Gallerucida bifasciata (Coleoptera: Chrysomelidae), a potential biological control agent for Japanese knotweed (Fallopia japonica)

Host specificity of foreign natural enemies are becoming more and more critical in classical biological control programs, as concerns about potential risk from introduced biocontrol agents have been increasing recently. Understanding the insect's fundamental and ecological host ranges is the first step in determining the potential for introduction of an insect to control invasive plants. Japanese knotweed, Fallopia japonica (Houttuyn) Ronse Decraene (Polygonaceae) is an invasive weed in the United States and Europe. A leaf beetle, Gallerucida bifasciata (Coleoptera: Chrysomelidae) is an important natural enemy attacking this plant in Asia. However, its host range records were ambiguous. This study examined the beetle's host specificity through a set of choice and no-choice tests in the laboratory and field in its native China. Gallerucida bifasciata larvae were able to complete development on seven of 87 plant species in larval development tests, while adults fed and oviposited on 10 plants in no-choice tests. Multiple choice tests showed adults strongly preferred Fallopia japonica, Persicaria perfoliata (L.) H. Gross and Polygonum multiflorum Thunb over all other plants. Open field tests and field surveys further revealed that these three species were in its ecological host range. The results of this study suggest that G. bifasciata is a potential promising agent for control of Japanese knotweed in the United States and Europe, although additional host specificity tests and risk assessment should be completed.     

Developmental stages and gut microenvironments influence gut microbiota dynamics in the invasive beetle Popillia japonica Newman (Coleoptera: Scarabaeidae)

Popillia japonica Newman (Coleoptera: Scarabaeidae) is a highly polyphagous invasive beetle originating from Japan. This insect is highly resilient and able to rapidly adapt to new vegetation. Insect-associated microorganisms can play important roles in insect physiology, helping their hosts to adapt to changing conditions and potentially contributing to an insect's invasive potential. Such symbiotic bacteria can be part of a core microbiota that is stably transmitted throughout the host's life cycle or selectively recruited from the environment at each developmental stage. The aim of this study was to investigate the origin, stability and turnover of the bacterial communities associated with an invasive population of P. japonica from Italy. Our results demonstrate that soil microbes represent an important source of gut bacteria for P. japonica larvae, but as the insect develops, its gut microbiota richness and diversity decreased substantially, paralleled by changes in community composition. Notably, only 16.75% of the soil bacteria present in larvae are maintained until the adult stage. We further identified the micro-environments of different gut sections as an important factor shaping microbiota composition in this species, likely due to differences in pH, oxygen availability and redox potential. In addition, P. japonica also harboured a stable bacterial community across all developmental stages, consisting of taxa well known for the degradation of plant material, namely the families Ruminococcacae, Christensenellaceae and Lachnospiraceae. Interestingly, the family Christensenallaceae had so far been observed exclusively in humans. However, the Christensenellaceae operational taxonomic units found in P. japonica belong to different taxonomic clades within this family.     

Host specificity of <Emphasis Type="Italic">Euops chinesis</Emphasis>, a potential biological control agent of <Emphasis Type="Italic">Fallopia japonica</Emphasis>, an invasive plant in Europe and North America

Fallopia japonica (Houttuyn) Ronse Decraene (Polygonaceae) is a serious invasive weed in North American and Europe. In its native China, a leaf-rolling weevil, Euops chinesis (Coleoptera: Attelabidae) was found attacking F. japonica in the field. No-choice tests, multiple-choice tests, open field tests and field surveys were conducted as a measure of its host specificity. Forty-six plant species were selected from 17 families for host range testing, among which, six species, F. multiflora, F. japonica, Persicaria perfoliata, Rumex acetosa, R. japonicus and R. aquaticus, were exposed to adults in no-choice tests. However, larvae could only develop successfully on F. japonica, and this plant appeared to be the only host in the field, suggesting the weevil is host-specific. As larval development appears to depend on a fungus in the leaf rolls, the insect–fungus mutualism and risks including host specificity of the fungus should be evaluated before the insect’s introduction.     

