Download or read book Canopy Structure on Forest Lands in Western Oregon written by Anne C. S. McIntosh and published by . This book was released on 2011-01 with total page 40 pages. Available in PDF, EPUB and Kindle. Book excerpt: This is a print on demand edition of a hard to find publication. This study quantified and compared vertical and horizontal patterns of tree canopy structure and understory cover along a successional gradient of forests and among stands with different thinning histories on non-federal lands in western Oregon. Analyses focused on three dominant forest type groups: wet conifer, wet hardwood, and dry hardwood. Most of the cover in moist stands was in the upper tree layer, but cover in dry hardwood stands was more evenly distributed among layers. Findings suggest potential limitations of simple stand succession models that may not account for the range of forest types, site conditions, and developmental mechanisms found across western Oregon. Charts and tables.

Download or read book Canopy Structure on Forest Lands in Western Oregon written by Anne C.S. McIntosh and published by . This book was released on 2009 with total page 35 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Canopy Structure on Forest Lands in Western Oregon written by United States Department of Agriculture and published by CreateSpace. This book was released on 2015-02-14 with total page 40 pages. Available in PDF, EPUB and Kindle. Book excerpt: Canopy structure is an important attribute affecting economic and ecological values of forests in the Pacific Northwest. However, canopy cover and vertical layering are rarely measured directly; they are usually inferred from other forest measurements. In this study, we quantified and compared vertical and horizontal patterns of tree canopy structure and understory cover along a successional gradient of forests and among stands with different thinning histories on nonfederal lands in western Oregon. Analyses focused on three dominant forest type groups: wet conifer, wet hardwood, and dry hardwood. We used data from 917 systematically located, forested Forest Inventory and Analysis plots measured between 1995 and 1997. On each plot, canopy cover by layer and species was measured on line-intercept transects, and cover of understory species was measured on five subplots. Trends in canopy structure with stand age did not always follow the patterns predicted by common successional models. Most of the cover in moist stands was in the upper tree layer, but cover in dry hardwood stands was more evenly distributed among layers. Contrary to expectations of canopy closure, mean canopy cover by age class rarely exceeded 85 percent, even in unthinned productive young conifer forests. Possibly as a result, effects of stand age on understory vegetation were minimal, except for low levels of forbs found in 20- to 40-year-old wet conifer stands. Shadetolerant tree species rarely made up more than 20 percent of canopy cover, even in the lower canopy layers and in stands >100 years old. Although heavily thinned stands had lower total cover, canopy structure did not differ dramatically between thinned and unthinned stands. Our findings suggest potential limitations of simple stand succession models that may not account for the range of forest types, site conditions, and developmental mechanisms found across western Oregon.

Download or read book Canopy Structure on Forest Lands in Western Oregon written by and published by . This book was released on 2009 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Canopy Structure on Forest Lands in Western Oregon written by Anne C. S. McIntosh and published by . This book was released on 2009 with total page 35 pages. Available in PDF, EPUB and Kindle. Book excerpt: Canopy structure is an important attribute affecting economic and ecological values of forests in the Pacific Northwest. However, canopy cover and vertical layering are rarely measured directly; they are usually inferred from other forest measurements. In this study, we quantified and compared vertical and horizontal patterns of tree canopy structure and understory cover along a successional gradient of forests and among stands with different thinning histories on nonfederal lands in western Oregon. Analyses focused on three dominant forest type groups: wet conifer, wet hardwood, and dry hardwood. We used data from 917 systematically located, forested Forest Inventory and Analysis plots measured between 1995 and 1997. On each plot, canopy cover by layer and species was measured on line-intercept transects, and cover of understory species was measured on five subplots. Trends in canopy structure with stand age did not always follow the patterns predicted by common successional models. Most of the cover in moist stands was in the upper tree layer, but cover in dry hardwood stands was more evenly distributed among layers. Contrary to expectations of canopy closure, mean canopy cover by age class rarely exceeded 85 percent, even in unthinned productive young conifer forests. Possibly as a result, effects of stand age on understory vegetation were minimal, except for low levels of forbs found in 20- to 40-year-old wet conifer stands. Shade-tolerant tree species rarely made up more than 20 percent of canopy cover, even in the lower canopy layers and in stands >100 years old. Although heavily thinned stands had lower total cover, canopy structure did not differ dramatically between thinned and unthinned stands. Our findings suggest potential limitations of simple stand succession models that may not account for the range of forest types, site conditions, and developmental mechanisms found across western Oregon.

