July 2009joernfischer
The document summarizes research on tree regeneration in Australia's temperate grazing zone. It finds that under current grazing practices, trees are not regenerating at most sites due to lack of seedlings. If practices do not change, millions of hectares currently supporting tens of millions of trees could become treeless. The research identifies grazing regime, tree density, and soil nutrients as factors influencing regeneration, finding that ungrazed areas and fast livestock rotation support more regeneration than continuous grazing.
MAMMALS, EDGE EFFECTS, AND THE LOSS OF TROPICAL FOREST DIVERSITY Asquith & Me...Fundación Natura Bolivia
This document summarizes a study that experimentally tested how changes in mammal communities and wind exposure have affected tree diversity on forest fragments in Panama. The study assessed seed and seedling survival on islands and forest sites with different mammal compositions (no mammals, rats only, intermediate communities) and wind exposures (exposed, protected, interior). It was predicted that fragments with fewer mammal species would have lower seed dispersal, seed survival, and higher seedling herbivory, while exposed sites would have lower germination, seedling establishment and survival, especially in dry seasons. The results provide evidence that changes in biotic and abiotic conditions have reduced tree diversity on forest fragments by imposing multiple barriers to seedling recruitment.
Beckel - Leaf physiology response across a disturbance gradient in a temperat...Rick Beckel
This document summarizes a study that examined the photosynthetic efficiency of sapling trees across four common species in a disturbed northern Michigan forest. Light response curves and measurements of apparent quantum yield and maximum photosynthetic rate (Amax) were taken for 117 saplings across a disturbance gradient caused by girdling over 6700 trees. Amax was found to significantly increase over the disturbance gradient for red oak and American beech saplings. This suggests these species have a strong capacity to take advantage of canopy gaps, which may impact future forest composition. The physiological responses observed could help refine parameters in earth systems models regarding forest response to disturbance.
Fire and Forest Dynamics in Northern Boreal Forestsakfireconsortium
This webinar was presented by Jill Johnston on Oct 28, 2010. For more information about this webinar, visit the Alaska Fire Science Consortium website at http://akfireconsortium.uaf.edu
The document discusses key concepts related to terrestrial flora and fauna, including ecosystems, biomes, plant and animal adaptations, and spatial groupings. It provides definitions and examples of ecosystems and biomes. It describes various plant categorizations and adaptations to different environments. It also discusses animal characteristics, types, adaptations, competition/cooperation, and zoogeographic regions. Key points are made about the dominance of certain plant genera in Australia and its unique fauna resulting from isolation.
Vegetation development dynamics of fire experimental plots at olokemeji fores...Alexander Decker
This document summarizes a study on the effects of different fire treatments on three experimental plots in Olokemeji Forest Reserve in Nigeria over 70 years. Plot A was burned annually late in the dry season, Plot B was burned early in the dry season, and Plot C was unburned as a control. Plot A developed into a savanna woodland with few tree species, while Plot B became a transitional woodland. Plot C developed into a closed-canopy forest with the highest tree diversity and soil litter. The timing and frequency of fires significantly impacted the long-term vegetation development in each plot.
A variable retention harvest is proposed for a 60-year-old forest stand on BLM land in Oregon's Salem District to create diverse early seral habitat while providing timber revenue. This method emulates natural disturbances and maintains structural diversity better than clearcutting. It would retain 25% of trees and debris to benefit species. The $1.2 million revenue would support local economies under the O&C Act. While some impacts like reduced carbon sequestration occur, the action complies with environmental laws and benefits both ecology and economy more than alternatives. Public acceptance may be increased through education on how variable retention differs from clearcutting.
Key Features Of Early Seral Habitats For WildlifeEcoshare
This document discusses the importance of early seral habitats for wildlife following natural disturbances. It notes that early seral habitats provide open structure with legacy trees and snags, as well as herbs, grasses, shrubs, and deciduous hardwoods. Many species rely on the diversity of plants and food resources provided in early seral habitats. The document outlines elements that contribute to quality early seral habitat, such as residual trees and snags that provide foraging and nesting resources. It also discusses the negative impacts of forest management practices that reduce structural elements and alter vegetation composition in early seral habitats.
mosaic approach to landscape management. #biodiversity Runway Project
the mosaic approach to landscape management is an evolutionary step up from a species approach; you design the places important species can thrive. It's being done well in England.
Assessing the Impact of Blister Rust Infected Whitebark Pine in the Alpine Treelines of Glacier National Park and the Beartooth Plateau, U.S.A. Presented by Emily Smith-Mckenna at the "Perth II: Global Change and the World's Mountains" conference in Perth, Scotland in September 2010.
The document discusses the importance of habitat and biodiversity in landscaping. It provides information on creating habitat structure and composition using native plant species to support local wildlife and ecosystem diversity. Specific benefits mentioned include maintaining native plant populations, providing food and shelter for birds and insects, and buffering against invasive species. The document emphasizes using only native and non-invasive plant species suited to the local bioregion in order to best support biodiversity.
WE1.L09 - DESDYNI BIODIVERSITY AND HABITAT KEY VARIABLES AND IMPLICATIONS FOR...grssieee
This document discusses the use of lidar and radar data from the proposed DESDynI mission to characterize 3D vegetation structure for assessments of biodiversity and habitat. It identifies key variables like canopy height, height profiles, biomass, and cover that influence habitat suitability and have been correlated with species diversity. Fusion of lidar and radar is highlighted as providing more complete and accurate global maps of these important structural metrics compared to either sensor alone. The document concludes that lidar-radar fusion holds promise for advancing scientific understanding of biodiversity patterns in relation to forest structure and how these may change in response to disturbance events.
Границы материальной и нематериальной мотивацииСергей Федоров
Семинар Ирины Эльстер 04.12
Основные темы:
1. Являются ли деньги единственным эквивалентом нашей удовлетворенности работой?
2. Как сотрудники наших компаний воспринимают компенсации?
3. Что нельзя купить за деньги?
4. Вовлеченность персонала: факторы и препятствия
5. Кто должен заниматься мотивацией сотрудников в компании?
This document recommends that entrepreneurs use break even analysis as an important planning tool. It defines break even analysis as calculating the point where total costs equal total revenue. It explains how to calculate break even by determining fixed costs, variable costs as a percentage of gross income, and the contribution margin ratio. The document recommends that entrepreneurs take the time to do a break even analysis using a pro forma income statement to understand their finances and options better.
