Retrospective Epidemiological Analysis of Ohio Wildlife Disease Events from 2004 - 2017

Feinzig, Adam S.

January 2019

No description available.

Animal Diseases

Epidemiology

Wildlife Conservation

Geographic Information Science

wildlife diseases

wildlife disease events

WDE

EHD

CWD

WNS

epidemiology

AVC

Ohio

DEVELOPMENT OF AN ULTRA-WIDEBAND (UWB) PULSE GENERATOR AND PRINTED ANTENNA FOR CONCEALED WEAPONS DETECTION RADAR / DESIGNING A UWB GENERATOR AND ANTENNA FOR CWD RADAR

Eveleigh, Eric Andrew

January 2020

This thesis demonstrates the further development of an ultra-wideband (UWB) pulse generator and of an UWB antenna. Custom prototypes of these devices were initially developed for an ongoing research project. The project topic is a compact and portable concealed weapons detection (CWD) radar system to find objects such as firearms, knives, and grenades hidden on persons as they pass by. The system uses the UWB pulse generator as a transmitter, while the UWB antenna radiates the pulse and receives the corresponding backscatter from targets and other objects. Initial device prototypes do not perform adequately according to project specifications. A key specification is of adequate operation over the entire 0.5 GHz to 5 GHz frequency band, where adequate operation is defined distinctly for the antenna and pulse generator. In this work, empirical investigations of both devices are performed using techniques such as simulation, fabrication, and measurement. Through these investigations, the designs of the devices have been incrementally modified. Measured performance data suggest that the research has yielded designs with substantially improved bandwidth as a result. Bandwidth increases from 3.31 GHz to 4.36 GHz (31.7%) for the pulse generator and from 0.46 GHz to 4.98 GHz (983%) for the antenna are demonstrated. Future work is needed to establish the effects of fabrication tolerance, component tolerance, and human error on the variation of the observed device performance. / Thesis / Master of Applied Science (MASc) / This thesis is about the improvement of a radio antenna and a transmitter. These are ultimately intended as components in a system for detecting weapons (such as firearms, knives, etc.) concealed within the clothing or bags of nearby persons. The detection happens by transmitting specific radio signals which interact harmlessly with a person being scanned, and then are received back by the system. This is a form of radio detection and ranging (RADAR). The research on these devices has consisted of computer simulations and real-life measurements. As a result, it appears that the transmitter and radio antenna have been improved to be more suitable for the desired application than they were originally.

Electromagnetics

Antennas

Ultra-wideband (UWB) Technology

Radar

Microwaves

Concealed Weapons Detection (CWD)

Simulation

Fabrication

Engineering

Public Safety

Function and dynamics of woody debris in boreal forest streams

Dahlström, Niklas

January 2005

<p>The work in this thesis deals with (1) the effects of woody debris on stream channel morphology and retention of organic material, and (2) the dynamics of woody debris and its relation to riparian forest history and composition. The studied stream reaches are situated in mature, productive forests in the boreal zone of Sweden.</p><p>Wood variables were important predictors of the frequency of debris dams, pool area, the proportion of pools formed by wood, and variation in the bankfull channel width. Pools formed by woody debris were mainly created by damming and had larger surface areas and residual depths than pools formed by other agents. Stream reaches intersecting old-growth forest (with minor influence of forest management) had coarser and longer woody debris pieces, greater amounts of wood, more debris dams, and wood-formed pools compared to streams surrounded by forests influenced by selective logging.</p><p>The influence of past forest management on the quality and quantity of woody debris in streams were analyzed by using dendrochrnological methods. Selective loggings and absence of forest fires after 1831 resulted in lower input rates and a gradual replacement of pine by sruce over time. Residence times in stream channels of woody debris (>10 cm in basal diameter) were long and the oldest dated pieces of pine and spruce were over 300 and 100 years, respectively.</p><p>Dynamics of woody debris were explored by comparing wood volumes and characteristics between stream channels and their riparianforests and between old growth and managed sites. Wood volumes recorded in the stream channels exceeded, but were related to, the volumes found in the riparian forests. Limited input of woody debris by bank cutting and absence of slope processes suggest that recruitment processes of woody debri to stream channels are similar as in riparian forests and slow decay in channels results in greater volumes.</p><p>The retentiveness of organic material in stream channels was examined by using release and capture experiments in multiple reaces during varying discharges using different sizes of leaf mimics. Sixty eight percent of the variation in retention was explained by a multiple regression model including discharge and leaf mimic siz. Between 44 and 80% of the variation in retention among reaches was explained by channel constraint, gravel coverage, and woody debris variables as the most important. Estimates from a partial least squares (PLS) model suggest an increase in mean transport distances by 22 to 53% in managed forest streams compared to old growth conditions and in a low wood scenario, mean transport distances increased by 38 to 99% with larger increases for higher discharges and larger particle sizes.</p><p>To regain more pristine conditions of stream channels, management and restoration are needed to increase the amount of woody debris that recreates lost channel structures and increaes the retention of organic material.</p>