山豆根叶片光合特性对光强和干旱的响应

山豆根(Euchresta japonica)为我国II级重点保护野生植物。该研究通过设置不同遮阴网的层数和采用不同浓度的聚乙二醇溶液浇灌,探讨了山豆根光合特性对光强和干旱的响应。结果表明, 山豆根叶片的饱和光强为683.06~907.07mmol/(m²·s); 单层遮阴处理叶片的最大电子传递速率和最大净光合速率整体高于双层遮阴处理,其中单层遮阴且未进行干旱处理的叶片最大电子传递速率和最大净光合速率最高,分别为55.36和6.73mmol/(m²·s);相同遮阴条件下,叶片的最大净光合速率及其对应的饱和光强均随干旱程度增加整体呈下降趋势;单层遮阴条件下的蒸腾速率和水分利用效率均整体高于双层遮阴条件下的。不同处理下叶片光系统II的实际光化学效率、光化学猝灭系数以及非光化学猝灭系数等整体上均无显著差异(P>0.05)。山豆根属半阳生植物,其叶片利用弱光能力较强,植株具有较强的耐干旱能力。因此,建议在开展野外回归、迁地保护、人工栽培等工作时,进行适当遮阴处理并保持充足的土壤含水量。     

Principal component and hierarchical clustering analysis of metabolites in destructive weeds; polygonaceous plants

Comprehensive analysis of metabolites using capillary electrophoresis–mass spectrometry was carried out in harmful weeds belonging to Polygonaceae. A principal component analysis revealed clear distinctions among eight Rumex species and Fallopia japonica. Hierarchical clustering data showed that respective metabolites can be grouped due to species differences. There was a positive relationship between oxalate and citrate, oxalate and ascorbate, and oxalate and glutamine. The amount of oxalate per leaf fresh weight was not affected by increased concentrations of exogenously supplied nutrients from Hoagland’s formulation in one of the most destructive weeds R. obtusifolius. The oxalate accumulation in this plant is independent of external nutrient level, where nutrient-rich environments apparently stimulate internal constituents such as amino acids and other metabolites.     

First report on the emergency dance of Apis cerana japonica,which induces odorous plant material collection in response to Vespa mandarinia japonica scouting

Previously, we observed several instances in which Apis cerana japonica performed dancing around the hive entrance and smeared plant materials there immediately after scouting of Vespa mandarinia japonica. In this study, we conducted a series of attack simulation experiments with three hornet species to investigate whether the hive entrance dance is a specific response to V. m. japonica scouting. We also tracked dancing bees and dance‐follower bees to observe whether they perform hive entrance smearing. Only V. m. japonica scouting induced dancing, and we confirmed that dancing and dance‐follower bees performed smearing behavior at the hive entrance. These results suggest that the hive entrance dance informs nestmates of a specific emergency and of the urgent need to collect odorous plant materials as a counter‐attack strategy.     

Dynamic interaction between a leaf beetle, Galerucella nipponensis, and an aquatic plant, Trapa japonica. II. Dispersal behavior of larvae

The dispersal behavior of the larvae of a leaf beetle, Galerucella nipponensis, was investigated to analyze the dynamic interaction between the leaf beetle and its aquatic host plant, Trapa japonica. The hatchlings dispersed from the hatched leaf to other leaves in a rosette within 12 h. Some larvae even dispersed on the water surface. As a result, the hatchlings distributed uniformly within the rosette. This larval dispersal appeared to be adaptive behavior responding to a rapid turnover of T. japonica leaves. The female adults preferred young or middle-aged leaves to old leaves as oviposition sites. Received: June 14, 2001 / Accepted: December 17, 2001     

Host plant, oviposition behavior and larval ecology of a sawfly leafminer, Profenusa japonica (Hymenoptera: Tenthredinidae)

The host plant, oviposition behavior and larval ecology of Profenusa japonica Togashi are reported for the first time. Adults of P. japonica mated and oviposited on a polyantha rose, Rosa multiflora (Rosaceae), in April. Each female adult laid an egg on the edge of a leaflet. Hatched larvae consumed the parenchymatous layer of leaflets and in so doing created a mine. The larval stage comprised five instars. On average, 70.6% of the total area of a leaflet was consumed by one larva. Female adults of P. japonica laid eggs singly, probably to avoid larval competition for food.     