Download or read book New Approaches to Forest Planning written by Troy E. Hall and published by DIANE Publishing. This book was released on 2011 with total page 42 pages. Available in PDF, EPUB and Kindle. Book excerpt: This is a print on demand edition of a hard to find publication. Chronicles a large-scale effort to map place values across the Pacific Northwest Region (Washington and Oregon) of the U.S. Forest Service. 485 socio-culturally meaningful places were identified. Staff also generated corresponding descriptions of the places¿ unique social and biophysical elements ¿ in other words, ¿niche¿ qualities and ¿niche¿ statements that reflected people¿s values. These places and their niches were then mapped using geographic info. systems technology. Niche info. was supplemented with additional existing data such as Nat. Visitor Use Monitoring, National Survey of Recreation and the Environ., and other social and economic info. Applications of this information-gathering technique were discussed. Illustrations.

Download or read book Forest Canopy Sturcture in Western Oregon written by Anne C. S. Fiala and published by . This book was released on 2003 with total page 670 pages. Available in PDF, EPUB and Kindle. Book excerpt: Characterization of canopy structure, the horizontal and vertical distribution of the tree crowns in a forest, is important for the management of forests in the Pacific Northwest. The canopy is an important habitat element for many wildlife species, canopy structure affects understory development, and influences various natural processes, such as the intensity of propagation of wildfire. Thus, improving our understanding of canopy structures and trends can aid forest management. The overall goal of this study was to characterize vertical and horizontal canopy structure for multiple forest groups in western Oregon. The specific objectives were to: 1) characterize vertical and horizontal canopy structure for dominant forest types in western Oregon, 2) evaluate methods for measuring canopy cover and structure, 3) compare methods to predict forest canopy cover and vertical diversity using standard inventory measurements, and 4) predict bird species occurrence with different canopy diversity measures. I evaluated patterns of vertical and horizontal canopy structure and understory cover along a successional gradient using 934 forested plots in western Oregon. Observed data were from the USDA Forest Service Forest Inventory and Analysis (FIA) program from the 1995-97 survey on private and non-federal public lands. Patterns were examined for wet-conifer, wet-hardwood, and dry-hardwood forests. The upper tree canopy layer contributed the most to total cover except in the dry-hardwood stands, where the vertical distribution of tree cover was more evenly distributed. However, mean canopy cover rarely exceeded 85%, even in productive young conifer forests. Shade-tolerant species rarely made up more than 20% of canopy cover, even in the lower canopy layers and in stands> 100 yrs old. Contrary to expectations, percent cover of understory shrubs and herbs was not substantially lower in young closed-canopy stands than in other stands. Ground-based measures of canopy cover on inventory plots were compared to predictions with regression models that regressed canopy cover on standard forest measurements, with estimates from aerial photography, and predictions with the forest vegetation simulator (FVS) program. Model predictions from inventory measurements were within 15% of measured cover for> 82% of the observations. Standard inventory estimates of cover using 1:40,000 scale aerial photos were poorly correlated with ground-measured cover, especially in wet-hardwood (r=0.58) and dry-hardwood (r0.61) stands. FVS tended to underestimate cover by up to 50% in wet-conifer and wet-hardwood stands. The aerial photos and FVS equations used in this study are not recommended as surrogates for ground-based measurements of cover. However, the level of accuracies of the predictive models developed in this study may be adequate for some purposes. I compared fourteen measures of vertical structural diversity and layering using the inventory plots. I then attempted to predict selected vertical diversity indices from standard forest variables. Simpson's diversity index on tree heights best differentiated among the range of vertical structure classes of the inventory plots. I developed predictive equations for Simpson's height diversity index (SDI), Foliage Height Diversity (FHD), and Canopy Height Diversity Index (CHDI), which used basal area, standard deviation of dbh, and stem frequency of size classes as the best variables. Predicted SDI values were within 0 15 units of calculated SDI for> 79% of the observations, predicted CHDI values were within 1.5 units for> 91% of the observations, except in the dry-hardwood stands (only 69%), and predicted FHD measures were within 0.2 units for> 85% of the observations among forest groups. The equations for FHD and SDI were applied to a wildlife-habitat database for western Oregon to determine if classification efficiency of existing models using CHDI to predict presence of bird species could be improved. The classification efficiency of bird-habitat association models improved for 33% and 66% of models for the Oregon Coast Range with the FHD and SDI variables, respectively. Models with FHD and SDI had improved classification efficiency for 18% of Cascade Range models. Although improvements in classification efficiency were less than six percentage points, future use of these diversity indices is warranted in place of CHDI when estimates of FHD and/or SDI are available and CHDI estimates are not. Four ground-based techniques for estimating forest overstory cover - line-intercept, spherical densiometer, moosehorn, and hemispherical photography - and estimates generated using FVS were compared across a range of stand structure types. Canopy cover estimates for the four ground-based methods were not correlated with structure type. Differences among estimates of cover using FVS and the other methods did depend on the forest structure type. Differences among ground-based methods were primarily related to differences in angle of view. Although the line-intercept had the narrowest angle of view, the moosehorn provided the most conservative estimates of overstory cover. Regression equations were derived to allow conversion among canopy cover estimates developed with the four ground-based methods. The FVS calculated cover should not be used as a substitute for ground-based measures in these forest types given that it was consistently much lower (up to 70%) than estimates from the ground-based methods within each forest-structure type. Overall, this study provides researchers and forest managers with new information and tools that can be applied across the forested landscape of Oregon. Models to predict canopy cover and diversity, and bird habitat can be substituted for field studies, assuming the accuracies of predictions are adequate for desired purposes. In field studies where ground-based cover measures are needed, the moosehorn is recommended as the most conservative estimator of cover. For more detailed canopy data, the line-intercept method is warranted. Modifying the line-intercept method to use fixed height intervals may be preferable to the use of three relative layers. This adjustment will allow for more direct comparisons of canopy cover of layers among stands.

