Novel Descriptions of Immature Stages of the Forestry Insect Pest, Yponomeuta meguronis (Lepidoptera: Yponomeutidae), with New Records of Its Natural Enemies

: The genus Yponomeuta is widely known as a forestry insect pest group; however, it is extremely difﬁcult to identify it at the species level because of its small size and morphological complexity. Thus far, only a few major species and host plants, as well as natural enemy information, are known through European research within the limited eastern Palearctic region. In this study, Yponomeuta meguronis Matsumura is revealed to be a severe forestry insect pest for Euonymus japonicus Thunb. (Celastraceae) in Korea, which constitutes part of the western Palearctic region. We observed that numerous tiny larvae caused serious damage to its leaves and partially or entirely covered the tree by making communal silk webs. To rapidly and accurately identify this insect pest in the future, new descriptions of immature stages, including larva and pupa, were provided, along with their adult forms, based on ecological photographs and morphological illustrations. Two natural enemies of Y. meguronis were also recognized for the ﬁrst time in this study: Herpestomus brunnicornis (Gravenhorst) (Hymenoptera: Ichneumonidae) was revealed as a parasitoid, and Xanthandrus comtus (Harris) (Diptera: Syrphidae) was presented as a predator.


Introduction
The genus Yponomeuta Latreille, also known as small ermine moths, is one of the largest genera of the family Yponomeutidae (Lepidoptera: Yponomeutoidea), comprising approximately 75 species worldwide [1,2]. The Yponomeuta is widely known to be an insect pest group in forests, orchards, and horticulture: Y. malinellus (Zeller) was introduced into the United States in the early 19th century and has spread worldwide as an apple and cherry insect pest [3]; Y. cagnagella Hübner is a specialist on Euonymus europaeus L. (Celastraceae); Y. padellus (Linnaeus) is oligophagous on a number of Rosaceae plants [4]; and Y. cagnagella is known as a euonymus webworm in North America [5], and is also a common pest of European ornamental trees and shrubs [6]. According to recent studies, they are mainly distributed in Palearctic regions [2] but have spread to Holarctic regions. Of them, 14 species have been reported in Korea to date by several researchers [1,[7][8][9][10]. The genus Yponomeuta usually has complicated black dot variations on the forewing, but it can be characterized by the following: (i) a forewing with 12 veins and chorda, and pterostigma that is well-developed from near the 1/2 base to the distal area of Radial vein 1(R1), Median vein 3 (M3) and Cubitus anterior vein 1(CuA1) which connate to short-stalked; (ii) the male genitalia of uncus is usually a quadrate plate; socius is curved outwardly with some sparse hair-like setae, with one or two thorns at the apex; gnathos ventral plate with a pair of porrect processes which are sometimes covered with spinules; semioval, elongated oval or triangular valva with a rounded outer margin; long and narrow sacculus, with some spinules at the discal margin; moderately long saccus which is dilated at the terminal; aedeagus longer than the saccus; cornuti composed of four distinct spines and two spines anteriorly, with many small spinules; (iii) female genitalia of papillae anales are semioval with hair-like setae; the intersegmental membrane between the papillae anales and eighth segment is short or extended slightly; apophyses anteriores is branched and similar length to the apophyses posteriors; lamella postvaginalis produces a pair of semioval pads with erected hair-like setae; ostium bursae is ringed and spinulated; sclerotized antrum, usually cup-shaped; ductus bursae is long, membranous and partially granulose; and the corpus bursae is oval or circular without signum [11,12]. Although their morphological characteristics have been well organized by many yponomeutid taxonomists, most of them are limited to the adult morphology. Most pests damage plants when they are larvae in the field; therefore, knowing the adult morphology alone makes it difficult to identify insect pests.
We observed that several larvae of the yponomeutids feed gregariously by making communal silk webs on a colony of Euonymus japonicus Thunb. They can cause extensive defoliation of the trees, sometimes entirely, but often partially ( Figure 1).
Yponomeuta are forestry insect pests that generally have limited host ranges; therefore, steady research on their host plants is required, although most of this has been conducted by European researchers. In a previous study, Menken et al. [13] indicated that Yponomeuta is a monophagous genus feeding on Celastraceae, Rosaceae, or Salicaceae families, and they hypothesized that Yponomeuta evolved from an ancestral association with Celastraceae through allopatric speciation. Except for a few species, such as Y. gigas (Rebel), which feeds on Salix and Populus, most European Yponomeuta, such as Y. cagnagella, Y. irrorellus Hübner and Y. plumbellus (Denis & Schiffermüller), feed on Celastraceae, mainly on Euonymus. Some studies also analyzed a wide range of parasitoids of European Yponomeuta species. Recently, Žikić et al. [14] reported an updated checklist of the parasitoids of Yponomeuta species, including Y. cagnagella, Y. evonymella, Y. malinellus and Y. padella. They presented 15 parasitoid species of 6 hymenopteran families, Ichneumonidae, Encyrtidae, Eulophidae, Eurytomidae Braconidae, Pteromalidae, and 1 dipteran family, Tachinidae. Unlike in Europe, research on Yponomeuta is poorly conducted in East Asia, which is a western part of the Palearctic region. Only Moriuti [11] has assessed Asian Yponomeutids, hypothesizing that they may be potentially serious and destructive insect pests, reported that Y. meguronis Matsumura cause damage to host plants, such as Euonymus fortuni in Japan, and also provided information of the genital characteristics of adults.
The aim of this study was to report new descriptions of larva and pupa of the arboreal pest, Y. meguronis. Additionally, we newly reported its natural enemies, including a parasitoid, Herpestomus brunnicornis (Gravenhorst), and a predator, Xanthandrus comtus (Harris). Illustrations for all stages of pest, including adults and genitalia, and two natural enemies, are also presented.