From plant traits to invasion success: Impacts of the alien Fallopia japonica (Houtt.) Ronse Decraene on two native grassland species

Alien invasive plants threaten biodiversity, productivity and ecosystem functioning throughout the world. We examined the effect of Fallopia japonica on two native grassland species (Trifolium repens, Lolium perenne). We hypothesized that its negative effects on the native species are dependent on three mechanisms: (i) allelochemicals released and accumulated in soil with a history of invasion, (ii) altered soil biota and (iii) direct resource competition. We measured the response of the native species as the difference in their functional traits when grown under the three conditions. Our results demonstrate that neither allelochemicals nor soil biota from soil with history of F. japonica invasion had measurable effects on either species. Competition with the invader strongly reduced height, biomass and specific leaf area (SLA) of T. repens, while it had a lower effect on L. perenne. Furthermore, our results reveal that F. japonica took advantage of a positive plant–soil and plant–plant interaction. The results show that the prominent mechanism underpinning the invasion success of F. japonica in the grassland was the direct resource competition. This prominent role is also confirmed by the significant interactions between competition, allelochemicals and soil biota from soils with history of invasion of F. japonica on SLA of the native species.     

Systematics of <Emphasis Type="Italic">Mycosphaerella</Emphasis> species associated with the invasive weed <Emphasis Type="Italic">Fallopia japonica</Emphasis>, including the potential biological control agent <Emphasis Type="Italic">M. polygoni-cuspidati</Emphasis>

Native to Japan, Fallopia japonica, most frequently referred to as Japanese knotweed, is a highly problematic invasive weed, particularly in the UK and North America. During surveys for natural enemies of this plant in Japan, two species of Mycosphaerella were collected. One of these was identified as M. polygoni-cuspidati, and is redescribed and neotypified. Causing a damaging leaf spot disease of F. japonica throughout its natural range in Japan, it is absent from the host’s exotic range. The restriction of M. polygoni-cuspidati to F. japonica in its center of origin, together with its severe impact on host fitness, indicates that this is a coevolved natural enemy with high potential as a classical biological control agent for the long-term management of this ecologically and economically important weed. In the field, the fungus has a reduced life cycle, with only spermogonia and pseudothecia (ascomata) being formed. Ascospores are the primary source of infection, and studies show that the mycelium from in vitro cultures is also infective and hyphae penetrate mainly via the stomata. A further, undescribed species of Mycosphaerella co-occurs with M. polygoni-cuspidati, here proposed as the new species M. shimabarensis. Both species have been studied using cultural, morphological and molecular phylogenetic methods.     

11β-Hydroxysteroid dehydrogenase 1 inhibiting constituents from Eriobotrya japonica revealed by bioactivity-guided isolation and computational approaches

The inhibition of 11β-hydroxysteroid dehydrogenase 1 (11β-HSD1), which catalyzes the conversion of inactive 11-ketoglucocorticoids to active 11β-hydroxyglucocorticoids, emerged as promising strategy to treat symptoms of the metabolic syndrome, including obesity and type 2 diabetes. In this study the leaves of the anti-diabetic medicinal plant loquat (Eriobotrya japonica) were phytochemically investigated following hints from a pharmacophore-based virtual screening and a bioactivity-guided approach. Determination of the 11β-HSD1 and 11β-HSD2 inhibitory activities in cell lysates revealed triterpenes from the ursane type as selective, low micro-molar inhibitors of 11β-HSD1, that is, corosolic acid (1), 3-epicorosolic acid methyl ester (4), 2-α hydroxy-3-oxo urs-12-en-28-oic acid (6), tormentic acid methyl ester (8), and ursolic acid (9). Importantly, a mixture of loquat constituents with moderate activities displayed a pronounced additive effect. By means of molecular modeling studies and the identification of the 11β-HSD1-inhibiting 11-keto-ursolic acid (17) and 3-acetyl-11-keto-ursolic acid (18) a structure–activity relationship was deduced for this group of pentacyclic triterpenes. The mechanism of action elucidated in the present work together with the previously determined pharmacological activities provides these natural products with an astonishing multi-targeted anti-diabetic profile.     

