Synchrony with host leaf emergence as a component of population dynamics in lepidopteran folivores

Hunter, Alison F. (Alison Fiona)

January 1991

No description available.

Gypsy moth -- Food.

Gypsy moth -- Host plants.

Insect-plant relationships.

Hardwoods -- Diseases and pests.

Effectiveness of Grid Systems for Pheromone-Trapping Sparse Gypsy Moth Populations in Mountainous Terrain in the Intermountain West

Keyes, Colleen

01 May 1997

Two field experiments determined an effective intertrap distance (ITD) for early detection and delimitation sparse gypsy moth (Lepidoptera: Lymantriidae, Lymantria dispar L.) populations in mountainous terrain. This study found that current Animal and Plant Health Inspection Service trapping guidelines are not sufficient for early detection of small gypsy moth populations in mountainous terrain. Detection trapping in mountainous terrain should have an ITD of not more than 804 m. Delimiting trapping should use a grid design with an ITD of 152 m. A related study determined natural adult male mortality in the climate of the intermountain West, which includes Utah, Nevada, western Wyoming, and southern Idaho. An interaction was found between mortality, temperature, and humidity. During high temperatures, most mortality occurred on the second day. When lower temperatures prevailed, the largest percent mortality occurred on the third or fourth day.

Grid Systems

Pheromone Trapping

Gypsy Moth

Intermountain West

Forest Sciences

The effect of selected forest defoliators on mortality rates and crown conditions in hardwood stands on the Allegheny National Forest

Morin, Randall S.

January 1900

Thesis (M.S.)--West Virginia University, 2002. / Title from document title page. Document formatted into pages; contains vii, 109 p. : ill. (some col.), maps (some col.). Includes abstract. Includes bibliographical references (p. 44-50).

The relationships between snags and cavity-nesting birds in a gypsy moth impacted forest

Showalter, Christopher Ryan.

January 2000

Thesis (M.S.)--West Virginia University, 2000. / Title from document title page. Document formatted into pages; contains vii, 59 p. : ill. (some col.), maps. Vita. Includes abstract. Includes bibliographical references (p. 23-28).

Identification of Gypsy Moth Defoliation in Ohio Using Landsat Data

Hurley, Angela Lorraine

31 July 2003

No description available.

Geology

remote sensing

gypsy moth

vegetation change

Landsat

change detection

Quantification and use of pheromone-baited milk-carton traps to monitor gypsy moth populations

Carter, Mark Robert

11 May 2006

The goal of this research was to improve the understanding of the dynamics of male gypsy moth-pheromone trap interactions and the ecological factors that influence moth capture in pheromone traps. Defoliation, the most obvious expression of high density gypsy moth populations, may have a significant influence on gypsy moth population dynamics. This research focused on the use of defoliation and defoliation related processes to study moth capture in pheromone traps. Male moth wing length was found to decrease substantially only when defoliation exceeded a threshold level of ca. 40%, resulting in moths with either large or small wings. Moth wing length, determined from moths captured in intensively monitored traps, was found to accurately estimate whether or not defoliation exceeded ca. 40% in the vicinity of the trap. However, for traps serviced less intensively, male wing length provided a poor estimate of defoliation. Larval development (using degree-days as a physiological measure of time) in sixteen plots was not altered as a result of varying levels of defoliation, but pupal phenology was significantly influenced by the level of defoliation . Despite distinct differences in pupal phenology, there were no differences in male moth capture over time in pheromone traps attributable to defoliation. A broad relationship between the number of moths captured and egg mass density was developed. The spatial and temporal characteristics of gypsy moth populations were examined using a combination of field studies and defoliation maps. This information, in conjunction with data on wing length and the relationship between moths per trap and egg mass density, was used to develop an algorithm to interpret moth capture in pheromone traps to monitor gypsy moth populations. / Ph. D.

LD5655.V856 1991.C387

Gypsy moth -- Research

Pheromones -- Research

Gypsy moth egg development: a model of phenological events

Gray, David Richard

01 February 2006

A phenological model of gypsy moth egg development is proposed that distinguishes three phases of egg development, prediapause, diapause and postdiapause. A technique of measuring respiration rates of individual eggs was developed and respiration rate was used as a physiological variable to distinguish the phases. The pattern of respiration rate provided strong evidence in support of three distinct developmental phases. Respiration rate developed embryos declined sharply as prediapause was entered and rose sharply when diapause was completed. When the effect of age on respiration rate was removed, temperature had a uniform effect on respiration rate throughout the egg stage. A 10°C decrease in temperature caused an approximate 0.4 fold decrease in respiration rate, indicating that eggs in diapause are as equally responsive to temperature as egg in a nondiapause phase. Developmental rate in prediapause was strongly temperature-dependent, and the relationship was described by a non-linear function. Prediapause duration was approximately 13 days at 31°C. The depletion of stored triglycerides was strongly linked to the completion of prediapause. Developmental rate in postdiapause was found to be temperature- and age-dependent. Developmental response to temperature was relatively weak and linear at the onset of postdiapause. As postdiapause advanced, the response became stronger and non-linear. The temperature- and age-dependent developmental response was fully described by the temperature-dependent developmental response at the onset of postdiapause, and by a temperature-dependent rate change parameter. / Ph. D.

