Your search keyword '"Lepidoptera"' showing total 73,016 results

1. Evidence of Nonrandom Patterns of Functional Chromosome Organization in Danaus plexippus.

Author

Kimura, Ashlyn, Go, Alwyn C, Markow, Therese, and Ranz, José M

Subjects

Lepidoptera, chromosome organization, expression profiles, gene clustering, insects, sex-biased expressed genes, Biochemistry and Cell Biology, Evolutionary Biology, Genetics, Developmental Biology, Biochemistry and cell biology, Evolutionary biology

Abstract

Our understanding on the interplay between gene functionality and gene arrangement at different chromosome scales relies on a few Diptera and the honeybee, species with quality-reference genome assemblies, accurate gene annotations, and abundant transcriptome data. Using recently generated 'omics resources in the monarch butterfly D. plexippus, a species with many more and smaller chromosomes relative to Drosophila species and the honeybee, we examined the organization of genes preferentially expressed at broadly defined developmental stages (larva, pupa, adult males, and adult females) at both fine and whole-chromosome scales. We found that developmental stage-regulated genes do not form more clusters, but do form larger clusters, than expected by chance, a pattern consistent across the gene categories examined. Notably, out of the thirty chromosomes in the monarch genome, twelve of them, plus the fraction of the chromosome Z that corresponds to the ancestral Z in other Lepidoptera, were found enriched for developmental stage-regulated genes. These two levels of nonrandom gene organization are not independent as enriched chromosomes for developmental stage-regulated genes tend to harbor disproportionately large clusters of these genes. Further, although paralogous genes were overrepresented in gene clusters, their presence is not enough to explain two-thirds of the documented cases of whole-chromosome enrichment. The composition of the largest clusters often included paralogs from more than one multigene family as well as unrelated single-copy genes. Our results reveal intriguing patterns at the whole-chromosome scale in D. plexippus while shedding light on the interplay between gene expression and chromosome organization beyond Diptera and Hymenoptera.

Published

2024

2. High hymenopteran parasitoid infestation rates in Czech populations of the Euphydryas aurinia butterfly inferred using a new molecular marker

Author

Konvickova, Hana, John, Václav, Konvicka, Martin, Rindoš, Michal, Hrcek, Jan, and Pensoft Publishers

Subjects

Braconidae, butterfly ecology, Lepidoptera, Marsh Fritillary, molecular detection, Nymphalidae, Population Dynamics

Published

2024

3. Fluency, prediction and motivation: how processing dynamics, expectations and epistemic goals shape aesthetic judgements.

Author

Yoo, Jenny, Jasko, Katarzyna, and Winkielman, Piotr

Subjects

aesthetics, epistemic motivation model, evaluation, fluency, predictive processing framework, Animals, Judgment, Motivation, Goals, Emotions, Esthetics, Lepidoptera

Abstract

What psychological mechanisms underlie aesthetic judgements? An influential account known as the Hedonic Marking of Fluency, later developed into a Processing Fluency Theory of Aesthetic Pleasure, posits that ease of processing elicits positive feelings and thus enhances stimulus evaluations. However, the theory faces empirical and conceptual challenges. In this paper, we extend it by integrating insights from predictive processing frameworks (PPF) and the epistemic motivation model (EMM). We propose four extensions. First, fluency of a stimulus depends on perceivers expectations-their internal model of the world. Second, perceivers also form expectations about fluency itself and thus can experience surprising fluency. These expectations can come from the individuals history, their current task and their environment. Third, perceivers can value fluency but also disfluency, reflecting their non-directional epistemic goals. Fourth, perceivers also have directional epistemic goals, preferring specific conclusions or belief content. Consequently, affective reactions depend on whether the stimulus satisfies those goals. These directional epistemic goals may override concerns about fluency or change the value of fluency associated with specific content. We review supporting evidence and introduce novel predictions. By integrating insights from PPF and EMM, our framework can better capture established fluency effects and highlights their limitations and extensions. This article is part of the theme issue Art, aesthetics and predictive processing: theoretical and empirical perspectives.

Published

2024

4. Impacts of assisted migration: An introduced herbivore has short‐term and long‐term effects on its native host plant population.

Author

Ravikanthachari, Nitin, Burch, Libby L., Powell, Rachel E., Scott, Danielle M., Wayne, Charlotte R., Niitepõld, Kristjan, Rosenberg, Risa H., and Boggs, Carol L.

Subjects

*WILDLIFE conservation, *PLANT size, *PLANT populations, *INTRODUCED species, *PLANT anatomy

Abstract

Assisted migration consists of the introduction of a species to previously inhabited areas or to new suitable regions. Such introductions have been touted as a viable tool for conserving the earth's biodiversity. However, both the likely success of assisted migrations and the impacts on local communities are hotly debated. Empirical data on the local impacts of assisted migration are particularly lacking. We examined the short and long time‐scale effects of herbivory on Lonicera involucrata (Richards) Banks ex. Spreng (Caprifoliaceae) after an introduction of Euphydryas gillettii Barnes (Lepidoptera: Nymphalidae, Melitaeini) to Gunnison County, Colorado, USA, via an assisted migration in 1977. The plant is the primary larval host plant for the butterfly. We quantified plant seed production, plant survival, and population stage structure in two sets of observational experiments. We found that herbivory by E. gillettii increased L. involucrata reproduction on an annual time scale, independent of plant size and local microhabitat characteristics. Over the time since the butterfly's introduction, herbivory by E. gillettii resulted in a plant population structure biased toward smaller plants in the butterfly introduction and satellite sites compared with sites without the butterfly. Our results highlight the importance of studying the effects of assisted migrations on native populations at different temporal scales. As assisted migration becomes an indispensable tool for species conservation, our work adds to the understanding of the multi‐trophic impacts of assisted introductions on local populations and communities. [ABSTRACT FROM AUTHOR]

Published

2024

5. Variation in immune response in the generalist herbivore fall webworm across four common host plants.

Author

Mitchell, Audrey M., Vyas, Dhaval K., and Murphy, Shannon M.

Subjects

*INSECT larvae, *HOST plants, *NOCTUIDAE, *IMMUNE response, *FOOD quality, *HERBIVORES

Abstract

Dietary generalist herbivorous insects are widespread and often occur in a variety of environments. Across their geographic range, herbivorous insects may encounter variable plant traits as they feed on high‐quality or low‐quality plants. Herbivorous insect larvae experience both bottom‐up (host plant) and top‐down (parasitoid) factors that affect survival. Host plant quality may affect larval growth and survival in that larvae feeding on low‐quality plants often suffer reduced fitness. However, herbivores on different host plants are also subject to different levels of parasitism. High‐quality plants confer stronger larval performance (higher survival, more offspring), but larvae may also face higher parasitism. In some herbivore species, diet mediates larval immune response. The generalist insect herbivore fall webworm (FW), Hyphantria cunea Drury (Lepidoptera: Erebidae), is a moth native to North America, and its larvae have considerable variance in their performance when reared on different host plants. We investigated whether diet affects the immune response in FW larvae when they are reared on different host plant species known to vary in food quality. We measured immune response by melanization of a nylon filament. We found significant differences in immune response across host plants, indicating that diet mediates immune response in FW larvae. Our study helps elucidate the factors that cause variation in immune response in a generalist herbivore. [ABSTRACT FROM AUTHOR]

Published

2024

6. Exploring the interplay between host plant structural defences and origin on behavioural and life‐history traits of two Neotropical danaines.