This document provides information about a Master's program in Innovational Activity Management offered by the "KROK" University. The 2-year program is available full-time, part-time over 1.5 years, or part-time distance learning. Students will learn topics like innovation management, intellectual property, technology transfer, and innovation project management. Graduates will be prepared for careers as leaders of innovation, intellectual property managers, and strategic innovation development managers. The program aims to train professionals to identify opportunities for new business ideas and oversee their implementation.
The nitrogen cycle is the biogeochemical cycle by which nitrogen is converted into various chemical forms as it circulates among the atmosphere and terrestrial and marine ecosystems. The conversion of nitrogen can be carried out through both biological and physical processes. Important processes in the nitrogen cycle include fixation, ammonification, nitrification, and denitrification. The majority of Earth's atmosphere (78%) is nitrogen, making it the largest pool of nitrogen. However, atmospheric nitrogen has limited availability for biological use, leading to a scarcity of usable nitrogen in many types of ecosystems. The nitrogen cycle is of particular interest to ecologists because nitrogen availability can affect the rate of key ecosystem processes, including primary production and decomposition. Human activities such as fossil fuel combustion, use of artificial nitrogen fertilizers, and release of nitrogen in wastewater have dramatically altered the global nitrogen cycle.
This document discusses a study that examined bark beetle infestation and dwarf mistletoe presence in three adjacent ponderosa pine stands with different management histories in northern Arizona. The stands included an old-growth remnant stand, a seed-tree cut stand, and a dense untreated second growth stand. The key findings were:
1) The old-growth remnant stand and seed-tree cut stand had similar levels of bark beetle colonization that were significantly higher than the dense untreated stand.
2) Across all sites, bark beetles were most commonly found attacking trees with diameters of 51-60cm.
3) There was a trend between the proportion of trees infected with dwarf mistleto
Ghost forests global warming and the mountain pine beetleSimoneBoccuccia
This document summarizes research on the relationship between mountain pine beetles and high-elevation whitebark pine forests. It finds that while mountain pine beetle outbreaks are normally part of the ecological cycle in lodgepole pine forests, they are not the norm for whitebark pine forests which have adapted to harsh, high-elevation environments. However, global warming may allow mountain pine beetle populations to complete their life cycle in whitebark pine forests, threatening these ecosystems. The document analyzes mountain pine beetle thermal ecology and uses temperature data from whitebark pine forests to model how climate change could increase beetle outbreaks, with implications for whitebark pine restoration and invasive species management.
Seedlings_ Substrate Preferences in a Minnesota Old Growth Thuja-Stephen Rossiter
This study examined seedling substrate preferences in an old-growth Thuja-Betula forest in Minnesota. The author established 20 plots to measure seedling densities across different height classes and substrate types, including coarse woody debris (CWD) and leaf litter. Statistical analysis showed Thuja occidentalis seedlings preferred moss-covered, highly decayed conifer CWD, but regeneration was failing due to lack of taller seedlings. Betula alleghaniensis seedlings preferred moss-covered, highly decayed CWD and may be replacing itself, though limited by canopy gaps. CWD traits had nearly twice the influence on Betula seedlings as site-level variables. Suitable CWD is important for regeneration
THE EFFECTS OF CLEARCUT SIZE ON THE BIRD COMMUNITY IN THE SECOND COLLEGE GRANTjoshmooney
Abstract. This study examines the effects of forest opening (clearcut) size on the surrounding forest-bird community with the objective of offering management suggestions for foresters who employ the clearcut method. I hypothesized that large and small clearcuts would have different effects on the forest-bird assemblage associated with each. I used the point-count method to assess bird abundance in clearcuts, on the edges, and 100 m into the forest from the edges of large and small clearcuts. I found that Neotropical migrant birds and forest-interior birds were the most affected by large clearcuts showing significantly lower abundance in forest areas 100 m from large clearcut edges than in forest areas 100 m from small clearcuts. Edge-open birds were more abundant in large clearcut openings and edges than in small clearcut openings and edges. Blue jays (an avian nest predator) were more abundant on the edges of large clearcuts than on the edges of small clearcuts. A recent study found that forest-interior bird abundance levels off after 100 m distance from small (0.4 ha) forest openings. This result combined with my findings suggest that small openings in the Second College Grant represent less of a disturbance to Neotropical migrants and forest-interior birds. Additionally, given higher abundances of an avian nest predator in large clearcuts, reproductive success could be much lower in areas associated with large clearcuts. Some species such as the White-throated Sparrow (Zonotrichia albicollis), however preferred large clearcuts suggesting that there are some benefits to overall bird abundance by including large clearcuts in a managed landscape.
ECOLOGY, BEHAVIOR AND BIONOMICSEucalyptus Edge Effect on QEvonCanales257
ECOLOGY, BEHAVIOR AND BIONOMICS
Eucalyptus Edge Effect on Quercus-Herbivore Interactions
in a Neotropical Temperate Forest
C HERNÁNDEZ-SANTIN1, M CUAUTLE1 , M DE LAS N BARRANCO-LEÓN2, J GARCÍA-GUZMÁN1, El BADANO2,
F LUNA-CASTELLANOS1
1Depto de Ciencias Químico Biológicas, Univ de las Américas Puebla, Cholula, Puebla, Mexico
2División de Ciencias Ambientales, Instituto Potosino de Investigación Científica y Tecnológica, San Luis Potosí, Mexico
AbstractKeywords
Quercus , herbivory, edge effect,
Lepidoptera caterpillars
Correspondence
M Cuautle, Depto de Ciencias Químico
Biológicas, Univ de las Américas Puebla,
Cholula, Puebla, Mexico; [email protected]
hotmail.com
Edited by Martin F Pareja – UNICAMP
Received 18 June 2018 and accepted 26
April 2019
* Sociedade Entomológica do Brasil 2019
Fragmentation leads to the formation of edges between habitats, which in
turn changes biotic and abiotic factors that might influence herbivory or
plant-herbivory interactions. The aims of this study were to describe the
herbivory community associated with oak (Quercus) and to determine the
effects of proximity to a Eucalyptus edge and season on insect herbivory.