Comparative Molecular Analyses of Phytoplasmas infecting Sophora japonica cv. golden and Robinia pseudoacacia

Phytoplasmas were detected in Sophora japonica cv. golden and Robinia pseudoacacia with diseased branches of witches'‐broom collected in Haidian district, Beijing, China. Phytoplasma cells were observed in phloem sieve elements of symptomatic S. japonica cv. golden by transmission electron microscopy. The presence of phytoplasmas was further confirmed by sequence determination of partial gene sequences of 16S rDNA, rp (ribosomal protein) and secY. Phylogenetic trees and virtual restriction fragment length polymorphism (RFLP) analyses indicated that the phytoplasmas causing S. japonica cv. golden witches'‐broom (SJGWB) and R. pseudoacacia witches'‐broom (RPWB) belong to the 16SrV (elm yellows) group, and they are most closely related to subgroup 16SrV‐B, rpV‐C and secYV‐C jujube witches'‐broom (JWB) phytoplasma. Comparative analyses indicated that the phytoplasma of RPWB was closer to the JWB and that R. pseudoacacia might serve as an alternative host plant of JWB phytoplasma.     

Duration of freezing necessary to damage the leaves of Fallopia japonica (Houtt.) Ronse Decraene

Fallopia japonica (Houtt.) Ronse Decraene is an invasive plant species that introduces economic, social, and environmental stresses. After observing frost damage to F. japonica plants in the field, we exposed leaves of F. japonica and a native species (Acer saccharum Marshall) to freezing temperatures in the laboratory and compared their net photosynthetic rate to that of fresh leaves. In both species, the net photosynthetic rate of leaves frozen for 0.5 h or for 1 h were not significantly different from each other but were both significantly less than that of fresh leaves. Fresh leaves of F. japonica had a higher net photosynthetic rate than those of A. saccharum, but the relationship was reversed in all freezing treatments. Frozen leaves of F. japonica contained microscopically visible frost lenses, which revealed the mechanism of the damage. These results quantify how quickly F. japonica is damaged by freezing conditions and suggest that minimum vernal temperatures may limit its range expansion.     

A Suspension Culture Method for the Rapid Mass Culture of Cistella japonica Mycelium

Different methods were investigated for the rapid mass culture of Cistella japonica by using water extracts of some nutritional sources. In an agar culture test, there was little difference in mycelial growth in water extracts of wheat bran, rice bran and potato. In suspension culture with wheat bran extract, which is easily and cheaply available, the mycelium of C. japonica increased seven times more than that in agar culture after a month's incubation. C. japonica from suspension culture was pathogenic to Chamaecyparis obtusa. These results suggest that suspension culture in water extract of wheat bran can be adopted for the rapid mass culturing of C. japonica for use in inoculation tests.     

A taxonomic study of KoreanSmilacina

Several taxonomic problems of KoreanSmilacina were examined by statistical methods, based on morphological data. Consequently,S. davurica described in Korean flora differs greatly from originalS. davurica, and closely related toS. bicolor morphologically. Therefore, the present authors treated this new taxon as a variety ofS. bicolor, S. bicolor var.flavovirens N. S. Lee et J. Y. Kim var. nov (“Yondusomdae” in Korean). The distribution in South Korea ofS. bicolor var.bicolor is known as only Mt. Chiri, but this species is collected in Mt. Dukyou, also. The bounds of morphological variations ofS. japonica var.japonica, the short plant size and no hairs on the stem, were revealed. The morphological characteristics ofS. japonica var.japonica andS. japonica var.mandshurica is obscure to distinguish. According to the present study,S. japonica var.mandshurica differs fromS. japonica var.japonica in plant size, size of adaxial leaf epidermal cell, ratio of style/ovary length and shape of stigma. The unrecorded taxon in Korean flora,S. robusta, was given a new Korean name as “Kunsomdae.” AlthoughS. japonica var.mandshurica is the variety ofS. japonica var.japonica, it is more closely related toS. robusta than toS. japonica var.japonica.     

Population change and immature mortality process of Luehdorfia japonica (Lepidoptera: Papilionidae) feeding on an unusual host plant, Asarum caulescens Maxim. (Aristolochiaceae)

A population of the butterfly Luehdorfia japonica dependent on a small stand of an unusual host plant, Asarum caulescens, was found and observed for 5 years. The plant was growing in patchy clumps in a forest and in an adjoining clearing, but the number of leaves in the clearing decreased during the 5 year study period. Butterflies laid eggs mostly in or near the clearing, and the number of eggs steadily decreased year by year, along with the decrease in the number of leaves. The survival rate of the larvae was similar to that of the same species feeding on the usual host plant, Asarum takaoi, in an adjacent habitat. It is considered that A. caulescens is rarely a host of L. japonica because the plant grows in shady conditions and the butterfly prefers a host plant growing in a sunny locations for oviposition.     