LD5655.V856 1994.G739

Gypsy moth -- Eggs

Phenology

Short-term effects of defoliation by gypsy moth larvae on Appalachian headwater streams in Virginia

Marshall, Brett Douglas

02 May 2009

This field study investigated the short-term effects of riparian defoliation by gypsy moth larvae on three aspects of headwater stream ecology, water quality, benthic macroinvertebrate community structure, and benthic macroinvertebrate function (expressed as secondary production). The experimental design was to compare measurements in three streams that were extensively defoliated by gypsy moth larvae (defoliated treatment), with three streams that were not affected by gypsy moth larvae (reference treatment). Although the riparian canopy became much more open after defoliation, I observed no significant differences in any water quality parameters except temperature, which was slightly elevated for a brief period after defoliation. There was a significant increase in the amount of detritus (frass and orts) falling into defoliated streams in the spring, which was followed by a significant decrease in the of amount detritus falling into defoliated streams in autumn. Many measures of community structure were analyzed, but only the Index of Biotic Similarity demonstrated a significant difference, indicating that, at most, only slight changes in community structure occurred. Secondary production of two representative aquatic insects, Peltoperlidae (shredder) and Diplectrona modesta (collectorfilterer), was not affected by defoliation. Glossosoma nigrior (scraper) achieved higher production because of a second-generation being induced by elevated temperature. I conclude that the short-term effects of riparian defoliation by gypsy moth larvae were minor. / Master of Science

LD5655.V855 1994.M3448

Defoliation

Gypsy moth -- Larvae

Stream ecology

Egg mass sampling plans for gypsy moth management programs

Carter, Jane Louise

10 June 2009

The goal of this research was to develop gypsy moth egg mass sampling plans that reflect the influence of habitat, changes in egg mass distribution, and provide populations densities or density categories for making control decisions. Sequential egg mass sampling plans for gypsy moth management programs in urban and suburban habitats were developed from 0.01 ha fixed-radius plot samples collected in Loudoun, Fairfax, and Arlington Counties, Virginia. The sampling plans were develop from Wald's sequential probability ratio test and is based on a negative binomial distribution. Operating characteristic and average sample number curves were used to determine the acceptability of the sampling plans. Three sampling plans were developed for the action thresholds of 618, 1,236, and 2,471 egg masses/ha. The use of binomial sampling for low density (<618 egg masses/ha) gypsy moth populations in continuously forested habitats was examined. Fixed- and variable-radius plot egg mass samples were collected in 28 study areas in Virginia, Maryland, and Massachusetts. The relationship between egg mass density and the proportion of trees with zero egg masses was developed. Binomial sampling resulted in a higher relative variability and lower relative efficiency than the fixed- and variable-radius plot sampling method. Binomial sampling was determined not to be an effective sampling method for gypsy moth populations below 618 egg masses/ha. Fixed- and variable-radius plot egg mass samples were taken when leaves were present (summer) and absent (winter) in 136 sample sites in Virginia. A significant difference between summer and winter counts was determined. The relationship between summer and winter counts was quantified using nonparametric Statistics. Winter egg mass counts were found to be 14 to 34 percent higher than summer egg mass counts . The probability of a summer egg mass count exceeding an action threshold was constructed by fitting a logistic curve to empirical data for the action thresholds of 618 and 1,236 egg masses/ha. Egg mass counts need to compensate for differences between summer and winter counts. Alternatively, the probability of a summer egg mass count exceeding an action threshold should be utilized. / Master of Science

LD5655.V855 1992.C3775

Egg cases (Zoology)

Gypsy moth

Indirect effects between deer, mice, and the gypsy moth in a forest community

Wojcikiewicz, John

30 April 2014

White-tailed deer are ecosystem engineers that dramatically alter forest understory vegetation. Consequently, deer can impact many species in a forest through both direct and indirect effects. One species that deer may indirectly affect is the gypsy moth, whose pupae are preyed upon by the white-footed mouse. Through alterations to understory habitat of mice, deer may reduce mouse predation on gypsy moth pupae. In this study, I tested for indirect effects of deer on the gypsy moth by comparing mouse abundance, vegetation properties, and predation on pupae inside, and outside, of long-term deer exclosures. Overall, I did not find evidence for indirect effects of deer on the gypsy moth. There was little effect of the exclosures on mouse abundance, predation rates, and habitat measures. High mouse abundances, which likely resulted from a large acorn mast the previous year, may be obscuring indirect effects that would be detected at lower mouse abundances.

Indirect effects

white-tailed deer

gypsy moth

white-footed mouse

forest ecology

Biology

Life Sciences