We selected three forest sites that were subsequently divided into three
quadrants located at different distances from the Eucalyptus edge: edge
(0 m), intermediate (30 m), and oak forest interior (60 m). We randomly
selected 10 oak trees per quadrant and conducted monthly surveys, during
the dry and rainy season (from February to October 2010), where we
quantified leaf area and the percentage of herbivory. These were analyzed
using linear mixed models, with distance and season as fixed factors and
individual and site as random factors. The primary oak herbivores were
Lepidoptera caterpillars. We found that herbivory increased away from
the edge but just during the rainy season, although higher herbivory levels
were found during the dry season. These results seem to be related to a
specialist community of herbivorous associated to the Quercus. This study
emphasizes the importance of considering border effect, especially within
Natural Protected Areas to establish strategies to improve and maintain
native oak forest and the biodiversity of its Lepidoptera herbivorous
community.
Introduction
Landscape modification due to anthropogenic activities (e.g.,
land conversion to agricultural or livestock) has resulted in
habitat fragmentation, one of the major threats for forest
conservation (Buckley 2000, Franklin et al 2002).
Fragmentation is defined as the disruption or breakdown of
large vegetation patches into smaller ones resulting in a dis-
continuity of resource distribution that affects species occu-
pancy, reproduction, and/or survival (Franklin et al 2002).
One of the important features of this phenomenon is an
increase in edge length relative to the forest area, particular-
ly in small habitat fragments (Laurance 1991, Laurance &
Yensen 1991, Murcia 1995, Laurance et al 2007, De
Carvalho ...
A numerical analysis of understory plant associations in a Pinus wallichiana ...Innspub Net
The present investigation describes the structure and vegetation composition of the forest located in Murree Hills, Punjab, Pakistan. The study area is a part of Himalayans moist temperate forest. The vegetation zone entirely consists of shrubs or medium size trees. The plants give the appearance of a vast flower bed, composed principally of herbaceous species. These species are adapted to withstand the extremes of cold and desiccation. Study area range in altitude from 2100m-2300 m (A.S.L.). A total of 65 species, belonging to 62 genera and 39 families were recorded from 40 stands. Angiosperms contributed a major share while Pteridophytes contributed little to the floristic richness of the area. Data were analyzed by multivariate statistics including Cluster Analysis, Detrended Correspondence Analysis (DCA) and correlation co-efficient to detect the relations between altitudinal and some environmental factors with composition and structure of the plant communities. DCA axis 1 and axis 2 were used to interpret the data. Four vegetation types were delineated by Cluster Analysis which was then plotted on the first two axes a scattered diagram. The outcome of the cluster was confirmed by using DCA. There were significant differences in the flora composition as well as the edaphic factors along the altitudinal gradient. The results of the present investigation suggest a direct altitudinal and soil chemical factors pH, EC, cations and anions on the vegetation variation. Topography predicts species composition of the study area.
Ecological Forestry in Douglas-Fir (Pseudotsuga menziesii) Forests of the Pac...Lily Tidwell
Ecological forestry is an emerging concept in the field of forest management based on silvicultural techniques that emulate natural disturbance regimes, thus preserving a relatively natural functioning forest ecosystem. This paper discusses the application of these concepts in Douglas-Fir forests of the Pacific Northwestern United States.
This document summarizes a study measuring the success of reforestation efforts in abandoned pastures in the Cerro Candelaria Reserve in Ecuador. The study collected data on tree diameter, height, location and species from 16 reforestation plots established between 2008-2010. Diversity indices were calculated to analyze the data and assess the progress of the reforestation project over time. The results showed general progress in reforesting the abandoned pastures and increasing tree diversity compared to when the project first began.
The passage describes the ponderosa pine forests of the Colorado Plateau, which cover a large area from 6000-8000 feet in elevation. The largest ponderosa pine forest in the US is located on the Mogollon Rim in central Arizona, with an average elevation of 7000 feet. The dominant tree species is ponderosa pine, which commonly associates with Gambel oak and New Mexico locust at lower elevations. At higher elevations, ponderosa pine shares the habitat with other conifer species like white pine, white fir, and Douglas fir, as well as quaking aspen. Common understory plants include grasses, forbs, apache plume, buckbrush, currant, and cliffrose.
This document provides an introduction to forest ecology, discussing key concepts and topics. It covers three major topics: site factors like climate, substrate and hydrology that influence forest composition; forest succession and changes over time due to disturbance; and natural disturbances like flooding, fire, wind, ice, insects and disease. Forest ecology examines how living organisms interact with each other and the physical environment in complex forest ecosystems.
Population Dynamics Of Small Mammals In Virginia Foreststsandrew
Population Dynamics of Small Mammals in Virginia Forests: Testing the Impacts of Weather, Deer, Acorns, and Shrub Cover.
Researchers:
T. Bernheim, M. Fu, S. Rowland, and A. Tsai
This document discusses developing a mixed silviculture system in Scotland using aspen and spruce trees. It notes that aspen is a resilient, nutrient-cycling species that could benefit soils depleted from past land use. Introducing aspen into commercial spruce plantations could increase soil quality, biodiversity, and landscape benefits. The document examines the natural spruce-aspen cycle and various silvicultural systems used in North America that integrate aspen and spruce, including underplanting aspen under mature spruce or planting aspen as a nurse crop before underplanting spruce. It argues this mixedwood approach could increase productivity over single-species stands in Scotland.
Ecological succession becomes self-limiting as it approaches the climax community. The progression from small to large growth forms modifies the environmental conditions such as light, temperature, moisture, and soil nutrients. These conditions change slowly once the vegetation reaches the largest growth form supported by the local environment. The final dimensions of a climax community are limited by climate, independently of events during succession. Succession may take longer in some biomes such as tropical forests compared to grasslands. Climax communities can be modified by frequent disturbances such as fire, grazing, or climate change.
This research article examines how two endangered plant species in coastal sand dunes, Layia carnosa and Lupinus tidestromii, persist in different successional microhabitats (early vs. late stages). The researchers found both species had higher frequencies in early successional habitats. For L. tidestromii, plants in early successional microhabitats had higher projected population growth rates than those in late successional habitats, primarily due to higher recruitment rates in early successional microhabitats. The results support restoring natural disturbance regimes to allow persistence of endemic plant species in these ecosystems.