Ecology

Boreal forest

CPOM

CWD

forest management

geomorphology

LWD

riparian forest

retention

residence time

streams

Sweden

woody debris

Ekologi

Terrestisk, limnisk och marin ekologi

Function and dynamics of woody debris in boreal forest streams

Dahlström, Niklas

January 2005

The work in this thesis deals with (1) the effects of woody debris on stream channel morphology and retention of organic material, and (2) the dynamics of woody debris and its relation to riparian forest history and composition. The studied stream reaches are situated in mature, productive forests in the boreal zone of Sweden. Wood variables were important predictors of the frequency of debris dams, pool area, the proportion of pools formed by wood, and variation in the bankfull channel width. Pools formed by woody debris were mainly created by damming and had larger surface areas and residual depths than pools formed by other agents. Stream reaches intersecting old-growth forest (with minor influence of forest management) had coarser and longer woody debris pieces, greater amounts of wood, more debris dams, and wood-formed pools compared to streams surrounded by forests influenced by selective logging. The influence of past forest management on the quality and quantity of woody debris in streams were analyzed by using dendrochrnological methods. Selective loggings and absence of forest fires after 1831 resulted in lower input rates and a gradual replacement of pine by sruce over time. Residence times in stream channels of woody debris (&gt;10 cm in basal diameter) were long and the oldest dated pieces of pine and spruce were over 300 and 100 years, respectively. Dynamics of woody debris were explored by comparing wood volumes and characteristics between stream channels and their riparianforests and between old growth and managed sites. Wood volumes recorded in the stream channels exceeded, but were related to, the volumes found in the riparian forests. Limited input of woody debris by bank cutting and absence of slope processes suggest that recruitment processes of woody debri to stream channels are similar as in riparian forests and slow decay in channels results in greater volumes. The retentiveness of organic material in stream channels was examined by using release and capture experiments in multiple reaces during varying discharges using different sizes of leaf mimics. Sixty eight percent of the variation in retention was explained by a multiple regression model including discharge and leaf mimic siz. Between 44 and 80% of the variation in retention among reaches was explained by channel constraint, gravel coverage, and woody debris variables as the most important. Estimates from a partial least squares (PLS) model suggest an increase in mean transport distances by 22 to 53% in managed forest streams compared to old growth conditions and in a low wood scenario, mean transport distances increased by 38 to 99% with larger increases for higher discharges and larger particle sizes. To regain more pristine conditions of stream channels, management and restoration are needed to increase the amount of woody debris that recreates lost channel structures and increaes the retention of organic material.

