Responses of Ground-dwelling Invertebrate Communities to Disturbance in Forest Ecosystems

Perry, Kayla I.

January 2016

No description available.

Ecology

Entomology

forest floor invertebrates

disturbance

canopy gap

woody debris

dispersal

ground beetles

Carabidae

emerald ash borer

Survival and growth of planted seedlings on woody and non-woody forest floor substrates in high and low light environments of coastal British Columbia

Klinka, Karel

January 2001

In the wetter climates associated with the coastal forests of northwestern North America, coarse woody debris (CWD) accumulations in the form of snags, downed boles, and large branches can be large in natural forest ecosystems. Seedlings often regenerate on stumps and downed logs in the understory of old-growth coastal forests. The question remains though, whether CWD is a necessary component for seedling survival and growth in forests managed for commodity production. This study addresses one concern of forest managers: is there an immediate nutritional or moisture supply advantage conferred by CWD for the survival and growth of seedlings in the coastal climate of British Columbia? We compared survival and growth of seedlings planted in decaying wood compared to non-woody humus forms and mineral soil under heavy shade and full light conditions. Low light environments are of particular interest since reports of the strong association between CWD and regeneration has primarily referred to understory seedlings and saplings in old-growth forests.

Seedling survival

Coarse woody debris

Coastal British Columbia

Douglas-fir

Forest floor

Light conditions

Pacific silver fir

Soil nutrients

Western hemlock

Western redcedar

Forest floor dynamics across a chronosequence in the coastal western hemlock zone

Klinka, Karel

January 1997

The forest floor represents the uppermost organic and organicenriched mineral soil horizons. They have been formed by the deposition of organic material and the subsequent biologically mediated decomposition. The forest floor influences rooting-zone temperature, aeration, moisture, and nutrient conditions, and hence, forest productivity. Considering the importance of the forest floor, and the fact that it is exposed to disturbance (being the surface layer), we need to assess the potential impacts our logging practices may have. Clearcutting, one of the contentious silvicultural practices used in British Columbia, is imputed to most adversely affect ecosystems and sustainability. We assessed the long-term impact of clearcutting on the forest floor by documenting changes in the thickness, chemical and biotic properties of the humus form across a chronosequence of forest stands. The study was located in the largest and most representative portion of the coastal rainforest the Very Wet Maritime Coastal Western Hemlock (CWHvm) subzone.

Clearcutting

West Coast hemlock

Biodiversity

Forest floor

Humification

Humus

Soil fauna

Plant succession

Forest biodiversity

Soil chronosequences

Soil nutrients

Soil microbiology

The association between western hemlock fine roots and woody versus non-woody forest floor substrates in coastal British Columbia

Klinka, Karel

January 2001

In the wetter climates associated with the coastal forests of the Pacific Northwest, coarse woody debris (CWD) accumulations in the form of snags, downed boles, and large branches can be large in natural forest ecosystems. Although maintaining organic matter for sustainable site productivity is not in dispute, the importance of CWD as a source of soil organic matter is questionable. Forest managers attempting to optimize timber production need to know how CWD affects short-term forest tree growth and productivity. This study addresses the question of the immediate value of CWD for growth of mature (90 year old) western hemlock (Hw). Because of practical difficulty with mature trees growing in different substrates, we utilized fine root distribution or proliferation, as an indicator of important substrates.

Coarse woody debris

West coast hemlock

Western hemlock

Forest floor

Humification

Humus forms

Soil nutrients

Site quality

Root biomass

Root density

Root formation

Substrates, Plant

Structure and regeneration of old-growth stands in the engelmann spruce - subalpine fir zone

Klinka, Karel

January 1998

Old-growth stands are important for management, conservation, wildlife, recreation, and maintaining biological diversity in forested landscapes. However, we are lacking the information needed to adequately identify and characterize old-growth stands. This is especially true for high elevation, interior forests. The characterization of stand structure and regeneration pattern will help in the development of site-specific guidelines for identifying old growth stands and restoring some of the old-growth characteristics in managed stands. This pamphlet presents a synopsis of a study investigating stand structure and regeneration of old-growth stands in the Moist Cold Engelmann Spruce - Subalpine Fir (ESSFmc) Subzone near Smithers, B.C. The three stands selected for the study were located on zonal sites, each in different watersheds, and the stands were established after fire. The criteria used for selection were: i) absence of lodgepole pine, ii) presence of advanced regeneration, and iii) abundant snags and coarse woody debris. These stands were presumed to represent the old-growth stage of stand development or the final (climax) stage of secondary succession.

Age

Diameter

Height

Engelmann spruce

Engelmann spruce - subalpine fir

Forest floor

Coarse woody debris

Old growth forest ecology

Forest regeneration

Snowmelt

Stand structure

Subalpine fir

Abies lasiocarpa

Fire ecology

Understory plants

Moist cold subzone

Forest floor nutrient properties in single- and mixed-species stands of Western hemlock and Western redcedar

Klinka, Karel, Collins, D. Bradley, Montigny, Louise E. M. de, Feller, M. C. (Michael Charles), Chourmouzis, Christine

January 2001

The influence of tree species on forest soils has been the subject of study for at least a century. Of particular interest have been western hemlock (Tsuga heterophylla (Raf.) Sarg.) and western redcedar (Thuja plicata Donn ex D. Don) – two of the most common tree species in coastal and southern British Columbia, but each with a different nutrient amplitude. It has generally been found that acid, mycogeneous Mor humus forms develop in hemlock stands, while less acid and more zoogenous Mormoder, Moder, or even Mull humus forms develop in redcedar stands. The objective of this study was to determine the influence of hemlock and redcedar, growing separately and together, on forest floor nutrient properties. The questions addressed were: (1) does each stand type have unique forest floor nutrient properties? and (2) can any forest floor nutrient property discriminate between stand types?