Materials and Methods
More than 150 larvae were collected in southwestern Korea (Chungcheongnam-do (CN), Taean-gun, Sowon-myeon, Uigyang-ri, 977-18, near the Taean Peninsula). For observation of immature stages and emergence into adult, we caught early-stage larvae (1-2 instars) and carried out indoor breeding. The indoor temperature was maintained at 26 degrees, and the humidity was adjusted to approximately 60%, so that the host plants did not dry in the breeding cages (plastic, 60 cm × 60 cm × 80 cm).
To describe the larvae, we boiled the whole body of the larva in 10% KOH for 30-40 min at 70 • C. All materials, including larva, pupa, and adult and natural enemies (parasitoid and predator), were examined under an Olympus SZ61 stereomicroscope and photographed with a DMC 5400 digital camera attached to a Leica Z16 APO motorized microscope. Serial images were combined using Zerene Stacker and digitally retouched using Adobe Photoshop CS6.
For genital and morphological characteristics of adults, we examined dried specimens. All dried specimens were collected from East and West islands (Is. Dokdo, Is. Yongyu) and the eastern inland area (Gyeongsangbuk-do (GB), Uljin-gun, Geunnam-myeon, Gusan-ri, (36 • 55 52.34 N, 129 • 21 32.05 E). A light screen was established and maintained for 4-5 h. The specimens were collected at the light screen traps with a 200 W mercury vapor lamp and four 20 W UV lamps, and two white screens (2.0 m × 1.5 m) behind the lamp. The collected moths were killed in poison bottles with 30% ammonia water. Genitalia were mounted on the slide after being treated with a method modified from Robinson [15]. All genitalia slides were dissected and subsequently examined under a Leica EZ4 stereomicroscope. Genital photographs were taken with a Leica DM 2500 microscope attached to a Leica ICC50 E.
Abdomen: ten segments visible in dorsal view; spiracles visible laterally in segments A2-A7. Remnants of larval prolegs visible in ventral margin of A6. Genital and anal opening visible in ventral margin of A8 and A10 respectively.

Biology
Eggs hatch at the end of April. Larvae are gregarious by making a silk web, and feed on leaves. Within the silk web, cocoons hang vertically. More than 150 larvae (1-2 instars) were collected from a colony of Euonymus japonicus on 3 May 2021; then, adults emerged from the pupal case from 12 to 18 May of 2021 (Figure 5f).Its adults were collected in May, June, September, and November. Thus, they were expected to have offspring more than twice a year.
Most Yponomeuta larvae can survive the winter season at temperatures down to -40 • C [26]. First, instar larvae hibernate under "shield", where females lay eggs or secrete mucus. They are a similar color to bark and are round or elongated oval in shape. The larvae make a web nest, entwining twigs and leaves with a silken thread. However, the larvae do not molt simultaneously; sometimes, larvae exhibit different instars in one nest. Adult Yponomeuta have a resting position which is parallel to the substrate, wings folded, and antennae nearly pressed to the wings [27].

Natural Enemies of Y. meguronis
During the breeding of Y. meguronis, we discovered one parasite and one predator, as follows: This species was firstly confirmed as a natural enemy of Yponomeuta species from this study. According to previous researchers [28][29][30], Xanthandrus is a predator of various hyponemutid and tortricid larvae. Additionally, Rotheray and Gilbert [31], in their personal communication with F.C. Thompson, presented that non-European species all seem to be specialized Lepidopteran predators. This species was newly recognized as the most numerous parasitoid of Y. meguronis in this study. According to the literature, this species is also known to be a natural enemy of other Yponomeuta species: Y. cagnagella (spindle ermine moth), Y. evonymella (bird-cherry ermine moth), and Y. padella in Europe and Y. malinelllus (apple ermine moth) in Korea, Japan and China [14].  From this study, for the first time, this species has been revealed as a predator of Y. meguronis. They fed on larvae of Y. meguronis during the larva stage, and then pupated in the same host plant. This species was firstly confirmed as a natural enemy of Yponomeuta species from this study. According to previous researchers [28][29][30], Xanthandrus is a predator of various hyponemutid and tortricid larvae. Additionally, Rotheray and Gilbert [31], in their personal communication with F.C. Thompson, presented that non-European species all seem to be specialized Lepidopteran predators.
From this study, for the first time, this species has been revealed as a predator of Y. meguronis. They fed on larvae of Y. meguronis during the larva stage, and then pupated in the same host plant.

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Our results provide new descriptions of the larva and pupa of Y. meguronis as a forestry insect pest.

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We discovered that Y. meguronis causes serious damage to Euonymus japonicus Thunb. in Korea.

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We have newly reported two natural enemies of Y. meguronis, Herpestomus brunnicornis of Ichneumoninae, as a parasitoid and Xanthandrus comtus of Syrphidae, as a predator.

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The necessity of establishing an insect pest morphological and ecological database that can accurately identify pests and control and manage serious pests will continue to increase in the future.

Discussion
Through this study, we found that Y. meguronis is a forestry insect pest that causes serious harm to Euonymus japonicus. In Korea, there are many Euonymus japonicus colonies. Is. Dok(do) is particularly famous for this. The descriptions of larvae, a period of actual damage, and pupa, another immature stage, were first presented with biological data, such as the possibility of two generations per year, and natural enemies. However, no biological data on egg, female fertility, and general lifespan were obtained.
In fact, Yponomeuta, which is a higher level of Y. meguronis, has mainly been studied by European researchers of severe pests and as an invasive species to the United States. Starting with this study, close research on Asian Yponomeuta will be required, and we think that a precise plan will be needed to obtain more complementary results.