Author

Ferreira, Pedro Paulo da Silva, Mantuano, Dulce, Campos, Mateus Lorenzo Cavalcanti, and Rodrigues, Daniela

Subjects

*MONARCH butterfly, *CALOTROPIS procera, *HOST plants, *PLANT anatomy, *NYMPHALIDAE

Abstract

Factors that mediate insect herbivore sabotaging behaviour of host plant latex defences remain under debate. The most prominent hypothesis suggests that the anatomy of the host plant's laticifers determines trenching or vein‐cutting behaviour, but there are inconsistencies in the literature. In addition to latex, other plant defences have been shown to affect plant natural enemies, but experimental studies comparing the effects of multiple defences on herbivore performance and behaviour are scarce. In this study, we investigated the anatomy of the laticifers of Calotropis procera (Aiton) W.T. Aiton (Apocynaceae), an exotic milkweed of southeastern Brazil, as well as the sabotaging behaviour of larvae of southern monarch, Danaus erippus (Cramer), and queen butterfly, Danaus gilippus (Cramer) (Lepidoptera: Nymphalidae) on this host plant. We also reviewed the sabotaging behaviour of larvae reared on the native milkweed Asclepias curassavica L. (Apocynaceae) from previous studies, as well as the description of the anatomy of its laticifers. As we found no correspondence between sabotaging behaviour of southern monarchs and queens and the anatomy of the host plants' laticifers, we tested whether structural defences of C. procera leaves (latex, waxes and trichomes) affected sabotaging behaviour and larval performance of southern monarch larvae. The structural barriers of this well‐defended host affected larvae in different ways: Southern monarchs developed more slowly on control leaves than on leaves from which wax had been removed, and only latex removal reduced the frequency of sabotaging behaviour. Regardless of the defence removal treatment, frequencies of trenching behaviour decreased and vein‐cutting behaviour increased as larvae developed. Overall, our results show that several factors in addition to the anatomy of laticifers affect sabotaging behaviour of southern monarchs and queens, including larval ontogeny, danaine species and latex outflow. This evidence suggests a behavioural plasticity in the sabotaging behaviour of larvae of both southern monarchs and queens. [ABSTRACT FROM AUTHOR]

Published

2024

7. High‐quality genome assemblies for nine non‐model North American insect species representing six orders (Insecta: Coleoptera, Diptera, Hemiptera, Hymenoptera, Lepidoptera, Neuroptera).

Author

Walden, Kimberly K. O., Cao, Yanghui, Fields, Christopher J., Hernandez, Alvaro G., Rendon, Gloria A., Robinson, Gene E., Skinner, Rachel K., Stein, Jeffrey A., and Dietrich, Christopher H.

Subjects

*GENOME size, *LEAFHOPPERS, *INSECTS, *HYMENOPTERA, *LEPIDOPTERA, *NEUROPTERA

Abstract

Field‐collected specimens were used to obtain nine high‐quality genome assemblies from a total of 10 insect species native to prairies and savannas of central Illinois (USA): Mellilla xanthometata (Lepidoptera: Geometridae), Stenolophus ochropezus (Coleoptera: Carabidae), Forcipata loca (Hemiptera: Cicadellidae), Coelinius sp. (Hymenoptera: Braconidae), Thaumatomyia glabra (Diptera: Chloropidae), Brachynemurus abdominalus (Neuroptera: Myrmeleontidae), Catonia carolina (Hemiptera: Achilidae), Oncometopia orbona (Hemiptera: Cicadellidae), Flexamia atlantica (Hemiptera: Cicadellidae) and Stictocephala bisonia (Hemiptera: Membracidae). Sequencing library preparation from single specimens was successful despite extremely small DNA yields (<0.1 μg) for some samples. Additional sequencing and assembly workflows were adapted to each sample depending on the initial DNA yield. PacBio circular consensus (CCS/HiFi) or continuous long reads (CLR) libraries were used to sequence DNA fragments up to 50 kb in length, with Illumina sequenced linked‐reads (TellSeq libraries) and Omni‐C libraries used for scaffolding and gap‐filling. Assembled genome sizes ranged from 135 MB to 3.2 GB. The number of assembled scaffolds ranged from 47 to >13,000, with the longest scaffold per assembly ranging from ~23 to 439 Mb. Genome completeness was high, with BUSCO scores ranging from 85.5% completeness for the largest genome (Stictocephala bisonia) to 98.8% completeness for the smallest genome (Coelinius sp.). The unique content was estimated using RepeatMasker and GenomeScope2, which ranged from 50.7% to 75.8% and roughly decreased with increasing genome size. Structural annotation predicted a range of 19,281–72,469 protein models for sequenced species. Sequencing costs per genome at the time ranged from US$3–5k, averaged ~1600 CPU‐hours on a high‐performance cluster and required approximately 14 h of bioinformatics analyses with samples using PacBio HiFi data. Most assemblies would benefit from further manual curation to correct possible scaffold misjoins and translocations suggested by off‐diagonal or depleted signals in Omni‐C contact maps. [ABSTRACT FROM AUTHOR]

Published

2024

8. A near chromosome-level genome assembly of a ghost moth (Lepidoptera, Hepialidae).

Author

Weng, Yi-Ming, Lopez-Cacacho, Isabel, Foquet, Bert, Martinez, Jose I., Plotkin, David, Sourakov, Andrei, Frandsen, Paul B., and Kawahara, Akito Y.