This document provides background information on oak savannas, including their formation, species composition, role of disturbance (particularly fire), and disappearance due to fire suppression and encroachment of woody species. Oak savannas were once a prominent midwestern landscape but have been reduced by over 99% since the 1800s. Frequent fires set by Native Americans historically maintained the oak savanna habitat, but fire suppression has allowed the growth of shade-tolerant trees and shrubs. Efforts are underway to restore degraded oak savannas through reintroduction of prescribed fires and removal of encroaching species.
As climate changes, the effects of forest diseases on forestecosystems will change. We review knowledge of relationshipsbetween climate variables and several forest diseases, as well as current evidence of how climate, host and pathogen interactions are responding or might respond to climate change. Many forests can be managed to both adapt to climate change and minimize the undesirable effects of expected increases in tree mortality. We discuss four types of forest and disease manage-ment tactics – monitoring, forecasting, planning and mitigation – and provide case studies of yellow-cedar decline and sudden aspen decline to illustrate how forest diseases might be managed in the face of climate change. The uncertainties inherent to climate change effects can be diminished by conducting research, assessing risks, and linking results to forest policy, planning and decision making.
The document discusses how climate change is affecting terrestrial ecosystems. It notes that temperature and precipitation determine the distribution of biomes, and that climate change is causing biomes to shift locations as conditions change. Forests currently occupy about one third of U.S. land but are predicted to migrate or shrink substantially due to warming temperatures and changing rainfall patterns. Grasslands are also expected to transition to deserts or shrublands in many areas.
The document analyzes vegetation restoration on opencast oil shale mines in Estonia. It compares four 30-year-old forest stand types: 1) a natural stand from spontaneous succession, and plantations of 2) Scots pine, 3) silver birch, and 4) European black alder. Properties of the tree layer, understory, and ground vegetation were measured in each stand type. Spontaneous succession resulted in the most diverse tree layer and understory, but lowest tree volume. Plantation tree species differentially impacted understory and ground vegetation biomass and diversity.
The document analyzes vegetation restoration on opencast oil shale mines in Estonia. It compares four 30-year-old forest stand types: 1) a natural stand from spontaneous succession, and plantations of 2) Scots pine, 3) silver birch, and 4) European black alder. Properties of the tree layer, understory, and ground vegetation were measured in each stand type. Spontaneous succession resulted in the most diverse but sparsest tree layer. Understory species richness was highest in the natural stand but total richness was equal across stand types. Ground vegetation biomass varied by tree species, being highest under alder and lowest under pine. Spontaneous succession promotes diverse vegetation establishment while plantations
1. 1
The Effects of Environmental Variables on Montane Longleaf Pine Ecosystems, Oak
Mountain State Park, Alabama
By:
Kevin Willson
Dr. Scot Duncan and Dr. Malia Fincher, REU Mentors
Samford University
August 2014
2. 2
Introduction
Longleaf pine (Pinus palustris) woodlands used to dominate the southeast portion of
the United States. Stretching from eastern Texas to Florida and north to Virginia,
dominant and mixed longleaf pine ecosystems harbored an array of biodiversity and
covered over 37 million hectares of land (Frost 1993, Walker 1984). The longleaf pine
tree grows to the top of the canopy, can live up to 500 years old, and produces a strong,
long-lasting wood that does not decay readily due to the resin found within the tree
(Brockway 1997). The tree is native to regions controlled by fire, which would naturally
sweep through swaths of land every one to three years and clear out the understory of the
woodland (Loudermilk 2011). In the Birmingham area, fires would return every 6-8
years (Bale 2009). Fire creates favorable conditions for longleaf seeds to germinate by
thinning out less fire-resistant plants and trees and exposing seeds to bare mineral soil,
freeing nutrients for immediate consumption, and burning away litter on the forest floor
(Brockway 1997). These mineral soils are exposed by fires burning through most of
these flammable organic soil horizon, burning away the little O and A horizons built up
within the soil (Varner 2005). Other than the ability to resist fire in most life stages,
longleaf does not compete well against other large growing deciduous and pine trees,
especially with anthropogenic changes that have occurred over the past several thousand
years (Landers 1995).
Before European settlers arrived, both nature and Native Americans helped encourage
longleaf pine ecosystems. Lightning would induce fires during the spring and summer,
while Natives introduced additional burnings in the fall and winter to herd larger game
animals for hunting (Frost 2006). European settlers slowly took over the Southeastern
US starting in the 1600s and made large changes to the landscape. People collected the
pine’s resin because it could be converted into turpentine, tar, and pitch, while the wood
was in high demand to construct buildings and lay railroad tracks (Jose 2006). The
tremendous value people placed on longleaf as a resource, coupled with the tree’s
abundance throughout the Southeast, led to immense destruction of the habitats while
supplying an ever growing United States during the 18th, 19th, and 20th centuries. By the
3. 3
end of the 1940s, most longleaf stands had been completely logged with little restoration
attempts to regrow the trees (Jose 2006). Starting in the early 1900s, the United States
began implementing a stringent fire suppression regime to try to protect forests, which
unknowingly continued hurting longleaf pine forests. The overharvesting of longleaf
pines paired with intensive fire suppression throughout the South have hurt the species in
its ability to recapture lost land, leading to drastic losses in endemic species needing the
pine and ecosystem to prosper. The lack of fire has allowed the other trees including
loblolly pine and more deciduous trees to outgrow and out-compete the longleaf pine in
most areas throughout the Southeast (Van Lear 2005).
The longleaf pine plays a critical role in maintaining habitats throughout the
Southeast. As a keystone species, the lack of abundant longleaf pine exhibits the
ecosystem’s inability to become properly re-established, indicating the overall loss of
pristine fire climax habitats (Brockway 1997, Landers 1995). The tree’s loss has led to
the demise of a number of plant and animal species, with over 29 plant and animal
species labelled as threatened or endangered because of, or partially due to, the loss of the
longleaf pine ecosystem (Van Lear 2005, Brockway 1997). Montane systems, though
smaller in area, are just as important as its coastal companion in helping restore longleaf
pine. Montane longleaf habitats support different ecosystems than the coastal plains and
could potentially harbor species that are not found elsewhere within the South.
