Potential Forest Regeneration in Western New York State Green Ash Stands Depleted by Emerald Ash Borer Invasion

Coupland, Abagail L.

07 August 2023

No description available.

Biology

Macroecology

Plant Biology

Emerald Ash Borer

Green Ash

Species Invasion

Forest Recovery

Direct and Indirect Impacts of Emerald Ash Borer on Forest Bird Communities

Long, Lawrence C.

24 October 2013

No description available.

Entomology

Ecology

invasive species

ash

emerald ash borer

ecological impacts

community composition

birds

woodpeckers

INVESTIGATIONS INTO MECHANISMS OF ASH RESISTANCE TO THE EMERALD ASH BORER

Whitehill, Justin G. A.

27 July 2011

No description available.

Plant Pathology

emerald ash borer

tree

Fraxinus

plant-insect interactions

proteomics

metabolomics

resistance

plant defense

The Population and Behavioral Response of Woodpeckers to the Emerald Ash Borer Invasion

Herman, Maria G.

09 September 2010

No description available.

Animals

Biology

Ecology

Environmental Science

Woodpeckers

emerald ash borer beetle

invasive species

How will EAB change our forests? : predicting forest canopy gaps using GIS / How will emerald ash borer change our forests

Schuck, Stephanie L.

04 May 2013

Invasive plants, animals, insects, and pathogens are a significant problem for land managers and conservationists as they can cause irreparable damage to local ecosystems. The emerald ash borer (EAB), an invasive beetle from China, was discovered in the U.S. in 2002, and has decimated ash populations throughout Michigan. It continues to move through Midwestern and some eastern states, usually killing a tree within 2-4 years of infection. Using a Global Positioning System (GPS) and Geographic Information System (GIS), all trees ≥ 45 cm and all ash ≥ 30 cm in diameter were measured and mapped within a 160 acre old-growth deciduous forest in northern Indiana. EAB was detected in 14 trees throughout the forest. A canopy map was generated, estimating 6.6 percent canopy loss due to EAB. Because of this research, the entire spread of EAB within this forest can now be documented and mapped. The methodological framework used in this research can assist land managers and property owners monitor their land by enabling them to: track changes in tree health more accurately; assess damage by creating forest inventory and canopy maps; and model potential damage over time. / Department of Natural Resources and Environmental Management

Emerald ash borer -- Indiana

Ginn Woods (Ind.)

Geochemical Characterization of Soils in Wooded Uplands in Northwest Ohio: Implications of Emerald Ash Borer Infestation on Soil Health

Wyderka, Melissa Ellen

17 August 2020

No description available.

Geology

Organic Chemistry

Environmental Science

Biogeochemistry

Geochemistry

Soil Sciences

Sustainability

Forestry

Geochemical characterization

soil health

Ash

Emerald Ash Borer

<strong>FOREST RESPONSE FOLLOWING THE LOSS OF ASH</strong>

Madison Elizabeth Beckstedt (16624320)

20 July 2023

<p>This study is part of an ongoing project established in 2007 as an emerald ash borer (<em>Agrilus planipennis</em>) trapping study. The primary objective of this thesis was to assess how forests have changed following the loss of ash over a 15-year period, from 2007 to 2022. The study aimed to answer three key questions: 1) How has the loss of ash affected the regeneration and recruitment patterns of ash and other tree species? 2) Which specific species are driving forest regeneration and recruitment in the absence of ash? 3) Can the data be used to predict future changes in forest composition following the loss of ash? To achieve these objectives, I conducted analyses of 44 forests representing 19 different forest types in Indiana, Michigan, and Ohio. Forest composition was examined at the overstory, midstory and understory levels to capture the overall impact of ash loss on forest regeneration and succession. Despite the decline or total loss in overstory ash, ash regeneration continued at most sites from 2017 to 2022. However, ash regeneration was not observed at 15 sites, and competition from established shade-tolerant species, such as red maple and American elm, was identified as a primary factor hindering ash recruitment. The loss of ash did not lead to significant changes in forest types. Forest types at all sites remained stable, with only minor shifts in dominant species. Tree species that were already present in the overstory filled the space left by the lost ash, thereby maintaining the existing forest types. In terms of driving species, my findings demonstrated a rapid increase in red maple dominance across all sites, particularly in the absence of ash. Red maple exhibited vigorous growth, suggesting it plays a crucial role in shaping future forest composition following ash loss. Other species, including black cherry, American elm, and American basswood, also contributed to forest regeneration, with some sites showing a shift toward a higher abundance of these species. Although the loss of ash has led to changes in forest composition, existing species have shown resilience and adaptability in filling the niche left by the lost genus. The long-term effects of emerald ash borer infestation on forest ecosystems are complex and multifaceted. This study provides insights into the regeneration and recruitment patterns of ash and other tree species following ash loss. The data suggest that while forests have experienced loss of ash, the remaining understory and midstory individuals of this species may contribute to future overstory recruitment. Furthermore, the dominance of red maple highlights its potential as a key driver of forest composition in the wake of ash loss. </p>

Landscape ecology

Emerald Ash Borer

Forest succession

Fraxinus americana

Fraxinus pennsylvanica

Fraxinus nigra

Conserving Ash (Fraxinus) Populations and Genetic Variation in Forests Invaded by Emerald Ash Borer Using Large-scale Insecticide Applications

O'Brien, Erin M.

21 September 2017

No description available.

Entomology

Ecology

Emerald ash borer

Large-scale insecticide management

Invasive forest pests

Genetic variation

Ash regeneration

Associational protection

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

Forest Responses to Emerald Ash Borer-Induced Ash Mortality

Klooster, Wendy S.

08 August 2012

No description available.

Biology

Botany

Conservation

Ecology

Forestry

emerald ash borer

forest dynamics

invasive plants

leaf litter

hemispherical photographs

plant community composition