Subjects

EXTREME environments, BODY size, MOTHS, LEPIDOPTERA, GENOMICS

Abstract

Ghost moths are an unusual family of primitive moths (Lepidoptera: Hepialidae) known for their large body size and crepuscular adult activity. These moths represent an ancient lineage, frequently have soil dwelling larvae, and are adapted to high elevations, deserts, and other extreme environments. Despite being rather speciose with more than 700 species, there is a dearth of genomic resources for the family. Here, we present the first high quality, publicly available hepialid genome, generated from an Andean species of ghost moth, Druceiella hillmani. Our genome assembly has a length of 2,586 Mbp with contig N50 of 28.1 Mb and N50 of 29, and BUSCO completeness of 97.1%, making it one of the largest genomes in the order Lepidoptera. Our assembly is a vital resource for future research on ghost moth genomics. [ABSTRACT FROM AUTHOR]

Published

2024

9. Conserved fungal effector NLS1 suppresses Lepidoptera insect immunity by targeting the host defense protein Hdd11.

Author

Wang, Yulong, Dong, Ying, Liu, Kexin, Li, Gen, Cheng, Jing, Cao, Yin, Yang, Yang, Qin, Li, and Huang, Bo

Abstract

Entomopathogenic fungi have been widely used as the main mycoinsecticide for controlling agricultural and forest pests. The effector molecules of these mycopathogens have evolved to adapt to their hosts. The role of fungal effectors in evading the host immune system in insects remains mainly unclear. We characterized the widely distributed fungal effector necrosis‐inducing‐like secreted protein 1 (NLS1) in the entomopathogenic fungus Metarhizium robertsii. Our findings revealed the presence of M. robertsii NLS1 (MrNLS1) in host hemocytes during the early stage of hemocoel infection. MrNLS1 knock down (ΔMrNLS1) reduced fungal pathogenicity during infection and altered the expression of host immune genes. The molecular docking results and the yeast 2‐hybrid assay confirmed that MrNLS1 interacts with the host defense protein Hdd11. The phylogenetic analysis indicated that Hdd11 is conserved across a broad range of Lepidoptera species. Knock down of hdd11 in Helicoverpa armigera, Bombyx mori, and Galleria mellonella markedly suppressed their immune responses against M. robertsii. However, no significant difference was observed in the mean lethal time between hdd11‐knockdown Lepidoptera species infected with ΔMrNLS1 and those infected with wild‐type M. robertsii. Therefore, in Lepidoptera insects, Hdd11 is essential for fungal defense. In conclusion, M. robertsii infects Lepidoptera insects by targeting host Hdd11 through its protein MrNLS1, thereby suppressing the host immune response. Our findings clarify the molecular mechanisms underlying fungal infection pathogenesis. [ABSTRACT FROM AUTHOR]

Published

2024

10. A chromosomal-level genome assembly of Corcyra cephalonica Stainton (Lepidoptera: Pyralidae).

Author

Ding, Yinhuan, Jin, Jianfeng, Fang, Mingli, Li, Yuanxi, and Yan, Zhichao

Subjects

PYRALIDAE, CHROMOSOMES, CEREAL products, GENOMES, LEPIDOPTERA

Abstract

The family Pyralidae is a large and important group within the superfamily Pyraloidea, consisting of more than 5,900 described species. The rice moth Corcyra cephalonica is a noteworthy pest affecting stored grains and products. However, the absence of high-quality genomes hinders our comprehension of the ecology of C. cephalonica. Herein, we propose a chromosome-level genome of C. cephalonica achieved through integrating Nanopore, Illumina, and Hi-C reads. The genome of 453.37 Mb in size consists of 98 scaffolds and 154 contigs, with a scaffold N50 size of 16.67 Mb. The majority of contigs (99.36%, 450.45 Mb) were effectively anchored to 29 chromosomes. The BUSCO analysis of the assembly revealed a completeness of 99.0% (n = 1,367), identifying 98.6% single-copy BUSCO genes and 0.4% duplicated BUSCO genes. Furthermore, the genome contains 48.74% (220.96 Mb) repeat elements and encompasses 14,135 predicted protein-coding genes. This study offers a valuable genomic foundation for advancing our comprehension of the biology of C. cephalonica. [ABSTRACT FROM AUTHOR]

Published

2024

11. Urbanization-associated range expansion genetically homogenizes a butterfly species.

Author

Blattner, Lucas A., Kulanek, Dustin, Ruffener, Simona, Ziegler, Heiner, Wymann, Hans-Peter, Wiemers, Martin, Michalik, Peter, and Berner, Daniel

Subjects

*HISTORICAL markers, *NATIVE species, *BIOLOGICAL invasions, *ENVIRONMENTAL degradation, *GENETIC variation, *HABITAT modification

Abstract

Human-induced environmental change and globalization facilitate biological invasions, which can lead to the displacement of native species by non-native ones. 1,2,3,4 Analogously, biodiversity loss may occur within species when habitat modifications facilitate the expansion of a specific population's range, leading to genetic admixture with native local populations. We demonstrate such intraspecific loss in population-level diversity in the Southern Small White (Pieris mannii), an originally sedentary butterfly 5 that recently expanded its range across Central Europe due to urbanization. 6,7,8 Using genome-wide markers from historical museum specimens and contemporary samples, we identify a distinct population initiating this expansion and reveal the genetic homogenization of native local populations by admixture with the expansive one. Our study illustrates how human-made environmental change can simultaneously benefit a species by permitting range expansion and drive cryptic biodiversity loss through the genetic homogenization of conspecific populations. • Range expansion in Pieris mannii butterflies is driven by a distinct population • This population now mixes with formerly isolated local populations • Population mixing causes loss of evolutionary distinctiveness within this species The butterfly Pieris mannii recently expanded its range across Central Europe in response to urbanization. Comparing DNA sequence data from museum and contemporary specimens, Blattner et al. show that this expansion is driven by a distinct lineage and that the mixing of this lineage with local ones results in within-species genetic homogenization. [ABSTRACT FROM AUTHOR]

Published

2024

12. Multi-Annual Study of Eriogaster catax (Linnaeus, 1758) (Lepidoptera, Lasiocampidae) Oviposition Strategy in Transylvania's Largest Population: Key Insights for Species Conservation and Local Land Management.

Author

Sitar, Cristian, Sitar, Geanina Magdalena, Ionică, Angela Monica, Hula, Vladimír, Spitzer, Lukáš, Rusu, Alina Simona, and Rakosy, László

Abstract

Simple Summary: This study examines the oviposition preferences (egg-laying) of Eriogaster catax L., an endangered moth found in warmer parts of Europe, typically in semi-natural areas within agricultural landscapes. Although legally protected in Europe, limited information is available on the species' specific ecological needs for egg-laying. Our six-year research in Romania reveals that E. catax selects blackthorn and hawthorn (Prunus spinosa L. and Crataegus monogyna Jacq.) shrubs for egg-laying at an average height of 80 cm, with most eggs positioned between 41 and 80 cm above ground. Each cluster typically contains around 186 eggs. The study also provides essential data on the preferred shape and structure of host plants, which serve as a critical food source for larvae and influence the way eggs are laid. This low oviposition height leaves E. catax vulnerable to human activities like shrub trimming, burning, and grazing, which can damage or destroy egg sites. These findings support the development of targeted conservation strategies that consider these specific oviposition preferences and highlight the importance of community awareness to protect endangered species and sustain biodiversity. This study provides new insights into the oviposition strategy of Eriogaster catax (Linnaeus, 1758) (Lepidoptera, Lasiocampidae), an endangered species of moth found in semi-natural habitats within agricultural landscapes. Protected under various European directives and listed as Data Deficient by the IUCN, E. catax inhabits warmer regions of the Western Palearctic. Despite noted geographic variations in its ecological preferences, few studies have statistically significant data on its ecology. Our six-year study, conducted within the largest known population of E. catax. in Romania, reveals critical data on its oviposition preferences, including the species' tendency to utilize Prunus spinosa L. and Crataegus monogyna Jacq. shrubs at an average height of 80.48 ± 34.3 cm, with most nests placed within the 41–80 cm range and containing an average of 186 ± 22 eggs. The study also addresses the species' vulnerability to human activities such as bush trimming, agricultural burning, and uncontrolled grazing, particularly due to its low oviposition height. These findings underscore the negative impact of overgrazing and burning practices, particularly when conducted on a large scale, on the conservation of E. catax. The detailed ecological requirements identified in this study are essential for developing effective conservation strategies and habitat management practices. Furthermore, the study highlights the importance of local community involvement and public education in raising awareness about biodiversity and the conservation of endangered species. [ABSTRACT FROM AUTHOR]