As scientists attempt to restore longleaf pine ecosystems after an era of fire
suppression, researchers, including Van Lear (2005), Varner (2003 & 2005), Brockway
(1997), Lavoie (2010) and Fowler (2007), have studied how this pine species and its
ecosystem have been affected over the past century. The soils of regularly burned
ecosystems feature fluctuating leaf litter and organic soil horizons, which significantly
differs from unburned forest floors that have deeper leaf litter and organic soil horizons
(Lavoie 2010). Montane systems may be unique to other longleaf pine regions because
of differences in slope and soil depth, yet little is known about possible differences
because of the lack of research within mountainous regions of this habitat. Oak
Mountain State Park (OMSP), the research site for the study, is one of the few montane
ecosystems that still contain longleaf pine. Within the field study sites at OMSP, thick
layers of leaf litter are noticeable and have added to soil depth, likely accumulating from
4. 4
the lack of consistent fire our research plots have not had over in the recent past. This
soil accumulation affects all ecosystems within the longleaf pine range.
While scientists are collecting large amounts of data on coastal longleaf pine
ecosystems (Drewa 2002, Gitzenstein 2001, Jose 2010, Noel 1998, Outcalt 2010, Peet
1993, etc.), relatively few scientific studies have looked into understanding montane
longleaf ecosystems (Bale 2009, Maceina 2000, Varner 2003). The effects of increased
organic matter in the soil change soil moisture retention, nutrient availability, and soil
bulk density, which may have profound effects on the species richness and abundance
found in the area (Brockway 1997). Though part of the study will look to see how soils
may relate to the number and basal area of adult longleaf pine, we are also interested in
seeing how canopy cover could impact juvenile survival.
Few studies in the past have looked into the effects of canopy cover on longleaf pine
ecosystems. Peacot (2005) found a negative the relationship between the quality of light
coming through canopy and overstory tree stocking, while McGuire (2001) found an
increase in juvenile longleaf pine growth when gaps were created in the canopy from tree
removal. Unfortunately, both of these studies were focused on coastal ecosystems. Our
study will look at the impacts of canopy cover in montane ecosystems in regards to how
light availability affects the growth of juvenile longleaf pine trees.
In this study, we not only attempted to add to the science of montane longleaf
ecosystems, but tried to appreciate how environmental variations within mountainous
areas may change longleaf pine growth. In comparing two different regions of Oak
Mountain State Park, a foothills and a mountain slope zone, we attempted to add
literature of how variations between the smaller foothills and a larger mountain change
the biodiversity and abundance of longleaf pine juveniles and adults. A number of
differences exist between characteristics of foothill and ridge regions in Oak Mountain
State Park including the steepness of the slopes, soil depth, and bedrock variations
between shale (in the foothills) and sandstone (in the ridge). By seeing the change of
habitats between a steeper ridge and rolling foothills, we may better understand the
differences between coastal plain ecosystems, generally flatter than the foothills at
OMSP, and montane ecosystems. We need more data on montane longleaf pine
ecosystems to better understand how the community there interacts with the abiotic
5. 5
features of the land and to improve restoration efforts. To learn more about these system,
this study looked into finding patterns that may predict juvenile longleaf pine abundance
and basal area of adult longleaf pine.
Hypotheses: This study looked into two important measures of longleaf pine health,
juvenile longleaf pine abundance and total basal area of adult longleaf pine, and how
several variables may affect and predict these factors. These two measures were studied
because they represent two important factors that help examine both longleaf recruitment
and adult growing capabilities. I hypothesized that variables that decreased soil depth,
increased slope, increased tree species richness, and increased non-longleaf pine basal
area had negative relationships with juvenile longleaf pine frequency and basal area of
adult longleaf pine trees because the less stress and more species of tree filling space and
niches, the fewer number of longleaf will be able to compete within the ecosystem.
I was also interested in determining if a relationship exists between canopy openness
and total number of juvenile longleaf pine in the understory. As a young, small tree,
collecting enough light is one of the most critical components to surviving; the more
light, the more likely a juvenile tree is to survive. Because canopy cover (the opposite of
canopy openness) would affect light availability on the forest floor, I expected canopy
openness and the abundance of juvenile longleaf pine to be mathematically related to one
another and have a positive relationship.
Environmental Variables: Environmental variables measured for this study included
canopy openness, slope steepness and soil depth. Canopy openness, the percentage of
overhead sunlight able to reach the ground, was determined using a hemispherical lens
and camera to take a 180° picture approximately one meter above the ground in the
center of the subplot. The photo was processed using GLA (V. 2) software used to
determine the amount of tree cover within the subplot (Frazer 1999). Slope was recorded
from the lowest to highest points of the perimeter of each subplot and measured with a
clinometer (Suunto PM5/360 PC, Finland). Soil depth was tested at the center of the
subplot as well as at points two meters away from the center of the subplot in the four
cardinal directions. Soil depth was measured by inserting a four foot steel soil probe (3/8
inch diameter made by Forestry Suppliers, Inc in Jackson, MS) into the ground until it
could not go any further or until bedrock was struck and the depth was recorded. The soil
6. 6
depth data used for the statistical analyses in this study were the average recordings of the
five measurements in each subplot. Soil depth may affect the total basal area of longleaf
pine in foothill and ridge regions in the park for several reasons. In this region, more
complete organic horizons indicate fewer fires sweeping through the area, which
negatively affects longleaf pines’ ability to compete in the ecosystem. Also, deeper soils
generally have more nutrients and water retention, which allows a larger diversity of trees
and more competition due to less stress in attaining and retaining water and nutrients.
Indicator variables: Indicator variables included total tree species richness, juvenile
longleaf pine abundance, and longleaf pine and non-longleaf pine basal area. Total tree
species per subplot – the species richness - was the unit of measuring biodiversity in this
study. Juvenile longleaf pines shorter than 1.3 meters was measured for basal diameter,
height, and abundance. Only five or six of the ten subplots was measured in each plot (1,
4, 5, 8, 9) and one randomly chosen subplot (2, 3, 6, 7, or 10) if the researcher had
enough time to examine one more subplot. Finally, we looked at tree biodiversity and
basal area measured in these plots by Dr. Scot Duncan ten years ago to try finding
possible variables that affect tree biodiversity – measured by recording total number of
tree species in each subplot – and total basal area of longleaf pines, which was calculated
by taking the area of the tree at breast height. Though some comparisons used in the
research were taken from data collected ten years apart, the slope and soil depth data that
we collected in 2014 would not likely change much from 2004.
