Resistance surface modeling of the spongy moth, Lymantria dispar (Lepidoptera: Erebidae) along the invasion front

Laura Nicole Sutherland (12476982)

28 April 2022

<p>  </p> <p>Invasive species are a prominent problem throughout the world due to the high economic and ecological impact they have on environments. The spongy moth, <em>Lymantria dispar</em>, is a well-known and intensely studied invasive species within the United States because of the high environmental (<em>e.g.</em>, defoliation) and economic (<em>e.g.</em>, management efforts) costs. Originally introduced in Massachusetts in 1869 their range now covers much of the Northeast and Midwest, with the potential to disperse much further. </p> <p><br></p> <p>The goal of this study is to determine how the landscape has influenced <em>L. dispar</em>’s invasion rate through least-cost resistance modeling. Resistance modeling is a technique that combines the biology of <em>L. dispar </em>and landscape connectivity to potentially explain the invasion rate. Landscape connectivity has varying effects on invasion dynamics depending on the spatial scale. Monitoring efforts for <em>L. dispar</em> have occurred at a small spatial scale throughout the entire range for many years, which now provides the opportunity to look at invasion dynamics at small spatial scales. Identifying the landscape’s influence on invasion dynamics at these scales can assist in targeting management efforts to areas that have a high likelihood of being invaded soon based on the landscape connectivity within the area. This targeted management strategy can potentially help to slow <em>L. dispar</em>’s establishment and dispersal ability and reduce management and monitoring costs.</p>

Uncategorized

resistance surface

modeling

spongy moth

Analysis of Morphology and Fauna of Geometrinae (Lepidoptera: Geometridae) of the Caribbean Region

Plotkin, David M

14 December 2013

The Geometrinae, commonly known as emerald moths, are a diverse group of Lepidoptera with over 450 Neotropical species. However, Caribbean Geometrinae have received relatively little attention compared to the Geometrinae of mainland Central and South America. Using the method of Lee and Brown (2006), whole body mounts of descaled specimens of both Caribbean and mainland Neotropical Geometrinae were prepared. Morphological variation of exo- and endoskeletal characters among species, genera, and tribes of Neotropical Geometrinae is described. A faunistic study of Caribbean Geometrinae was also conducted using material from museums and private collections. The study includes definitions of species of Caribbean Geometrinae, descriptions of new species, and illustrations of adult imagos, genitalia, and other external characters. A key to the species of Caribbean Geometrinae is also provided.

moth

Lepidoptera

Geometridae

Neotropical

Caribbean

Geometrinae

Host habitat influences on oviposition by Parasetigena silvestris (R-D), a tachinid parasite of the gypsy moth.

Harrington, Eugene Arthur

01 January 1977

No description available.

Gypsy moth

Host-parasite relationships

Parasetigena silvestris.

Physiological control of calling, pheromone release, and pheromone production in the female gypsy moth, Lymantria dispar.

Tang, Juliet D.

01 January 1986

No description available.

Gypsy moth

Insect sex attractants

Pheromones.

Studies on the population dynamics of the winter moth, Operophtera brumata (L.) (Lepidoptera: geometridae) in Nova Scotia /

Embree, Douglas Gordon

January 1961

No description available.

Biology

Winter moth

Insect populations

Insects

The influence of oleoresin on southern pine injury by Rhyacionia (Lepidoptera, Olethreutidae) /

Yates, Harry Orbell

January 1964

No description available.

Biology

Oleoresins

Pine

Pine-moth

Forest insects

On the source and nature of bactericidal factors in the hemolymph of normal and immune wax moth larvae, Galleria mellonella (L.) /

Hink, W. F.

January 1966

No description available.

Biology

Greater wax moth

Insect pests

The activation and inhibition of phenoloxidase in immunized Galleria mellonella (L.) larvae /

Pye, Albert Edward

January 1974

No description available.

Biology

Greater wax moth

Phenol oxidase

Experimental studies of a granulosis virus in populations of the codling moth, Laspeyresia pomonella (L.) (Lepidoptera: olethreutidae) /

Sheppard, Roger Floyd

January 1976

No description available.

Biology

Codling moth

Lepidoptera

Granulosis virus

Mating Success in Low-Density Gypsy Moth Populations

Tcheslavskaia, Ksenia Sergeyevna

27 June 2003

Field studies were conducted to evaluate the effect of mating disruption on the mating success of the gypsy moth, Lymantria dispar (L), in low-density populations. The gypsy moth is an insect pest of hardwood forests in many regions of the world. The discovery of the sex pheromone disparlure (cis-7,8-epoxy-2-methyloctadecane) produced by females marked the start of a new era in the control and management of gypsy moth populations. Sex pheromones, like disparlure, have been used for detecting new populations, monitoring the spread of populations and for population control based on the disruption of mating communication. Although mating disruption has been used against populations of insect pests in agricultural and forest systems, considerable information about the use of this method for managing gypsy moths is still lacking. Studies, therefore, were designed and carried out specifically to improve current understanding of the mechanism of mating success, to evaluate existing techniques for mating disruption, and to develop methods that would improve the application of pheromone used for mating disruption so as to reduce the costs associated with the use of this management tactic. The first study was conducted to compare the mating success and mortality of gypsy moth females in low-density populations in Virginia and Wisconsin because of differences, which have been observed in the population dynamics and the impact of management strategies between these two states. The results suggested that the higher rate of population spread in Wisconsin might be due to the increased mating success of females compared with Virginia, which may be due in part to increased long-distance dispersal of males and increased longevity of females. The effect of artificial pheromone applied at various doses and formulations on mating success in low-density gypsy moth populations also was studied. Dose-response relationships were obtained for pheromone doses ranging from 0.15 to 75 g a.i./ha. The doses of 37.5 and 15 g a.i./ha of pheromone were shown to effectively disrupt mating and, therefore, have been recommended for operational use. The results also showed that the disruption of mating and attraction of males to pheromone-baited traps as a result of application of pheromone formulated in plastic flakes (Disrupt® II, Hercon Environmental, Emigsville, PA) was stronger and lasted longer than for the pheromone formulated as microcapsule (3M Canada Co., London, Ontario, Canada) and in liquid (Shin-Etsu Chemical Co. Ltd, Tokyo, Japan). Another study was carried out to improve the use and efficacy of the pheromone for mating disruption by reducing the amount of pheromone that was sprayed and the flight distance during aerial application. This study showed that in mountainous landscapes the effect of disparlure along the valley between mountains could be observed at a larger distance (633 ± 63 m) from the treated area than across the valley (104 ± 22m). In a relatively flat area, the effective distance for mating disruption was similar to the effective distance across the valley in a mountainous area (67 ± 17m). These dispersal characteristics of the pheromone provided further evidence that it could be used effectively in mating disruption treatments. Finally, a portable Electroantennogram (EAG) device was evaluated for its ability to detect disparlure sprayed for mating disruption in gypsy moth populations. The study found no relationship between the dose of artificial airborne pheromone and response of gypsy moth antenna as measured by the voltage ratio. The inability to detect differences between airborne pheromone concentrations in the plots treated for mating disruption might have been due to high variability among antennae and also by the inability of the EAG device to detect the low concentration of airborne pheromone used operationally for mating disruption. Further studies are required to improve the sensitivity of the portable EAG device before it can be recommended for use in the field. / Ph. D.

pheromone concentration

electroantennogram

mating disruption

gypsy moth