Published

2024

13. Evidence of Cuticle Chemicals of Heortia vitessoides (Lepidoptera: Crambidae) Larvae Influencing the Aggregation Behavior of Conspecific Larvae.

Author

Yang, Xinya, Li, Guangsheng, and Wang, Cai

Abstract

Simple Summary: Heortia vitessoides (Lepidoptera: Crambidae) larvae usually form large aggregates during young instars, but their gregariousness is reduced during the late instar. Our study shows that hexane extract of second-instar H. vitessoides larvae triggered the aggregation preference of the conspecific larvae, whereas the hexane extract of later-instar larvae was no longer attractive. In addition, acetone extracts of both second- and fifth-instar H. vitessoides larvae repelled the conspecific larvae. Heortia vitessoides (Lepidoptera: Crambidae) is a severe pest of Aquilaria plants, which produce high-priced agarwood. The larval stage of this pest is gregarious, usually forming large aggregates during young instars and becoming solitary during the fifth instar. We hypothesize that the cuticle chemicals of young-instar H. vitessoides larvae could promote larval aggregating, whereas the cuticle chemicals of late-instar larvae would no longer attract young-instar larvae. In this study, two-choice tests were conducted to evaluate the effect of cuticle extracts of second- and fifth-instar H. vitessoides larvae on the aggregation preference of second-instar larvae. Results show that significantly more larvae aggregated on the leaves treated with the hexane extract of second-instar H. vitessoides larvae than on untreated leaves. However, the hexane extract of fifth-instar larvae had no significant effect on the aggregation preference of the second-instar conspecific larvae. Interestingly, acetone extracts of both second- and fifth-instar H. vitessoides larvae repelled the second-instar conspecific larvae throughout the 8 h experiment. Our study shows that cuticle chemicals of H. vitessoides larvae may play a role in the group dynamics of this pest, which may contribute to screening novel attractants and repellents for H. vitessoides. Detailed chemical analyses of the extracts and identification of the compounds involved in larval attracting and repelling would be valuable in future studies. [ABSTRACT FROM AUTHOR]

Published

2024

14. Knock-Out of ACY-1 Like Gene in Spodoptera litura Supports the Notion that FACs Improve Nitrogen Metabolism.

Author

Maruoka, Tsuyoshi, Shirai, Yu, Daimon, Takaaki, Fujii, Rei, Dannoura, Masako, Seidl-Adams, Irmgard, Mori, Naoki, and Yoshinaga, Naoko

Subjects

*WEIGHT loss, *SPODOPTERA littoralis, *BEET armyworm, *GLUTAMINE synthetase, *PARASITIC wasps

Abstract

Volicitin [N-(17-hydroxylinolenoyl)-L-glutamine] and N-linolenoyl-L-glutamine were originally identified in the regurgitant of Spodoptera exigua larvae. These fatty acid amino acid conjugates (FACs) are known to be elicitors that induce plants to release volatile compounds which in turn attract natural enemies of the larvae such as parasitic wasps. FAC concentrations are regulated by enzymatic biosynthesis and hydrolysis in the intestine of Lepidoptera larvae. It has been proposed that FAC metabolism activates glutamine synthetase and plays an important role in nitrogen metabolism in larvae. In this study, we identified candidate genes encoding a FACs hydrolase in Spodoptera litura using genomic information of various related lepidopteran species in which FACs hydrolases have been reported. We analyzed the importance of FAC hydrolysis on caterpillar performance with CRISPR/Cas9 knock outs. Larvae of strains with an inactive FACs hydrolase excreted FACs in their feces. They absorbed 30% less nitrogen from the diet compared to WT caterpillars resulting in a reduction of their body weight of up to 40% compared to wild type caterpillars. These results suggest that the hydrolysis of FACs is an important metabolism for insects and that FACs are important for larval growth. [ABSTRACT FROM AUTHOR]

Published

2024

15. Gregariousness in lepidopteran larvae.

Author

Qian, Chenyu, Wen, Chao, Guo, Xiaoli, Yang, Xinya, Wen, Xiujun, Ma, Tao, and Wang, Cai

Subjects

*CATERPILLARS, *COMPETITION (Biology), *SOCIAL cohesion, *LEPIDOPTERA, *LARVAE

Abstract

The gregarious lifestyle of lepidopteran larvae is diverse and shaped by a complex interplay of ecological and evolutionary factors. Our review showed that the larval‐aggregation behavior has been reported in 23 lepidopteran families, indicating multiple evolution of this behavior. Some larvae live in sibling groups throughout all larval instars and even pupation stages, which may result from the kin‐selection. In contrast, group fusion may occur among different sibling or foraging groups of larvae and form larger aggregates, and the gregariousness of these species might be driven by the group‐selection. While group size and foraging patterns vary greatly across species, it is generally associated with improved larval survivorship and accelerated development. However, the advantages of group living, such as facilitating feeding activities, adjusting the temperature, and defending natural enemies, may diminish along with development, with strong intraspecific competition occurring at later instars, even when food is abundant. Therefore, the group sizes and fission–fusion dynamics of certain gregarious lepidopteran larvae may be a consequence of their cost–benefit balance depending on various biotic and abiotic factors. Trail and aggregation pheromones, silk trails, or body contact contribute to collective movement and group cohesion of gregarious lepidopteran larvae. However, frequent contact among group members may cause the horizontal transmission of pathogens and pesticides, which may bring an integrated pest management strategy controlling gregarious lepidopteran pests. [ABSTRACT FROM AUTHOR]

Published

2024

16. Description of four new species of Eucosmini (Lepidoptera: Tortricidae: Olethreutinae) from India, along with three newly recorded genera.

