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The Taxonomy of the genus Lymantria Hübner [1819]: Lepidoptera: Lymantriidae)
Abstract
A review of the genus Lymantria HÜBNER, [1819] and its species results in the genus being divided
into 12 subgenera, 9 of these introduced and described here as new. A total of 167 species of Lymantria are now
known. All species except of three species incertae sedis are illustrated in colour and presented with male
genitalia. Distribution maps arc given for the Asian species. The present paper includes 22 cases of new
synonymy, 17 changes in the status, and 31 new combinations. 42 species and 23 subspecies are described as new
to science. One each neotype and lectotype are designated.
Rindos and Leibhold introduce the invasive pest, the spongy moth.
Changes in grain trading between Russian Far Eastern ports and North America in the late 1980s and early 1990s led to introductions of Lymantria dispar asiatica (Vnukovskij), formerly called the Asian gypsy moth (AGM), and the recognition of a new pathway for its transport. Unlike the pathways commonly used and regulated for commodities and for packaging material containing pest organisms, this presented a unique pathway for AGM. Vessels departing from the Russia Far East transiting to ports on the west coast of the United States (US) and Canada (CA) were infested with life stages of AGM and related species. Upon arrival in North America, eggs oviposited on the surfaces of the ships and its cargo hatched with larvae ballooning to vegetation surrounding port areas leading to the potential establishment of AGM populations. A multi layered monitoring and inspection program was developed to mitigate this risk of introduction, initially for Russian Far Eastern ports, and eventually to include specified areas of other Asian countries. In this article, we summarize and review the integral parts of this mitigation program, which include: risk assessments, AGM monitoring in foreign and domestic ports, vessel cleaning and certification by a government Plant Protection Organization (PPO) or its proxy, AGM surveillance, and eradication of introduced AGM in ports and other areas within the United States and Canada. The uniqueness of this program is characterized by its complexity, which involves coordinated efforts of PPOs, the use of various inspection organizations, and the support of ocean transportation industries.
The gypsy moth, Lymantria dispar, a prominent polyphagous species native to Eurasia, causes severe impacts in deciduous forests during irregular periodical outbreaks. This study aimed to describe the genetic structure and diversity among European gypsy moth populations. Analysis of about 500 individuals using a partial region of the mitochondrial COI gene, L. dispar was characterized by low genetic diversity, limited population structure, and strong evidence that all extant haplogroups arose via a single Holocene population expansion event. Overall 60 haplotypes connected to a single parsimony network were detected and genetic diversity was highest for the coastal populations Croatia, Italy, and France, while lowest in continental populations. Phylogenetic reconstruction resulted in three groups that were geographically located in Central Europe, Dinaric Alps, and the Balkan Peninsula. In addition to recent events, the genetic structure reflects strong gene flow and the ability of gypsy moth to feed on about 400 deciduous and conifer species. Distinct genetic groups were detected in populations from Georgia. This remote population exhibited haplotypes intermediate to the European L. dispar dispar, Asian L. dispar asiatica, and L. dispar japonica clusters, highlighting this area as a possible hybridization zone of this species for future studies applying genomic approaches.
We analyzed the population genetic structure and demographic history of 20 Lymantria dispar populations from Far East Asia using microsatellite loci and mitochondrial genes. In the microsatellite analysis, the genetic distances based on pairwise FST values ranged from 0.0087 to 0.1171. A NeighborNet network based on pairwise FST genetic distances showed that the 20 regional populations were divided into five groups. Bayesian clustering analysis (K = 3) demonstrated the same groupings. The populations in the Korean Peninsula and adjacent regions, in particular, showed a mixed genetic pattern. In the mitochondrial genetic analysis based on 98 haplotypes, the median-joining network exhibited a star shape that was focused on three high-frequency haplotypes (Haplotype 1: central Korea and adjacent regions, Group 1; Haplotype 37: southern Korea, Group 2; and Haplotype 90: Hokkaido area, Group 3) connected by low-frequency haplotypes. The mismatch distribution dividing the three groups was unimodal. In the neutral test, Tajima's D and Fu's FS tests were negative. We can thus infer that the Far East Asian populations of L. dispar underwent a sudden population expansion. Based on the age expansion parameter, the expansion time was inferred to be approximately 53,652 years before present (ybp) for Group 1, approximately 65,043 ybp for Group 2, and approximately 76,086 ybp for Group 3. We propose that the mixed genetic pattern of the inland populations of Far East Asia is due to these expansions and that the inland populations of the region should be treated as valid subspecies that are distinguishable from other subspecies by genetic traits.
