Abstract
The introduction of the Asian gypsy moth into novel environments continues with frequent interceptions in North America. There is a concern that these subspecies will pose a greater threat to the forests and urban environments of North America than the established gypsy moths (Lymantria dispardispar L.), due to their greater capacity for female flight. Asian gypsy moth populations vary in many key traits, including female flight capabilities. The potential impacts of female flight, in combination with the other key traits, on the ecology and spread of this insect are first discussed in this communication. This also provides the first review of most of the current literature on the variations in flight capability and flight distance of gypsy moth populations, as well as variation in other traits of concern and the potential methods of identification, with special attention paid to the Asian subspecies Lymantria dispar japonica Motschulsky and Lymantria dispar asiatica Vinkovskij. There are currently good tools for identifying the general origin of introduced gypsy moth populations, but these do not provide enough information to effectively manage introductions. Gypsy moth key traits differ among populations, even within each subspecies of the gypsy moth, so introduction of gypsy moths from other world areas into locations where the gypsy moth is already present could result in unwanted changes in gypsy moth biology. It also appears that the introduction of flight-capable females could enhance a population’s dispersal capability and require modifications to management protocols used for flightless females. Therefore, rapid tools to assess key traits in introduced populations are needed to adequately plan for, or deal with, new introductions into novel habitats.
Highlights
The gypsy moth, Lymantria dispar (Lepidoptera: Lymantriidae), is a forest insect capable of causing severe harm to ecosystems and individual trees through repeated defoliation [1,2] and is responsible for substantial economic losses caused by subsequent damage [2]
While only 2% of the Russian–North American crosses were able to fly within this study, a separate investigation found that 8% of captive hybrid females were able to attain sustained flight if they were fed foliage, while no hybrids were flight-capable when reared on an artificial diet [58]
There is a suite of traits that are of concern because of how they impact the establishment and dispersal potential of gypsy moth populations, including female flight capability, host utilization, and egg chill requirements
Summary
The gypsy moth, Lymantria dispar (Lepidoptera: Lymantriidae), is a forest insect capable of causing severe harm to ecosystems and individual trees through repeated defoliation [1,2] and is responsible for substantial economic losses caused by subsequent damage [2]. Mate-finding failures, as a source of Allee effect, are an important factor determining the spread and establishment of gypsy moths in flightless female populations of North. Various authors have used phenology (Gypsy Moth Life Stage model) and climate matching models (MaxEnt) to assess the establishment probability of gypsy moths [31,47] These studies show that the potential southern margin of gypsy moth spread in the USA will be limited by insufficient chilling that terminates diapause, while exposure to extreme cold temperatures will result in egg mortality in the northern regions of North America [48]. This agrees with research by Charlton et al [55] that found female gypsy moth flight to begin when light intensity falls below 2 lux
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