Author

Naik, Santhosh and Shashank, Pathour Rajendra

Subjects

*TORTRICIDAE, *LEPIDOPTERA, *GENITALIA, *SPECIES, *ADULTS

Abstract

In the present study we have described four new species of Eucosmini (Tortricidae: Olethreutinae) namely Blastesthia umngotana sp. n., Rhopaltriplasia umiamensis sp. n., Zeiraphera mussoorieana sp. n. and Zeiraphera almoraensis sp. n. from India. The genera Blastesthia Obraztsov, 1960, Zeiraphera Treitschke, 1829 and Rhopaltriplasia Diakonoff 1973 are recorded for the first time from India. Descriptions and photographic illustrations of adult habitus, wing venation and genitalia are provided. [ABSTRACT FROM AUTHOR]

Published

2024

17. Safeguarding rice crops in Nepal: unveiling strategies against the yellow stem borer (Scirpophaga incertulas).

Author

Subedi, Susmita, Bohara, Amrit Kumar, Thapa, Susmita, and Timilsena, Kiran

Subjects

*RICE, *BACILLUS thuringiensis, *LEPIDOPTERA, *PEST control, *BEETLES

Abstract

Rice (Oryza sativa L.) is a vital crop with enormous economic and nutritional importance in Nepal and worldwide. The yellow stem borer (YSB), Scirpophaga incertulas (Walker) (Lepidoptera: Crambidae), is a monophagous severe pest that poses a substantial threat to rice crops, causing significant yield losses by its larva feeding on stems and tillers. This review covers the life cycle, distribution, damage, and management and control strategies of YSB. YSB primarily targets rice plants, causing symptoms like dead hearts and whiteheads. Integrated pest management (IPM) strategies are crucial for effective YSB control. Cultural practices include selecting resistant rice varieties, using Bacillus thuringiensis (Bt) incorporated transgenic rice plants, synchronizing planting to reduce generations, and promoting natural enemies by conserving their habitats. Mechanical methods involve pheromone and light traps to disrupt mating and reduce adult populations. Biological control methods utilize natural predators like beetles and spiders and parasitoids such as Cotesia flavipes and Trichogramma spp. In contrast, chemical control involves targeted insecticide application when pest populations reach economic threshold levels that is when 5–10% dead hearts are seen. The article emphasizes the importance of IPM techniques in reducing YSB infestation and fostering sustainable rice production. These approaches not only help to lower the YSB population but also contribute to environmental preservation and long-term agricultural viability. As rice is a staple food for millions, effective management of YSB becomes crucial for guaranteeing food security and livelihoods across the globe. [ABSTRACT FROM AUTHOR]

Published

2024

18. Identifying sites with high biodiversity value using filtered species records from a biodiversity information facility.

Author

Duflot, Rémi and Vähätalo, Anssi V.

Subjects

*SPECIES diversity, *ENDANGERED species, *NUMBERS of species, *LEPIDOPTERA, *CITIZEN science

Abstract

Aim: Efficient mitigation of the biodiversity crisis requires targeted conservation actions in locations with high species richness, the presence of endangered species and unique species communities. However, prioritising sites remains challenging because of sparse knowledge on biodiversity, limiting the possibility of communicating efficiently with local decision makers. We examine easy‐to‐replicate, yet robust, methods to identify areas with high conservation values on large spatial scales using data filtering and complementary biodiversity indicators based on species records from a biodiversity information facility. Location: Finland, Europe. Methods: We illustrate the protocol by focusing on Lepidoptera in Finnish municipal districts. We mobilised over 3 million species records on 878 native Lepidoptera (2001–2020) from the Finnish Biodiversity Information Facility. We estimated the richness of overall and endangered species using species accumulation curves, as well as the uniqueness of species communities, using measures of local contribution to beta diversity (LCBD). After testing for multiple thresholds and their effect on indicator accuracy, 97 districts with >5000 records were included in the analyses. Results: Estimated overall species richness was highest on the southern coast and significantly decreased in the North, following a known pattern with Lepidoptera in Finland. Species richness was not the highest in the districts with the greatest number of records and the ranking differed from the raw data, demonstrating the importance of correcting for sampling intensity. The estimated number of endangered species correlated with overall species richness, except in northernmost districts, where the proportion of endangered species was exceptionally high. High LCBD replacement (i.e. unique species communities) was concentrated in the Southwest (hemi‐boreal) and North (northern boreal) of the country. Main Conclusions: We provided an example and interpretations of how scalable biodiversity indicators based on accumulation curves and LCBD analyses, and careful data filtering (thresholds) can be used to identify sites with conservation priorities from multi‐sourced species records. [ABSTRACT FROM AUTHOR]

Published

2024

19. Characterization of chitin and description of its antimicrobial properties obtained from Cydalima perspectalis adults.

Author

Kılcı, Leyla, Altun, Nurver, Karaoğlu, Şengül Alpay, and Karaduman Yeşildal, Tuğçe

Subjects

*CHITIN, *SCANNING electron microscopy, *INFRARED spectroscopy, *BACILLUS subtilis, *CYTOTOXINS

Abstract

Chitin is the most abundant biopolymer group after cellulose and forms the exoskeleton of arthropods, the largest animal group. The morphology of chitin differs between and within species. In this study, we determined the physicochemical and biological activity of chitin samples obtained from different body parts of the boxwood moth Cydalima perspectalis for its application as a biotechnological material. The collected chitin samples were characterized by scanning electron microscopy (SEM), Fourier-transform infrared spectroscopy (FTIR), thermogravimetric analysis (TGA), and elemental analysis. FTIR confirms that the isolation of chitin is successful. The SEM results showed that the surface morphology of the obtained chitins was both fibrous and porous and had a rough surface. As a result of the elemental analysis, the %N values of chitins were calculated as 6.60 on average, and the values were shown to be close to each other. We also investigated the biocompatibility and antimicrobial properties of these chitin samples. We used L929 (mouse fibroblast) cells to perform indirect cytotoxicity experiments and investigated their viability by performing the MTT assay. Our findings showed that the samples had no cytotoxic effect on the L929 cells at 24, 48, and 72 h. The cytotoxic study showed that Escherichia coli, Bacillus subtilis, Staphylococcus aureus bacteria, and Candida albican fungi adhered to chitin surfaces regarding biofilm production. The chitin contents were determined as 21.02% for the head, 5.74% for the body, 32.22% for the wing, 33.53% for the legs, and 2.65% for the pupal shell. Chitin is a material with high potential for use in various fields. Our findings suggested that Cydalima perspectalis can be used as an alternative source of chitin in biomedical applications. [ABSTRACT FROM AUTHOR]

Published

2024

20. Effects of florfenicol on the midgut physiological function of Bombyx mori, based on the diversity of intestinal microbiota.