Forest floor

Humus form

Mixed-species stands

Nutrient properties

Single-species stands

Site quality

Soil acidity

Soil nutrients

West coast hemlock

Western hemlock

Western redcedar

Carbon - nitrogen ratio

Calcium concentration

Factors Affecting Gaseous Mercury (Hg) Emissions from Soils: Insights from Disturbance due to Frest Harvesting and Hg Source Depth Manipulation

Mazur, Maxwell

05 December 2013

This thesis explored the impacts of forest harvesting on gaseous elemental mercury emissions from forest soils in both field and laboratory studies, through novel use of enriched mercury isotope tracers. Forest floor Hg emissions, sourced from legacy deposition, increased proportionally to the vegetation quantity removed, with biomass harvesting most exacerbating emissions. Contemporary Hg deposition did not appear to be influenced by harvesting. Some of the tracer was rapidly lost to the atmosphere (~8%), but most was sequestered within the soil. Two regimes facilitating Hg emissions were observed in low-light conditions. Under extremely dry conditions deeper Hg sources (> 2cm depth) were as equally susceptible to emission as shallower sources. Following wetting to field capacity, emissions were elevated only from shallow sources, likely as a result of upward capillary transport. Impacts of vegetation removal and dry fluxes are previously uncharacterized and may constitute large additional sources to regional atmospheric Hg cycling.

Mercury

Emission

Forest Harvesting

Soil

Isotope

Source Depth

Dry Flux

Soil Wetting

Flux

Wet Flux

Solar Radiation

Soil Moisture

Leaf Litter

Sequestration

ICP-MS

Tekran

Tracer

Enriched Mercury Isotope

Forest Floor

Deposition

Biomass Harvesting

Capillary Transport

Hg

Cycling

0368

Factors Affecting Gaseous Mercury (Hg) Emissions from Soils: Insights from Disturbance due to Frest Harvesting and Hg Source Depth Manipulation

Mazur, Maxwell

05 December 2013

This thesis explored the impacts of forest harvesting on gaseous elemental mercury emissions from forest soils in both field and laboratory studies, through novel use of enriched mercury isotope tracers. Forest floor Hg emissions, sourced from legacy deposition, increased proportionally to the vegetation quantity removed, with biomass harvesting most exacerbating emissions. Contemporary Hg deposition did not appear to be influenced by harvesting. Some of the tracer was rapidly lost to the atmosphere (~8%), but most was sequestered within the soil. Two regimes facilitating Hg emissions were observed in low-light conditions. Under extremely dry conditions deeper Hg sources (> 2cm depth) were as equally susceptible to emission as shallower sources. Following wetting to field capacity, emissions were elevated only from shallow sources, likely as a result of upward capillary transport. Impacts of vegetation removal and dry fluxes are previously uncharacterized and may constitute large additional sources to regional atmospheric Hg cycling.

Mercury

Emission

Forest Harvesting

Soil

Isotope

Source Depth

Dry Flux

Soil Wetting

Flux

Wet Flux

Solar Radiation

Soil Moisture

Leaf Litter

Sequestration

ICP-MS

Tekran

Tracer

Enriched Mercury Isotope

Forest Floor

Deposition

Biomass Harvesting

Capillary Transport

Hg

Cycling

0368

Ecology and Conservation Biology of the North American Wood Turtle (Glyptemys insculpta) in the Central Appalachians

Krichbaum, Steven P.

28 June 2018

No description available.

Animals

Ecology

Environmental Science

Forestry

Zoology

Wildlife Management

Wildlife Conservation

habitat selection

turtle population biology

program MARK

forest temperatures

turtle temperatures

forest floor humidity

forest herbaceous flora

tree importance values

Mechanisms of Carbon and Nitrogen transformations in Forest floors of Beech-, Spruce- and Mixed Beech-Spruce Stands / Mechanismen der Kohlenstoff- und Stickstoffumsetzungen in der Humusauflage der Buche-, Fichte- und Buchen-Fichten-Mischbeständen

Bagherzadeh Chaharjouee, Ali

16 February 2004

No description available.

Forest Sciences and Forest Ecology

Humusauflage

Fichte

Buche

CO2

N2O

C mineralisation

N mineralization

Nährstoff

Q10

microbielle biomasse

Sämlinge

15N

Nitrat

Ammonium

retention

630 Landwirtschaft

Veterinärmedizin

forest floor

spruce

beech

CO2

N2O

C mineralization

N mineralization

nutrient

Q10

microbial biomass

seedling

15N

nitrate

ammonium

retention

recovery

48.32

YPA 000: Forstliche Bodenkunde