The statistical analyses were performed using SPSS (Version 19, IBM). The Mann-
Whitney U non-parametric test provided the statistical evidence of differences between
the ridge and foothills as well as differences between subplots with and without longleaf
pine adults/juveniles. Multiple linear regressions were used to determine how predictive
the independent measured variables were on the dependent variables (juvenile longleaf
pine frequency and adult longleaf pine basal area per plot). All of the data was tested
using multiple linear regressions and then subplots with no longleaf pine were taken out
of the analysis for the purposes of seeing: when longleaf pine did grow, what were factors
that may influence growth. If the p value was under 0.200, the variable was kept to look
in the next multiple linear regression test to see if it became significant.
7. 7
Methods
Study Site: Oak Mountain State Park is located in Pelham, Alabama and contains
9,940 acres of land (Alabama State Parks Website). Numerous ecosystems are found in
the park, from the ridgeline woodland at the top of Double Oak Mountain to the foothill
forests and stream habitats that are scattered around the mountain. Double Oak Mountain
is a twin ridged, ridge and valley system that is runs in a Northeast to Southwest
direction. The mountain influences many aspects of the natural ecology in the park from
water runoff to plant species diversity found in various areas within OMSP. The park
features two different topographic regions due to the mountain, including the ridge (the
mountain face) and the foothills, the rolling hills around the mountain. The ridge is
higher in altitude, topping out at 1,260 feet above sea level and is made mostly of shale in
the mountain’s valley and sandstone in the twin peaks. The foothills fluctuate in
topography greatly, having numerous high points as compared to the ridge which only
has several ridgeline high points and long slopes. The foothills are also mostly made of
shale with traces of sandstone. In the past, most of this land likely contained a large
amount of longleaf pine judging by the number of longleaf pine stumps still found on the
ridge and in the foothills, though other trees have overtaken many parts of the park.
Average rainfall in the area is approximately 135 centimeters of rain per year (Maceina
2000) and average high temperatures range from 54 °F in January to 91 °F in July
(Birmingham). Frost and freezing temperatures occur between one to three times per
year (Maceina 2000).
Study Design: The research plots used as the study sites at Oak Mountain State Park
were created approximately 11 years ago by Dr. Scot Duncan. Ten foothill plots were
randomly placed on the top of forested hills within the foothills region of the park. Ten
ridge plots were selected at random on the southeast slopes of Double Oak Mountain.
These plots were 50x20 meters and divided into ten 10x10 meter subplots. Each subplot
was individually measured for the study’s variables.
Results
Juvenile longleaf pine were not found very frequently throughout the subplots as
compared to adult longleaf pine, only found in 34% of the 108 subplots sampled versus
8. 8
adult longleaf found in 64.5% of 200 subplots. Within the foothill region, four plots had
juvenile longleaf for a grand total of five subplots (9.09% of sampled subplots). In the
ridge, all 10 plots had longleaf pine juveniles for a total of 32 (60.3%) of the 53 subplots
sampled. The ridge subplots that had juvenile longleaf averaged 12.2 juveniles per
subplot, whereas the foothills plots averaged 2.8 per subplot.
Longleaf pine tree basal area found within the plots significantly varied between and
within the foothills and ridge. Within the foothills plots, there was an average of 31
longleaf pine trees per plot, making up approximately 18% of the numbers of trees
recorded, while the ridge plots contained an average of 14.9 longleaf pine per plot (19%
of the number of trees). Total longleaf basal area in subplots had less variability than in
the foothills, while the ridge longleaf pines averaged a larger basal area overall (Table 1).
The total basal area of other trees in the foothill subplots totaled about 15.64 m2, while
ridge plots totaled about 7.93 m2. Tree species totals found that foothill subplots
harbored roughly 1.5 more species overall per subplot than as compared to the ridge
subplots (Table 1).
Canopy openness was relatively similar between the foothill and ridge plots, though
the foothill plots kept a relative uniform average while the ridge plots saw more variation
(Table 1). Slope had significant differences between the two regions and was greater on
ridge subplots. The soil depth average was almost two times deeper in the foothill plots
than as compared to the ridge plots. Significant portions of the subplots in the ridge
lacked canopy cover due to very shallow or absent soils, which never occurred in the
foothills.
Four independent variables (slope, soil depth, species richness, and non-longleaf pine
basal area) were used in a comparison of subplots with and without adult longleaf pine in
ridge plots. In these tests, the only significant variable differing between the two sets of
plots was non-longleaf pine total basal area, which doubled in subplots without longleaf
pine (Table 4). In the foothill plots, the only two significantly different variables between
subplots with and without longleaf pine were the species richness and non-longleaf tree
total basal area variables.
In a similar comparison between subplots with and without juvenile longleaf pine,
four different variables (canopy openness, slope, soil depth, and tree species richness)
9. 9
were significantly different between subplots. In the foothills, slope was much shallower
and soil depth was much deeper than in the ridge, as seen in Table 3. The ridge subplot
comparison found that canopy openness and soil depth were the two variables
significantly different in subplots with and without the juveniles (Table 4).
Multiple Regression Models:
In the first regression model, juvenile longleaf pine frequency was the dependent
variable and canopy openness, soil depth, tree species richness, slope, and non-longleaf
pine basal area. The data was separated by foothills and ridge. Running a multiple linear
regression test for foothill plots found that the three variables tested (slope, soil depth,
and species richness, excluding non-longleaf pine basal area and canopy openness due to
lack of statistical strength) were all significant in predicting juvenile frequency within the
five subplots the juveniles were found in (Table 2). Analysis of the ridge plots found that
soil depth, non-longleaf pine basal area, and slope did not play a significant role in
predicting juvenile frequency, but canopy openness and species richness did positively
correlate to the is variable significantly.
The next question looked for a connection between the dependent variables of
biodiversity and longleaf pine basal area and the independent variables of soil depth,
slope, tree species richness, and non-longleaf pine basal area. Subplots that did not
contain longleaf pine were removed and the regression was run again with the same
dependent and independent variables. In the ridge plots, the significant variables in a
multiple linear regression included soil depth, slope, and “other” tree total basal area. In
a multiple linear regression only including these three variables, the test found a strong
correlation to predicting longleaf pine basal area (R2 = 0.363, p < 0.001). Individually,
slope was negatively predicted basal area, the soil depth positively predicted basal area,
and the non-longleaf pine total basal area negatively predicted longleaf pine basal area
(Table 2).