Author

Tian, Chao, Zou, Hongbin, Guo, Xiqian, Shu, Qilong, Zhang, Xiaoxia, Cheng, Jialu, Gu, Zhiya, Li, Fanchi, and Li, Bing

Subjects

*SILKWORMS, *GUT microbiome, *REACTIVE oxygen species, *LEPIDOPTERA, *SERICULTURE, *MICROBIAL enzymes

Abstract

Florfenicol (FF) is a new antibiotic commonly used in sericulture. This study aimed to examine the effects of low (LC: 0.06 g/L), medium (MC: 0.12 g/L), and high (HC: 1.2 g/L) concentrations of FF on the midgut physiological functions of the silkworm, Bombyx mori (L.) (Lepidoptera: Bombycidae). The results showed that the body weight and the whole cocoon weight of silkworms decreased and the development duration of the fifth instar was prolonged in the HC group. The structure of intestinal microbiota of silkworm larvae was changed by high FF exposure. Specifically, the abundance of conditional pathogens (Curtobacterium, Sanguibater, etc.) was significantly increased, whereas the abundance of Pseudomonas and Pedobacter was decreased significantly. Additionally, the intestinal reactive oxygen species level at 72 h was significantly elevated, and the muscle layer had become loose, together with the appearance of gut goblet cell atrophy. We observed that the increase in Lactobacillus abundance led to a reduction in intestinal fluid pH, resulting in decreased α‐amylase and protease activities, whereas lipase activity exhibited an elevation. The results demonstrated that the accumulation of peroxides induced by exposure to 1.2 g/L FF caused intestinal damage, and the decrease in pH resulting from alterations in microbial composition and structure affected digestive enzyme activity, collectively leading to physiological impairment of the silkworm midgut. These findings provide a valuable reference for the safe use of FF in sericulture. [ABSTRACT FROM AUTHOR]

Published

2024

21. Effects of Bacillus thuringiensis var. israelensis Strains and Toxins on the Pine Processionary Moth Thaumetopoea wilkinsoni (Lepidoptera: Notodontidae).

Author

Elif-Fatma Topkara, Yanar, Oğuzhan, Doruk, Tuğrul, and Terzi, Yüksel

Subjects

*BACILLUS thuringiensis, *BACILLUS (Bacteria), *TOXINS, *LEPIDOPTERA, *PINE

Abstract

The pine processionary moth Thaumetopoea wilkinsoni (Tams, 1926) (Lepidoptera: Notodontidae) is one of the most harmful species that causes destruction in pine ecosystems and also causes critical skin reactions in humans and animals due to its urticating hairs. This study aimed to evaluate the efficacy of different strains [Bti ATCC 35646 (wild-type strain), Bti pHT315, and Bti pHTppk (mutant strain)] of Diptera-targeted Bacillus thuringiensis subsp. israelensis (Bti) and toxins (spore/crystal mixtures) obtained from these strains against the 4th larval stage of T. wilkinsoni under laboratory conditions. T. wilkinsoni eggs were collected from pine trees at Ondokuz Mayıs University in Samsun, Turkey, in 2022. Pine needles were contaminated with bacterial strains of different concentrations (1 × 107, 1 × 108, 1 × 109 cfu/mL) in 5 mL and toxins in different concentrations (0.15, 0.3, 0.6, 1.25, 2.5, 5 mg/mL) in 2 mL. Larvae were placed in containers with 30 larvae in each group and were observed for 25 days. As a result of the study, Bti ATCC 35646 with 63.4% mortality and the lowest LC50 value of 1.2 × 109 cfu/mL among the three strains of Bti and Bti pHTppk with 76.7% mortality and the lowest LC50 value of 1.2 mL among the toxins from the Bti strains had found to be virulent for T. wilkinsoni. The results obtained from our study suggest that Diptera-targeted Bti is virulent to T. wilkinsoni and that this strain and spore/crystal mixture can be used in the biological control of this species. [ABSTRACT FROM AUTHOR]

Published

2024

22. Unveiling the Role of Angiosperm Pollen Morphology in Attachment to the Moth (Lepidoptera) Proboscides.

Author

Dipayan Mitra, Lenka, Rajesh, Chowdhury, Monoranjan, and Singh, Navneet

Subjects

*POLLEN, *MOTHS, *POLLINATION, *LEPIDOPTERA, *ANGIOSPERMS

Abstract

The current study aims to understand the role of various morphological features of pollen grains in attachment with moth proboscides. To test the hypothesis, moth samples are collected from 11 sites in three districts of Arunachal Pradesh and West Bengal, North East India. Pollen of 18 angiosperm families are isolated from the proboscides of 16 moth species in four families. We selected proboscides for the isolation of pollen because it is the most important organ of moths which interacts with flowers during moth visitation. The isolated pollen is studied for various morphological characters like pollen shape, unit, exine ornamentation, thickness, aperture numbers, and aperture types along with specialized structures i.e., viscin thread and pollenkitt, and analyzed for their attachment on the proboscides. The present study revealed the significant role of pollen shape, unit, exine characters, viscin thread, and pollenkitt in attachment with proboscides. Whereas, the aperture numbers and aperture types are found insignificant in the process of pollen attachment. Studies on the formation of viscin thread and pollenkitt may be established as an important tool to understand the specialized and generalized interactions between moths and angiosperms. The present study will open up a new horizon in pollination ecology. [ABSTRACT FROM AUTHOR]

Published

2024

23. Complex evolution in thin air: Investigating female flightlessness and diel behaviour in geometrid moths (Lepidoptera).

Author

Lee, Kyung Min, Murillo‐Ramos, Leidys, Huemer, Peter, Hausmann, Axel, Staude, Hermann S., Mayr, Toni, and Sihvonen, Pasi

Subjects

*MOUNTAIN ecology, *MOLECULAR phylogeny, *GEOMETRIDAE, *GENETIC markers, *MOTHS

Abstract

Many unique high‐altitude mountain ecosystems have been declining due to climate change, posing a threat to flora and fauna that have adapted to these ecosystems. This study explores the evolution of high‐altitude adaptations, focusing on female flightlessness and diel activity, in geometrid moths (Lepidoptera: Ennominae, Gnophini) within the European Alps. We constructed a phylogeny of Gnophini moths using a dataset of 157 taxa, with up to seven genetic markers and traced the evolutionary history of diel activity and wing length reduction in females. Analysis of divergence times suggested that female flightlessness has evolved at least three times independently between the early and late Miocene. The evolution of wing length reduction is likely correlated with elevation, indicating adaptations to cold and windy conditions in high altitude. The evolutionary events leading to shifts in adult diel activity, from ancestral nocturnality to diurnality, have occurred independently at least three times and may also be a consequence of adaptations at high elevations. Strikingly, among diurnal Sciadia, two species have evolved further to become nocturnal like their ancestors. Our findings highlight how phylogenies can provide new insights into evolutionary patterns in moths. We provided a robust basis for resolving taxonomic ambiguities in Alpine Gnophini, leading us to propose 10 changes to the current classification: Scrupodes Lee & Sihvonen gen. n., Elophos Boisduval (type species Geometra operaria Hübner) is considered a junior synonym of Sciadia Hübner syn. n., Yezognophos dilucidaria (Denis & Schiffermüller) and Y. sproengertsi (Püngeler) are transferred to Parietaria Leraut comb. n., Yezognophos serotinaria (Denis & Schiffermüller) is transferred to Scrupeus Lee & Sihvonen comb. n., Elophos caelibaria (Heydenreich), E. zirbitzensis (Pieszcek), E. operaria (Hübner) and E. andereggaria (De La Harpe) are transferred to Sciadia Hübner comb. n. and Dichrognophos Wehrli (type species Gnophos orthogonia Wehrli) is transferred from Ennominae: Cassymini to Ennominae: Gnophini. [ABSTRACT FROM AUTHOR]