Cornicle secretions of Uroleucon nigrotuberculatum (Homoptera: Aphididae) as the last bullet against lady beetle larvae

Aphids have evolved various defense strategies against natural enemies, including secretions from their cornicles. We assessed the defensive function of cornicle secretions by the goldenrod aphid, Uroleucon nigrotuberculatum (Olive), against larvae of the lady beetles Coccinella septempunctata bruckii Mulsant and Propylea japonica (Thunberg) (Coleoptera: Coccinellidae). The aphid secreted red droplets from its cornicles when attacked by the larvae. Two‐thirds of the C. septempunctata bruckii larvae and 46.7% of the P. japonica larvae that preyed on the aphids died before reaching the pre‐pupal stage. The secretions caused molting failure when smeared on the larvae's heads or glued to the larvae's mouthparts, killing 56.7% of C. septempunctata bruckii larvae and 36.7% of P. japonica larvae. Second instar larvae were affected most. About 40% of third and fourth instar larvae of C. septempunctata bruckii vomited soon after ingesting the aphids. In the field, up to 40% of first and second instar larvae were smeared with red secretions. Our results show that these cornicle secretions are an effective and active defense against earlier instars of coccinellid larvae.     

CAMELLIA + ‘DAISY EAGLESON,’ A GRAFT CHIMERA OF CAMELLIA SASANQUA AND C. JAPONICA

We have described a new, distinct camellia cultivar, Camellia + ‘Daisy Eagleson’ (Byrd ex Meyer), found on a rootstock of hexaploid C. sasanqua Thunb. ‘Maiden's Blush’ on which a scion of diploid C. japonica L. had been grafted. The new cultivar is a graft chimera with epidermal tissue from C. sasanqua and the internal tissue from C. japonica. Many characters expressed and measured at the cellular or tissue’ level showed complete independence in the chimera. These included chromsome number, anthocyanin synthesis, pH, cell size, and fragrance. Some characters expressed at the organ or whole plant level showed an interaction between the two components. These included floral morphology, leaf size, time of bloom, bud hardiness, and growth habit. One entirely new character we found was the presence of 6–8 styles in the chimeral flowers in contrast to the three styles typical of the component species. While the two components grew together in apparent harmonious and stable fashion, we have recovered each of the pure, homogeneous component cultivars a number of times from tissue replacement and displacement phenomena in the shoot and as adventitious shoots from roots. ‘Daisy Eagleson’ is only the third, fully-authenticated, woody graft chimera.     

Stemospironine,a New Insecticidal Alkaloid of Stemona japonica Miq. Isolation,Structural Determination and Activity

A new alkaloid named stemospironine (I) was isolated together with stemofoline (II) as the main insecticidal constituents of leaves and stems of Stemona japonica Miq. The absolute stereostructure of I has been determined by X-ray crystallographic analysis. Stemofoline (II) showed a much stronger activity than I against silkworm larvae (Bombyx mori L.) by oral administration.     

Interactions between two co-dominant, invasive plants in the understory of a temperate deciduous forest

Negative interactions between non-indigenous and native species has been an important research topic of invasion biology. However, interactions between two or more invasive species may be as important in understanding biological invasions, but they have rarely been studied. In this paper, we describe three field experiments that investigated interactions between two non-indigenous plant species invasive in the eastern United States, Lonicera japonica (a perennial vine) and Microstegium vimineum (an annual grass). A press removal experiment conducted within a deciduous forest understory community indicated that M. vimineum was a superior competitor to L. japonica. We tested the hypothesis that the competitive success of M. vimineum was because it overgrew, and reduced light available to, L. japonica, by conducting a separate light gradient experiment within the same community. Shade cloth that simulated the M. vimineum canopy reduced the performance of L. japonica. In a third complementary experiment, we added experimental support hosts to test the hypothesis that the competitive ability of L. japonica is limited by support hosts, onto which L. japonica climbs to access light. We found that the abundance of climbing branches increased with the number of support hosts. Results of this experiment indicate that these two invasive species compete asymmetrically for resources, particularly light.