Discussion
Overall, we found that the biggest factors we tested affecting longleaf pine growth in
Oak Mountain State Park were stress and competition. Stress was best measured through
10. 10
two environmental stressors, slope and soil depth, competition was measured with a
comparison of total basal areas of trees, and stress and competition were measured
together by tree species richness. Our findings suggest that the longleaf pine have had to
deal with significantly different environmental conditions within the two subsets of a
montane ecosystem. The ridge is a more difficult and stressful environment for plants to
grow as compared to the foothills. Also, succession due to fire suppression is more
advanced in the foothills than in the ridge because invading tree species have an easier
time getting a foothold there due to less stress.
The ridge and foothill regions of Oak Mountain State Park appear to be very different
environmentally, with significantly different slopes, soil depths, tree species richness and
non-longleaf pine basal area. All of these factors seemed to have played a role in
affecting the growth of juvenile and adult longleaf pine.
Juvenile longleaf pine, if present, would indicate that the longleaf pines in the forest
are mature enough to reproduce and the there are enough beneficial factors to allow the
seeds to germinate into the juvenile stage. The differences in the variables measured
must have affected regeneration of longleaf pine, seeing as regeneration nearly halted in
the foothills, yet recruitment of seedlings continued on the ridge. Due to the lack of
juvenile longleaf pine in the foothill subplots, the results given have to be taken as
provincial findings due to small sample sizes, though this lack of juveniles in the foothills
also provides evidence that juvenile longleaf pine are more likely to survive in more
stressful environments due to lack of competition for space and resources. This disparity
exists despite the fact that adult longleaf basal area was higher in the foothills.
Adult longleaf pine basal area was used as an indirect measure of total LLP space and
indicates the total space and resources taken up by this one species in a subplot. There
was significantly more longleaf pine basal area in the foothill plots, meaning there was
more successful growth of longleaf pine overall in the foothill plots than in the ridge
plots.
Environmental variables seem to directly impact growth of the longleaf pine
community both on individual and collective levels. Slope was steeper in the ridge than
in the foothills. Differences in slope are due to the geology of the mountain and foothills,
where ridge plots are above a thick layer of sandstone, which is not as easily eroded as
11. 11
the shale in the rest of the park. Sandstone prevents groundwater penetration for long
term storage, hurting trees during drier periods, while steeper slopes quicken water runoff
and groundwater flow. Juvenile longleaf pine were not significantly affected by the
indirect effects of slope in the ridge, nor were there any differences in ridge subplots with
and without juvenile longleaf pine. In the foothills, slope was negatively related to
juvenile longleaf pine frequency, with significantly less slope when juvenile longleaf was
present in the foothills. For adults, steeper slopes on the ridge had a negative relationship
for longleaf pine basal area, though no pattern was found in the foothill plots between the
two variables. Subplots with adult longleaf pine and subplots without longleaf pine did
not differ for slope in either the foothills or on the ridge. Combined, these two results
indicate shallower slopes generally increased longleaf pine growth, but was not the
variable that allowed or prevented the establishment of the adult tree. Overall, when
slope causes enough stress, it affects the tree to continue to grow, with tree growth
improving on shallower slope. The data show that steeper slopes may hinder all species
of tree growth, but could benefit juvenile longleaf pine due to less competition. The data
also indicates that if slope was steep enough, then it could indirectly affect tree growth
and therefore may affect the longleaf pine community.
Soil depth was deeper in the foothills than in the ridge and may be a pivotal variable in
affecting longleaf pine recruitment and growth. In foothills, juvenile longleaf pine numbers
had a significant negative relationship to soil depth, but no such relationship existed in the
ridge. In the foothills, soil depth was almost a perfect predictor of juvenile longleaf pine
frequency and count, showing strong trends that stress in the habitat may be beneficial for
longleaf pine to become established. Adult longleaf pine basal area in the ridge was
marginally non-significant, but positively related to soil depth, with deeper soils indicating
greater basal area, while there was no significant trend found in the foothills. There was also
no significant difference in subplots where adult longleaf pine was present or absent in either
the foothills or the ridge. The lack of change between subplots with and without adult
longleaf pine indicates that soil depth was not the variable that allowed or prevented the
establishment of the adult tree. When compiling all of this data, soil depth provides evidence
that it causes stress that affects longleaf pines’ continued growth when shallow enough and
that the deeper the soil, the easier for the tree to grow. Like with slope, if soil depth was not
12. 12
extreme enough, then it would not play a direct factor in the longleaf pine community.
Finally, longleaf pine generally grows better in deeper soils, but the juvenile longleaf pine
have more success in shallower soils due to less competition. The shallower soil may be a
limiting factor in survival for other plants, but not for juvenile longleaf pine; this opens up
space and resources for more juvenile longleaf pine to germinate and grow.
Non-longleaf pine basal area, being greater in the foothills than the in the ridge, seemed
to have a negative impact on the ability for adult longleaf pine to grow. Non-longleaf pine
basal area was used as a way to measure the amount of space non-longleaf pine trees took in
the two regions of the park, giving an idea of the total area of trees are found in each subplot.
There was significantly more tree area in the foothills than as compared to the ridge,
supporting that the notion that higher amounts of stress lead to lower amounts of total tree
growth. Overall, the only significant regression result for both juvenile and adult growth was
for adult longleaf pine basal area in the ridge, which has a negative relationship. There was
also a significant drop in non-longleaf pine basal area when longleaf pine were in the area.
This supports the idea that other trees generally compete against and are bad for the LLP
community. With more stress, there will be both lower non-longleaf pine basal area and
higher longleaf pine take up space per subplot. Combined with tree species richness results,
the data may provide evidence that that non-longleaf pine trees and the longleaf pine
community have an antagonistic relationship.