Theory on plasticity driving speciation, as applied to insect–plant interactions (the oscillation hypothesis), predicts more species in clades with higher diversity of host use, all else being equal. Previous support comes mainly from specialized herbivores such as butterflies, and plasticity theory suggests that there may be an upper host range limit where host diversity no longer promotes diversification. The tussock moths (Erebidae: Lymantriinae) are known for extreme levels of polyphagy. We demonstrate that this system is also very different from butterflies in terms of phylogenetic signal for polyphagy and for use of specific host orders. Yet we found support for the generality of the oscillation hypothesis, in that clades with higher diversity of host use were found to contain more species. These clades also consistently contained the most polyphagous single species. Comparing host use in Lymantriinae with related taxa shows that the taxon indeed stands out in terms of the frequency of polyphagous species. Comparative evidence suggests that this is most probably due to its nonfeeding adults, with polyphagy being part of a resulting life history syndrome. Our results indicate that even high levels of plasticity can drive diversification, at least when the levels oscillate over time.
Asian gypsy moth, Lymantria dispar L. (Lepidoptera: Erebidae), females are capable of flight, but little is known about what causes the variation in flight propensity that has been observed. The female flight propensity and capability of Asian gypsy moth from seven geographic populations (three from China, two from Russia, one from Japan, and one from Korea) were compared under all combinations of three light intensities (0.05, 0.10, and 0.40 lux) and during three time intervals after the start of scotophase. A total of 567 females were flight tested. Female flight propensity, time to initiate walking, fanning, and flying, and duration of fanning differed significantly among geographic populations. Females were less likely to voluntarily fly during the 0-1-h time interval after the start of scotophase than during the later time intervals (1-2 and 2-3 h), suggesting that the light intensity cue has to occur at the correct time after the expected start of scotophase for flight initiation. Light intensity did not significantly affect the proportion of females that voluntarily flew, but did impact the timing of the walking and fanning preflight behaviors. The interaction between light intensity and time interval after the start of scotophase had a significant effect on the proportion of females that fanned. The proportion of females with sustained flight capability varied among the populations evaluated. These results may aid in determining the risk of Asian gypsy moth dispersal, but further work is needed to assess other factors that play a role in flight propensity.
In this study, a polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP)-based method for species identification was applied to eight Japanese Lymantria species, including the four “Asian gypsy moth” species [Lymantria dispar japonica (Motschulsky), Lymantria umbrosa (Butler), Lymantria albescens Hori and Umeno, and Lymantria postalba Inoue] and four other species [Lymantria xylina Swinhoe, Lymantria mathura Moore, Lymantria monacha (Linnaeus), and Lymantria lucescens (Butler)]. We sequenced the second internal transcribed spacer (ITS2) region of nuclear ribosomal DNA (rDNA) of one individual from each of the eight species. We analyzed the recognition sites of a restriction endonuclease (MnlI) to identify the Lymantria species by PCR-RFLP. We then applied PCR-RFLP analysis to 330 individuals from 54 populations of the 8 species. As a result, these species could be correctly identified with the exception of two species pairs (L. dispar japonica and L. umbrosa; L. albescens and L. postalba). These results suggest that this PCR-RFLP method based on the ITS2 region is useful for identifying Japanese Lymantria species.
A taxonomic review of the Korean Lymantria Hübner, 1819 was conducted. A total of nine species of five subgenera with two unrecorded species are listed: Lymantria (Porthetria) dispar Linnaeus 1758, L. (P.) xylina Swinhoe 1903, L. (Lymantria) monacha (Linnaeus 1758), L. (L.) minomonis Matsumura 1933 (new to Korea), L. (L.) similis monachoides Schintlimeister 2004 (new to Korea), L. (L.) lucescens (Butler 1881), L. (Nyctria) mathura Moore 1865, L. (Collentria) fumida Butler 1877, and L. (Spinotria) bantaizana Matsumura 1933. Lymantria (Lymantria) minomonis and L. (L.) similis monachoides are newly added to the Korean fauna. Lymantria (L.) minomonis was found only on Bogildo Island of Jeollanam-do in the southern part of Korea, and L. (L.) similis monachoides was collected in central Korea. Lymantria (Porthetria) xylina and L. (Collentria) fumida were not examined in this study, and it is considered that the previous records were due to misidentification or they are only distributed in the northern part of the Korean Peninsula. We provide diagnoses of two unrecorded species and adult habitus and genitalia photos of the Korean Lymantria species.
DNA barcoding and morphological analyses of Korean Lymantria (Erebidae, Lepidoptera) were conducted for quarantine inspection. In DNA barcoding, Lymantria dispar identified through quarantine inspection was distinguished as three species, L. dispar asiatica, L. albescens, and L. xylina. Lymantria monacha, which is known as a single species in Korea, is revealed as containing three species, L. monacha, L. minomonis, and L. sugii. At the subspecies level, L. dispar dispar formed a single cluster, whereas L. d. asiatica and L. d. japonica formed a cluster containing both subspecies. In morphological re-examination on DNA barcoding results, L. dispar was distinguished from L. albescens by wing pattern, and from L. xylina by papillae anale. L. monacha and the related species were hard to be distinct from each other by using wing pattern, but it was easily distinct through comparison of genitalia. Therefore, DNA barcoding led to accurate identification in species level, but in subspecies level, only a taxon showing geographically far distance was discriminated from the others. These results may provide a taxonomic outline of the Korean Lymantria fauna and may be used as an identification reference for Lymantria species during quarantine inspection.
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