Dynamics of Understory Tree Seedling Recruitment and Growth of Advance Regeneration Following Variable-Density Thinning of Second-Growth Conifer Stands in the Pacific Northwest

James, Carson

09 December 2016

With a growing desire to generate structural characteristics of late-successional conifer forests, managers are commonly seeking an approach to increase structural heterogeneity in otherwise simple second-growth stands. This study examined understory response to experimental thinning on the Olympic Peninsula of Western Washington. Variable-density thinning within the Olympic Habitat Development Study was found to have significant effects on both the density of seedling recruitment as well as early growth of western hemlock (Tsuga heterophylla (Raf.) Sarg.). In additional analysis, pre-commercial understory thinning, implemented by the Olympic National Forest, produced no observable acceleration in basal area growth. Results suggest that understory development is sensitive to previous management history as well as post-treatment stand structure. Better understanding the sources of variability in understory tree response to non-uniform thinning and understory density management will be principle in evaluating the efficacy of these treatments relative to traditional methods.

vdt

variable-density thinning

forestry

forest restoration

stand dynamics

old-growth

Bird, Plant, and Herpetofaunal Associations in Cove Forests and Pine Plantations in Mississippi

Posner, Aaron Weston

12 May 2012

I investigated plant and animal community characteristics on 14 forest stands in north central Mississippi. Study sites included 9 pine plantations, 3 streamside management zones, and 2 hardwood cove forests. I estimated relationships between faunal metrics and habitat characteristics. I measured vegetation characteristics within quadrant and nested plot designs to estimate understory, midstory, and overstory species composition and structure. I inventoried breeding birds using point count surveys and sampled herpetofauna diversity using area-constrained searches within belt transects during 2008 and 2009. I detected 39 species of birds in 2008, 43 species of birds in 2009, 11 species of amphibians, and 9 species of reptiles. Hardwood cove sites supported more deep forest-dwelling bird and salamander species; whereas, pine stands supported more grassland bird species. Species richness and abundance of birds was related to snag DBH. Species richness and abundance of herpetofauna was related to number of understory plant species.

breeding birds

streamside management zone

pine plantations

herpetofauna

habitat

old growth

cove forests

biodiversity

Habitat use by a forest-dwelling bat community in the northern Great Lakes region

Jung, Thomas S.

January 2000

No description available.

White pine -- Ontario -- Sudbury Region.

Four Decades of Temporal and Spatial Dynamics in an Old-Growth Beech-Maple Forest in Southwestern Ohio, USA

Attea, Grace K.

15 May 2023

No description available.

Ecology

Environmental Science

Forestry

Biology

COMPARING STAND COMPOSITION AND FLORISTIC QUALITY OF TWO ADJACENT UPLAND OAK-HICKORY WOODLANDS IN SOUTHERN ILLINOIS: OLD-GROWTH AND SECOND-GROWTH DYNAMICS

Kleiman, Leah Rose

01 August 2023

Illinois has no official parameters for old-growth oak-hickory (Quercus-Carya) forests despite oak-hickory being the historically dominant ecosystem in the forested parts of Illinois (Fralish, 1997; Thompson & Dessecker, 1997). The purpose of this study was to better understand the characteristics of old-growth oak-hickory stands, as well as make management recommendations for preserving the integrity of old-growth forests and shifting second-growth stands to old-growth status. Stand structure analysis was conducted in June and July of 2022 on an old-growth oak-hickory stand (Otey-Grisley Nature Preserve) and nearby second-growth oak-hickory stand (Grisley Woods Land and Water Reserve) near Pittsburg, Illinois using dendrochronology, various stand composition analyses, and floristic assessments to compare the two forests across multiple nodes of inquiry from their canopies to their ground layers. White oak (Quercus alba L.) was of higher importance in the more open old-growth canopy than the closed second-growth canopy which had more shagbark hickory (Carya ovata L.). The old-growth stand had higher floristic quality (mean Coefficient of Conservatism and adjusted Floristic Quality Index) and lower frequency of invasive species than the second-growth stand. The dominant white oak appear to have suppressed the hickories (Carya) for over a century on both sites. However, in the sapling and seedling layer, it appears the oaks and hickories are failing to recruit into the canopy on either site. The average age of the old-growth canopy is 67 years greater than that of the second-growth canopy, the majority of which seeded in after a heavy cut in the early 1940s. The second-growth site rapidly gained early successional species after the logging. The second-growth site could come to resemble the open oak dominated character of the old-growth site. However, this will require management with fire, thinning, and invasive species treatments. The old-growth, where sassafras (Sassafras albidum L.) is crowding the understory, will also require invasive species management, prescribed fire, and thinning if it is to remain the open oak-hickory woodland it is today.

Dendroecology

Floristic Quality

Land-use History

Mesophication

Old-growth

Second-growth

Tree Regeneration Ecology and Herbaceous Layer Dynamics of an Old-growth Central Appalachian Forest

Chapman, Julia I.

21 August 2012

No description available.

Botany

Ecology

Plant Biology

old-growth forest

Appalachia

eastern deciduous forest

herbaceous layer

diversity

tree regeneration

Sources of variation in ecosystem carbon pools: a comparison of adjacent old- and second-growth forests

Gathany, Mark A.

18 December 2004

No description available.

Carbon

Ecosystem carbon Pools

Old-growth forest

Dysart Woods

Carbon Storage

Second-Growth Forest

The Hydrogeology of an Old Growth Forest with Implications for Defining Impact Zones Associated with Underground Mining

Cook, Shannon R.

29 December 2008

No description available.

Geology

Hydrology

hydrogeology

impact zones

perched aquifers

old growth forest

Dysart Woods

Legacies of forest management and fire in mixed-pine forest ecosystems of the Seney National Wildlife Refuge, eastern Upper Michigan

Rist, Stephen George

11 September 2008

No description available.

Environmental Science

Forestry

mixed-pine

Applications of ecological modeling in managing Central Appalachian upland oak stands for old-growth characteristics

Grinter, Lawton E.

02 October 2002

Old-growth forests provide important habitat for wildlife, support the maintenance of biodiversity and serve as control areas for scientific research. Expanding current old-growth stand area by utilizing neighboring younger, managed stands allows private landowners to meet management needs and enables government agencies and private conservation organizations to meet old-growth forest objectives. Seven old-growth upland oak stands and seven adjacent younger, managed stands of the same site and stand type were measured in the Ridge and Valley, Blue Ridge, and Piedmont provinces of Virginia and Pennsylvania in an effort to characterize species composition, diameter distribution and canopy structure. A computer-based ecosystem/gap model (JABOWA-3) was modified and used to simulate silvicultural manipulations in the younger stands that would reproduce older forest characteristics. Various silvicultural techniques were used to convert the primarily even-aged younger stands into uneven-aged stands and then into old-growth. These manipulations included single-tree selection, herbicide application, culling larger diameter stems and planting seedlings where required. Individual trees within each of the younger, managed stands were removed at various time intervals and these simulated stands were then projected to a point in time in which the stand approximated the diameter distribution and composition of its paired old-growth stand. Several projections were made in each of the younger stands to meet this objective. Once a satisfactory projection was made for conversion of a younger stand to old-growth, a success rate was determined to gauge how close the simulated stand approximated the diameter distribution and composition of its old-growth counterpart. From this information, biologically feasible and environmentally sound management plans were created to carry out the silvicultural manipulations required by the model for each of the sites. / Master of Science

Jabowa

gap models

Appalachian hardwoods

ecosystem modeling

old-growth

restoration ecology