Download or read book Historical and Current Forest Landscapes of Eastern Oregon and Washington written by and published by . This book was released on 1994 with total page 96 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Reforestation Efforts in Western Oregon written by United States. Congress. House. Committee on Agriculture. Subcommittee on Forests and published by . This book was released on 1977 with total page 264 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Patterns in Understory Vegetation Communities Across Canopy Gaps in Young Douglas fir Forests of Western Oregon written by Robert T. Fahey and published by . This book was released on 2005 with total page 300 pages. Available in PDF, EPUB and Kindle. Book excerpt: Canopy gap formation is a major factor contributing to maintenance of overstory species diversity and stand structure in forests and may be integral to development of understory shrub and herb layers as well. Acknowledgement of gap formation as a fundamental feature of natural forests has led to consideration of gaps as an option in forest management regimes. This study examined understory vegetation communities across canopy gaps created as a part of the Density Management Study (DMS), which investigates the effectiveness of a thinning regime in promoting late-successional habitat development in young Douglas-fir forests of western Oregon. Patterns in understory vegetation community composition in and around 0.1 and 0.4ha gaps created as a part of the DMS treatment were investigated. The primary goal of this research was to investigate the potential role of canopy gap creation in fostering heterogeneity in understory vegetation communities, and to examine the extent of gap influence on the surrounding thinned forest matrix. Tree species distributions have been shown to partition across gaps in tropical forest systems through differential responses of species to gradients in resource availability, a pattern known as gap partitioning. In temperate forests, understory vegetation communities are much more diverse than the overstories, and display a greater array of habitat requirements. Therefore, understory communities may be more likely than overstories to exhibit gap partitioning in these forests. Patterns in understory community composition across gaps suggest that gap partitioning has occurred. The strength of this partitioning effect appears to differ between gap sizes, as smaller gaps showed a less powerful effect. Abundance of ruderal species was strongly related to gap partitioning in larger gaps, while smaller gaps were dominated by competitor species. Partitioning may be related to an interactive relationship between harvest-related ground disturbance and resource gradients. Therefore, considerations of gap partitioning processes should take into account intensity and spatial distribution of ground disturbance in relation to resource gradients. In addition, conditions necessary for the expression of gap partitioning in understory vegetation communities may be rare in natural gaps in this region. The influence of gaps on understory vegetation communities in the surrounding forest appears to be relatively small. This small influence extent may help explain the lack of a stand level response to gap formation in these stands. Larger gaps exhibit a slight influence on the understory plant community in the surrounding forest to the north of the gap. In small gaps, there seemed to be an influence of the surrounding forest on gap interiors, resulting in an area of influence smaller than the physical gap area. This relationship may indicate that the area of gap influence on understory vegetation may not scale linearly with physical gap size. Species diversity was higher in gap interiors than in surrounding thinned forests. However this effect was partially due to the presence of exotic species, which showed an affinity for gap interiors. Late successional associated species were negatively related to gap interiors, but only in the larger gap size. Gap creation appears to be promoting small scale species diversity in these stands, but creation of large gaps may also promote the establishment of exotic species and may have a negative effect on late successional associated species. However, any and all of these effects may be transient, as understory communities will be strongly affected by overstory re-establishment, and related changes in resource availability. In general, gap formation may influence small-scale stand heterogeneity as evidenced by understory plant communities, but this effect may rely strongly on the nature of gap formation and intensity of disturbance related to this formation.