Ecology

Boreal forest

CPOM

CWD

forest management

geomorphology

LWD

riparian forest

retention

residence time

streams

Sweden

woody debris

Ekologi

Terrestisk, limnisk och marin ekologi

Retained Woody Structure In 1-Year-Old Loblolly Pine Plantations In Mississippi, Louisiana, And Arkansas

Neu, Justin

09 December 2011

I evaluated effects of 4 common site preparation techniques on residual structure while comparing 2 techniques commonly used to estimate CWD volume in Southeast loblolly pine (Pinus taeda) commercial pine plantations in 2 ecoprovinces. The strip plot method (SPM) estimated greater volume than the line intercept method (LIM; 9.7 m3/ha and 11.4 m3/ha respectively). The SPM had lesser volume estimate variability and appears more appropriate for the Southeast. Mechanical sites had the greatest densities of green trees and fewest snag retention and overall were least decayed. Chemical preparation combinations had lesser green tree densities but greater snag densities. Piled CWD volumes were greatest in mechanical treatments and least in chemical plus burn treatments. The Outer Coastal Plain Mixed Forest Ecoprovince had 20% less volume than the Southeastern Mixed Forest Ecoprovince. Chemical plus burn site preparations had the least densities of remnant trees, snags, piled and individual CWD pieces.

Site prepertion

mechanical site preperation

chemical site preperation

broadcast burning

FSC

SFI

CWD

clearcut

habitat

green tree

snags

coarse woody debris

Bryophyte Community Response to Prescribed Fire and Thinning in Mixed-Oak Forests of the Unglaciated Allegheny Plateau

Wiley, John J., Jr.

17 June 2013

No description available.

Botany

Conservation

Ecology

Environmental Science

Environmental Studies

Experiments

Forestry

Plant Biology

Plant Sciences

Statistics

bryophyte

forest

fire

thinning

oak

ANOVA

substrate

CWD

moisture

Ohio

Biodiversity in fragmented boreal forests : assessing the past, the present and the future

Berglund, Håkan

January 2004

<p>The aims of this thesis are to (1) analyze the predictability (indicators) of plant and fungal species diversity in old-growth forests, and (2) assess the history and biodiversity of woodland key habitats (WKHs) and their potential to maintain species diversity in fragmented boreal forest landscapes. </p><p>Predictability was explored in Granlandet nature reserve, an unexploited landscape composed of discrete old-growth Picea forest patches of varying size isolated by wetland, reflecting conditions of insular biota at stochastic equilibrium. Data from 46 patches (0.2-12 ha) showed that most species were rare. However, species richness and composition patterns exhibited a high degree of predictability, which strengthen the possibility to apply biodiversity indicators in old-growth forest stands. Area was a key factor. The increase in species richness starts to level out at 2-3 ha. Large patches host more Red-list species in their interiors than do small ones, i.e. stand size is an important qualitative aspect of old-growth habitat. Nestedness emerged in relation to area but also in equal-sized plots. Structural complexity and habitat quality were important for species richness and compositional patterns, and small habitats of high quality could harbor many rare species. Monitoring of wood-fungi on downed logs showed that species diversity on downed logs changed over periods of 5-10 years and that the occurrences of annual species were unpredictable. It is suggested that monitoring of species with durable fruit bodies (mainly polypores) is likely to be a feasible approach to obtain comparable data over time.</p><p>Assessments of biodiversity of WKHs were performed in two areas with contrasting histories of forest exploitation, namely in south boreal and north boreal Sweden. Analyses of the history of 15 south boreal WKHs showed that fire-suppression, selective logging until mid-20th century and abandonment by modern forestry has shaped their forest structure. These WKHs are not untouched forests, they lack key structural components and harbor few Red-list species. Artificial interventions to restore natural processes and patterns are needed to further increase their suitability for threatned species. Modeling analyses of species richness in 32 WKHs in north boreal Sweden, some of which have not been isolated by modern forestry until recently, indicated an excess of crustose lichen species, i.e. WKHs may face delayed species extinctions. By contrast, the results indicate that wood-fungi have tracked the environmental changes. Differences in substrate dynamics between epiphytes on living trees and species growing on decaying logs may explain the diffeence between species groups. The results indicate that population densities of Red-list species were low, which may result in further depletion of species diversity.</p><p>Continuing species declines and extinctions are likely if not conservation of WKHs are combined with other considerations in th managed forest landscape. Both WKHs and their surroundings must be managed and designed to maintain biodiversity over time. For a successful future conservation of boreal forest biodiversity monitoring of WKHs must be combined with monitoring of refeence areas. </p>