Published

2024

24. Can species endure massive introgression? Genomic evidence of asymmetric gene flow in Melitaea butterflies.

Author

Hinojosa, Joan C., Marques, Valéria, Mesa, Luis Sánchez, Dapporto, Leonardo, Dincă, Vlad, and Vila, Roger

Subjects

*SPECIES hybridization, *NYMPHALIDAE, *PHENOTYPES, *CHROMOSOMES, *LEPIDOPTERA, *GENE flow

Abstract

Hybridisation and introgression are increasingly seen as important drivers of the evolution of organisms, particularly in Lepidoptera. One group that is gaining attention due to recently published cases of interspecific gene flow is the genus Melitaea Fabricius (Nymphalidae). In this study, we used genomics to investigate the role of hybridisation in the evolution of the western Palearctic species of the Melitaea phoebe group M. ornata Christoph, the recently described M. pseudornata Muñoz Sariot & Sánchez Mesa, M. phoebe (Denis & Schiffermüller), M. punica Oberthür, and M. telona (Fruhstorfer). We provide evidence of asymmetric gene flow from M. phoebe to both M. ornata and M. pseudornata. Gene flow from M. phoebe to M. pseudornata was very high (25.0%–31.9%), widespread throughout the distribution of the latter, and not equally distributed along the genome. The Z chromosome showed patterns compatible with the large‐Z effect, which were mimicked by two autosomes. Melitaea pseudornata endured massive introgression while remaining a separate entity from M. phoebe, although gene flow may have altered its phenotype, including its voltinism and the morphology of the adults and caterpillars. These findings suggest that hybridisation may be pervasive in this genus and highlight its key role in the evolution of butterflies, emphasising the need for further research on this topic. [ABSTRACT FROM AUTHOR]

Published

2024

25. Drivers of moth phenology in England and Wales.

Author

Hickinbotham, Emily J., Pattison, Zarah, Fox, Richard, and Rushton, Steve P.

Subjects

LIFE history theory, CLIMATE change, PHENOLOGY, LEPIDOPTERA, MOTHS, PLANT phenology

Abstract

Climate change has led to changes in the phenology of Lepidoptera species. While phenological shifts have been previously measured for moth species in England and Wales, the drivers of these shifts are not well known. Here, we use data from the National Moth Recording Scheme and the Garden Moth Scheme to investigate the drivers of phenology in 149 moth species over a 50 year period from 1970 to 2019. We investigate whether there have been phenological shifts in adult emergence using three phenology metrics: First Emergence (FE), Peak Emergence (PE), and Emergence Standard Deviation (ESD) in relation to life history traits and temperature. Overwintering stage had a significant impact on moth phenology, so we analysed species that spend the winter as eggs, larvae or pupae separately. Overall phenological changes were different depending on overwintering stage category and phenological measure, with the rate of phenological shifts increasing with later overwintering life stages in response to both temperature and year. The overwintering stage larva was the only one impacted by diet, with those that feed on woody hostplants emerging ~ 17 days later than species with herbaceous hostplants. These results indicate that species that either overwinter in earlier life stages or have woody hostplants may be less adaptable to climate change, and thus should be the targets of conservation efforts. [ABSTRACT FROM AUTHOR]

Published

2024

26. Changes to butterfly phenology versus elevation range after four decades of warming in the mountains of central Spain.

Author

Goded, Marta, Ursul, Guim, Baz, Arturo, and Wilson, Robert J.

Subjects

INSECT conservation, GROWING season, CLIMATE change, SPRING, PHENOLOGY, PLANT phenology

Abstract

Shifts over time (phenology) and space (latitude and elevation range) represent common ecological responses to climate change. However, the factors determining how changes in phenology and distribution interact, and the consequences for conservation, remain uncertain. Here, we assess how phenology responded to temperature over four decades of warming across the elevation ranges of 18 univoltine butterfly species in four mountain regions of Spain. Using count data from intermittent surveys in 166 sites between 1985 and 2022, we tested for (1) effects of monthly temperature and elevation on mean annual flight date; (2) changes to flight dates between 1985–2005 and 2017–2022; and (3) whether shifts in flight date were related to shifts in the average elevation occupied. Mean flight dates were later in years with cooler springs, and at higher sites, with a mean delay of nearly twenty days per km elevation increase. As conditions warmed over time, average flight date advanced for two thirds of species, especially those whose average elevation was stable over time. Species with stable flight dates showed greater indication of upward range shifts, although only one species showed a significant shift in average elevation. Implications for insect conservation: We show that spring temperatures influence mountain butterfly phenology, and that shifts in phenology and elevation range could compensate for each other in determining population exposure and responses to climate change. Monitoring these changes over time, including by employing evidence from historical surveys and scientific collections, can help to understand constraints on species adaptive capacity to climate change. [ABSTRACT FROM AUTHOR]

Published

2024

27. Heatwave predicts a shady future for insects: impacts of an extreme weather event on a chalk grassland in Bedfordshire, UK.

Author

Hayes, Matthew P., Ashe-Jepson, Esme, Hitchcock, Gwen E., Clark, Ryan, Hellon, Josh, Knock, Richard I., Bladon, Andrew J., and Turner, Edgar C.

Subjects

EXTREME weather, COLD-blooded animals, INSECT conservation, HEAT waves (Meteorology), INSECT communities

Abstract

Climate change is set to become one of the leading causes of biodiversity loss worldwide, with extreme weather events projected to increase in frequency. Ectothermic animals such as insects are at particular risk, especially when they are isolated and unable to move through the landscape to track suitable climate. To protect such taxa, it is important to understand how they are impacted by extreme weather events and whether management could provide effective microclimate refuges. However, potential management interventions remain untested for many species. Here, we show that the extreme high temperatures experienced in the UK on 19th July 2022 resulted in a community of butterflies becoming inactive, but that shaded areas, including artificial slopes created as part of conservation management for climate change, provided a refuge during this period. Our results indicate that future high temperatures could force butterflies to shelter in the shade, potentially being unable to fly, feed or mate during these periods, with possible long-term impacts, particularly if multiple consecutive high temperature days are experienced. Implications for Insect Conservation: Producing artificial slopes and integrating patches of scrub within grassland could create an array of microclimates that allow butterflies and other invertebrates to thermoregulate, providing a refuge during extreme weather events. Our findings highlight the dramatic effect of extreme temperatures on insect communities, as well as simple management solutions that could be implemented widely and relatively easily by conservation managers, to counter some of the negative impacts of rising temperatures and extreme weather events. [ABSTRACT FROM AUTHOR]

Published

2024

28. Habitat associations of day-flying Lepidoptera and their foodplants within nature reserves in Bedfordshire, UK.

Author

Ashe-Jepson, Esme, Anderson, Juliet, Hitchcock, Gwen E., Wallis, Sky, Wingader, Keira, Bladon, Andrew J., and Turner, Edgar C.