Tree species richness was also greater in the foothills than in the ridge. Tree species
richness was used as an indicator of the state of the ecosystem, with increased richness
meaning greater competition for longleaf pine trees. This variable also pointed to possible
stress variations between ridge and foothills. In the ridge, tree species richness was
negatively related to longleaf pine basal area, meaning increased diversity related to the
declining health of longleaf pine community, while decrease in diversity would be beneficial
to longleaf pine trees. Tree species richness was greater in foothill subplots without adult
longleaf pine, supporting the idea that as species richness increases, the more competition
and the worse it is for the longleaf pine community. The ridge plots were not significantly
affected by species richness, which due to the lesser amounts competition from increased
stress. For juvenile longleaf pine, tree species richness was positively related in the ridge,
but negatively related in the foothills. The mixed results support the idea that lower levels of
13. 13
stress in a high stress environment create higher chances of germination and growth into the
juvenile stages. In the foothills, more stress is needed to weed out competition for juvenile
longleaf pine to grow, so more stress means less competition. The findings suggest that
longleaf pine compete with other tree species for resources: the more resources the longleaf
pine obtain, the more area they are able to take. Juvenile longleaf also have to compete with
other species when there is little stress, but when stress is elevated to affect the amount of
species, juvenile longleaf pine only need to worry about stressors like soil depth and slope.
We were very surprised to find that canopy openness lacked any significant trends
with any of the tests performed. Young longleaf trees need many hours of direct sunlight
to survive and grow each day. Canopy openness is directly related to light availability at
the forest floor. When more light allowed to reach the forest floor, undergrowth receive
more energy to photosynthesize and produce sugars to store, making it an important
factor in small plant growth. There was one marginally non-significant result when
comparing canopy openness with juvenile longleaf pine in the ridge, with a positive
relationship between the two. The number of insignificant results provide evidence that
canopy openness did not play a major role in longleaf pine recruitment or growth. This
lack of difference may exist because both areas may be at or close to full closure, which
is especially true in the foothills with an increased invasion of broadleaf trees.
Conclusion:
Stress is helpful for LLP as steeper slopes and shallower soils introduce stress that has
been waning with fire suppression. The lack of stress has allowed increased competition
against the longleaf pine, with elevated tree species richness and growth of non-longleaf pine
negatively and unevenly impacting this community the foothills region of the park. These
have seemed to increased stress in the longleaf pine community to have a greater negative
impact than slope and soil depth do. Both of these could be key factors in successful
germination, with soil depth being significantly lower and slope being significantly greater
when comparing plots with and without juvenile LLP. Using these initial findings, we can
start looking into how these variables predict and/or affect the ability for this tree to establish
itself from the juvenile stage into an adult and how it continues to grow throughout its
lifetime.
14. 14
In future research, other factors that should be looked into include temperature, slope
aspect, and the average distance away from the parent tree. All of these could also be
factors that cause changes in the abundance of juvenile longleaf pine and size of adult
LLP in each of the subplots. For example, ridge slopes face southeast, meaning the
summer sun is more intense on the slope than others facing different directions, drying
the soils more quickly than on the north facing slopes. How does this change with
different slope aspects? Chance also may play a large factor of deciding whether a
juvenile or adult longleaf pine will grow from a seed into a juveniles or juveniles into an
adult, respectively.
Using these initial findings, we can start looking into how these variables predict
and/or affect the ability for this tree to germinate and grow from seeds into the juvenile
stage and into an adult. There is generally poor recruitment of longleaf pine in the park
overall, so how can that be improved upon by the trees? With this poor recruitment
means a potential drop in adult longleaf pine in the future. With this initial research, we
will need to look for more a detailed understanding of what other environmental factors
play a role in the growth of longleaf pine to help them maintain and re-extend their
community in the future.
15. 15
Tables and Graphs
Table 1. Resultsof a Mann-WhitneyUtestseeingif there were differencesbetweenthe ridge and
foothill regionsin OakMountainState Parkin Pelham, AL. A p value of lessthan.05 indicatesa
significantdifference.
Foothill Ridge
Variable Mean (SD) Range Mean (SD) Range P value
Canopy Openness (%) 12.7 (1.7) 7.9 – 17.5 14.5 (5.5) 9.5 – 36.7 0.176
Slope (⁰) 12.0 (5.8) 1.0 – 28.0 21.0 (6.0) 5.0 – 41.0 <0.001
Avg Soil Depth (cm) 34.2 (13.9) 4.9– 65.2 18.3 (13.9) 0.0 – 53.0 <0.001
Juvenile LLP Count 2.8 (1.8) 1.0 – 5.0 12.2 (16.3) 1.0 – 53.0 <0.001
LLP BasalArea (m2
) 0.18 (.15) 0.0024 - 0.84 0.11 (0.09) 0.0005 -0.47 0.004
Tree Species Richness 5.6 (2.0) 2.0 – 11.0 4.1 (1.5) 1.0 - 9.0 <0.001
Non-LLP BasalArea (m2
) 0.13 (.09) 0.016 - .51 0.065 (.06) 0.0009 - 0.33 <0.001
Table 2. Resultsof multiple linearregressionsof the numberof juvenile longleaf pine oradultlongleaf
pine basal area(dependentvariables) againstCanopyOpenness(and/orSpeciesrichness),Slope,basal
area of Non-longleaf trees,andSoil Depth(independentvariables) intwodifferent topographicregions
of OakMountainState Parkin Pelham,AL.Pvalueslessthan.05 representsignificantR2
values.
Region Model’sDependent
variable
R2 P Independent
variables
Beta P
Foothills JuvenileFrequency 1.000 0.011 Slope -0.442 0.020
Soil Depth -0.953 0.006
SpeciesRichness -0.232 0.038
AdultBasal Area 0.204 0.030 CanopyOpenness 0.224 0.124
Slope 0.144 0.281
Soil Depth -0.105 0.438
SpeciesRichness -0.214 0.139
Non-LLPBasal Area -0.132 0.393
Ridge JuvenileFrequency 0.355 0.001 CanopyOpenness 0.313 0.067
Slope -0.274 0.145
Soil Depth 0.065 0.845
SpeciesRichness 0.537 <0.001
Non-LLPBasal Area -0.105 0.431
AdultBasal Area 0.387 <0.001 CanopyOpenness -0.176 0.115
Slope -0.386 0.001
Soil Depth 0.208 0.068
SpeciesRichness -0.024 0.824
Non-LLPBasal Area -0.280 0.014
Table 3. Comparisonof subplotswithandwithoutjuvenile longleaf pineinOakMountainState Parkin
Pelham,AL.Pvalueslessthan.05 representasignificant difference betweenthe subplotsusingaMann-
WhitneyU test.
With Juvenile LLP Without Juvenile LLP
Region Variables Mean (SD) Range Mean (SD) Range P Value
Foothills CanopyOpenness(%) 12.5 (1.7) 10.2 – 14.0 13.9 (5.0) 9.6 – 32.8 0.447
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