Ecology

bryophytes

CWD

edge effects

fragmentation

fungi

habitat destruction

historical records

indicator

lichens

regression

species-area relationship

value pyramids

woody debris

Ekologi

Terrestisk, limnisk och marin ekologi

Biodiversity in fragmented boreal forests : assessing the past, the present and the future

Berglund, Håkan

January 2004

The aims of this thesis are to (1) analyze the predictability (indicators) of plant and fungal species diversity in old-growth forests, and (2) assess the history and biodiversity of woodland key habitats (WKHs) and their potential to maintain species diversity in fragmented boreal forest landscapes. Predictability was explored in Granlandet nature reserve, an unexploited landscape composed of discrete old-growth Picea forest patches of varying size isolated by wetland, reflecting conditions of insular biota at stochastic equilibrium. Data from 46 patches (0.2-12 ha) showed that most species were rare. However, species richness and composition patterns exhibited a high degree of predictability, which strengthen the possibility to apply biodiversity indicators in old-growth forest stands. Area was a key factor. The increase in species richness starts to level out at 2-3 ha. Large patches host more Red-list species in their interiors than do small ones, i.e. stand size is an important qualitative aspect of old-growth habitat. Nestedness emerged in relation to area but also in equal-sized plots. Structural complexity and habitat quality were important for species richness and compositional patterns, and small habitats of high quality could harbor many rare species. Monitoring of wood-fungi on downed logs showed that species diversity on downed logs changed over periods of 5-10 years and that the occurrences of annual species were unpredictable. It is suggested that monitoring of species with durable fruit bodies (mainly polypores) is likely to be a feasible approach to obtain comparable data over time. Assessments of biodiversity of WKHs were performed in two areas with contrasting histories of forest exploitation, namely in south boreal and north boreal Sweden. Analyses of the history of 15 south boreal WKHs showed that fire-suppression, selective logging until mid-20th century and abandonment by modern forestry has shaped their forest structure. These WKHs are not untouched forests, they lack key structural components and harbor few Red-list species. Artificial interventions to restore natural processes and patterns are needed to further increase their suitability for threatned species. Modeling analyses of species richness in 32 WKHs in north boreal Sweden, some of which have not been isolated by modern forestry until recently, indicated an excess of crustose lichen species, i.e. WKHs may face delayed species extinctions. By contrast, the results indicate that wood-fungi have tracked the environmental changes. Differences in substrate dynamics between epiphytes on living trees and species growing on decaying logs may explain the diffeence between species groups. The results indicate that population densities of Red-list species were low, which may result in further depletion of species diversity. Continuing species declines and extinctions are likely if not conservation of WKHs are combined with other considerations in th managed forest landscape. Both WKHs and their surroundings must be managed and designed to maintain biodiversity over time. For a successful future conservation of boreal forest biodiversity monitoring of WKHs must be combined with monitoring of refeence areas.

Ecology

bryophytes

CWD

edge effects

fragmentation

fungi

habitat destruction

historical records

indicator

lichens

regression

species-area relationship

value pyramids

woody debris

Ekologi

Terrestisk, limnisk och marin ekologi

Estimating Chronic Wasting Disease infectivity in cell culture / Untersuchungen zur Infektiösität von Chronic Wasting Disease (CWD) in Zellkultur

Schmädicke, Ann-Christin

02 November 2011

No description available.

570 Biowissenschaften, Biologie

Medicine

Neurodegeneration

CWD

Chronische Auszehrkrankheit

Speziesbarriere

Prion

PrPSc;Scrapie

Transduktion

neurodegeneration

CWD

Chronic Wasting disease

species barrier

prion

PrPSc

scrapie

transduction

42.13

42.15

44.43

44.75

46.52

MED 289

WF 400: Gentechnologie