Download or read book Percent Canopy Cover and Stand Structure Statistics from the Forest Vegetation Simulator written by Nicholas L. Crookston and published by . This book was released on 1999 with total page 68 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Environmental Issues in Pacific Northwest Forest Management written by Committee on Environmental Issues in Pacific Northwest Forest Management and published by National Academies Press. This book was released on 2000-07-28 with total page 280 pages. Available in PDF, EPUB and Kindle. Book excerpt: People are demanding more of the goods, services, and amenities provided by the forests of the Pacific Northwest, but the finiteness of the supply has become clear. This issue involves complex questions of biology, economics, social values, community life, and federal intervention. Forests of the Pacific Northwest explains that economic and aesthetic benefits can be sustained through new approaches to management, proposes general goals for forest management, and discusses strategies for achieving them. Recommendations address restoration of damaged areas, management for multiple uses, dispute resolution, and federal authority. The volume explores the market role of Pacific Northwest wood products and looks at the implications if other regions should be expected to make up for reduced timber harvests. The book also reviews the health of the forested ecosystems of the region, evaluating the effects of past forest use patterns and management practices. It discusses the biological importance, social significance, and management of old-growth as well as late-succession forests. This volume will be of interest to public officials, policymakers, the forest products industry, environmental advocates, researchers, and concerned residents.

Download or read book Urban Forest Canopy Cover in Portland Oregon 1972 2002 written by Joseph Poracsky and published by . This book was released on 2004 with total page 44 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Forest Canopies written by Margaret Lowman and published by Academic Press. This book was released on 2004-09 with total page 543 pages. Available in PDF, EPUB and Kindle. Book excerpt: The treetops of the world's forests are where discovery and opportunity abound, however they have been relatively inaccessible until recently. This book represents an authoritative synthesis of data, anecdotes, case studies, observations, and recommendations from researchers and educators who have risked life and limb in their advocacy of the High Frontier. With innovative rope techniques, cranes, walkways, dirigibles, and towers, they finally gained access to the rich biodiversity that lives far above the forest floor and the emerging science of canopy ecology. In this new edition of Forest Canopies, nearly 60 scientists and educators from around the world look at the biodiversity, ecology, evolution, and conservation of forest canopy ecosystems. Comprehensive literature list State-of-the-art results and data sets from current field work Foremost scientists in the field of canopy ecology Expanded collaboration of researchers and international projects User-friendly format with sidebars and case studies Keywords and outlines for each chapter

Download or read book Old growth Forest in the Pacific Northwest written by United States. Congress. Senate. Committee on Energy and Natural Resources. Subcommittee on Public Lands and Forests and published by . This book was released on 2008 with total page 80 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Managing for Wildlife Habitat in West side Production Forests written by and published by . This book was released on 2007 with total page 148 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Characteristics of Remnant Old Growth Forests in the Northern Coast Range of Oregon and Comparison to Surrounding Landscapes written by Andrew N. Gray and published by DIANE Publishing. This book was released on 2011-05 with total page 52 pages. Available in PDF, EPUB and Kindle. Book excerpt: Old-growth forests provide unique habitat features and landscape functions compared to younger stands. The goals of many forest mgmt. plans in the Pacific NW include increasing the area of late-successional and old-growth forests. This study describes existing old-growth forests in the northern Oregon Coast Range that might serve as examples of desired future conditions and developmental pathways. Results suggest that although old-growth forests can develop along multiple pathways, stand composition and productivity constrain development such that expecting all late-successional stands to have the full complement of old-growth attributes may not be realistic. Illustrations. This is a print on demand report.