Subjects

INSECT conservation, HABITAT selection, HABITAT conservation, NATURE reserves, LEPIDOPTERA

Abstract

Species often associate with specific habitat characteristics, resulting in patchy distributions, whereby they only occupy a proportion of available habitat. Understanding which characteristics species require is a valuable tool for informing conservation management. We investigated the associations of eleven species of day-flying Lepidoptera larvae and their foodplants with habitat characteristics within calcareous grassland reserves in Bedfordshire, UK, across two scales relevant to land managers and target species: the reserve (cardinal aspect, vegetation type) and foodplant patch scale (foodplant height and density). We investigated whether ecological traits (habitat specialism, as defined at a national-scale, and overwintering life stage) influenced the strength of associations. At the reserve scale, we found variation in associations with habitat characteristics across species, with species that overwinter at non-adult life stages having more restricted associations, indicating that they may be more vulnerable to environmental change. Associations were generally stronger with vegetation type than aspect, which can be manipulated more easily by land managers. Seven species had similar associations with habitat characteristics to their foodplants, implying that management to benefit foodplants will also benefit larvae. However, the remaining four species had different associations to their foodplants, and may require alternative management approaches. At the foodplant patch scale, four species were associated with foodplant characteristics, which could be used to inform effective fine-scale management. Implications for insect conservation: Implications for insect conservation: Diverse habitat associations imply that topographic and vegetation variation are valuable for supporting diverse assemblages of butterflies and their foodplants. [ABSTRACT FROM AUTHOR]

Published

2024

29. Descriptions d'Omia rosseti sp. n. et d'Omia lebihani sp. n. taxons différenciés du sud de la France (Lepidoptera, Noctuidae, Oncocnemidinae).

Author

Nel, Jacques, Rosset, Patrick, and Varenne, Thierry

Abstract

Copyright of R.A.R.E - Association Roussillonnaise d'Entomologie is the property of Association Roussillonnaise d Entomologie and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

30. A new subspecies of / Une nouvelle sous-espèce de Peribatodes secundaria ([Denis & Schiffermüller], 1775) from Corsica / de Corse P. secundariafabii n. ssp. (Lepidoptera, Geometridae, Larentiinae).

Author

Fiumi, Gabriele and Govi, Guido

Subjects

GEOMETRIDAE, LEPIDOPTERA, GENETIC barcoding, SUBSPECIES, BIOLOGICAL classification

Abstract

Copyright of R.A.R.E - Association Roussillonnaise d'Entomologie is the property of Association Roussillonnaise d Entomologie and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

31. Oxyptiluspravieli Bigot, Nel & Picard, 1989 bona species, stat. restaur. (Lepidoptera, Pterophoridae).

Author

Nel, Jacques, Huemer, Peter, and Varenne, Thierry

Abstract

Copyright of R.A.R.E - Association Roussillonnaise d'Entomologie is the property of Association Roussillonnaise d Entomologie and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

32. Taxonomic review of genus Gazalina Walker (Thaumetopoeinae: Notodontidae: Lepidoptera) from India.

Author

Kaleka, Amritpal Singh, Bali, Gagan Preet Kour, and Kaur, Navkiran

Subjects

NOCTUIDAE, SEQUENCE analysis, LEPIDOPTERA, MOTHS, GENITALIA

Abstract

The taxonomic position of the genus Gazalina Walker remained ambiguous and it continuously reshuffled its position in the family Notodontidae and subfamily Lymantriinae of family Erebidae. The present study has been carried out to elucidate its taxonomic position in accordance with the morphological, molecular, larval, and behavioural characteristics of its species. A detailed account of two species namely Gazalina chrysolopha (Kollar) and Gazalina apsara (Moore), the type species of this genus, has also been given. The CoI sequence of Gazalina chrysolopha (MH795522) and Gazalina apsara (MH790288) from the present study were compared with the available reference sequences in Genbank by using BLAST. Its placement under the subfamily Thaumetopoeinae of the family Notodontidae has been justified. [ABSTRACT FROM AUTHOR]

Published

2024

33. Region‐specific diversification dynamics and biogeographic history of one of the most diverse families of insects.

Author

Ghanavi, Hamid Reza, Chazot, Nicolas, Sanmartín, Isabel, Murillo‐Ramos, Leidys, Duchêne, Sebastián, Sihvonen, Pasi, Brehm, Gunnar, and Wahlberg, Niklas

Subjects

*GEOMETRIDAE, *FAMILY relations, *SPECIES distribution, *LEPIDOPTERA, *OLIGOCENE Epoch

Abstract

A long‐standing question in evolutionary biology is how historical biogeographic processes have shaped the current diversity of organisms, especially for highly diverse groups. We study the diversification dynamics and biogeographic processes of one of the most diverse families of Lepidoptera, Geometridae, with over 24,000 described species and a worldwide distribution. Despite the cosmopolitan distribution of the family, most species of Geometridae have limited distribution ranges. We present the largest historical biogeography and diversification study on the current diversity patterns and distribution ranges of Geometridae. We use a multi‐locus dataset of 1200 taxa to estimate the historical biogeography of Geometridae, implementing a Bayesian approach of the Dispersal‐Extinction‐Cladogenesis (DEC) model that incorporates palaeographic‐based dispersal graphs with uncertainty in geological ages in RevBayes. We also implement a Bayesian time‐variable, episodic birth–death model and a model that allows branch‐specific speciation rates to estimate the diversification dynamics in the family. Our results suggest that the most recent common ancestor of Geometridae was distributed in the New World, with the Neotropics being the most likely ancestral area. An increase in diversification rates occurred circa 30–40 million years ago (Mya), coinciding with a time of a major global climate cooling in the Eocene. Clade‐specific shifts in speciation rates also occurred around 10–15 Mya, coincident with another period of major climate change in the Oligocene. Our results point to different biogeographical and evolutionary histories per area to show the differences of the diversification rates in different biogeographical regions through time, showing the relative importance of each region in the diversification history of Geometridae. [ABSTRACT FROM AUTHOR]

Published

2024

34. Transcriptome analysis reveals glycometabolism and antioxidation-related genes involved in the antifungal immune response of Spodoptera frugiperda larvae against Beauveria bassiana infection.

Author

YONGKAI MAO, JIEQUN YI, YINJIE CHENG, HAN WU, JIHULI, MINGJIANG LIN, HANLIANG XU, ZHENQIANG QIN, and JIANBAI LIU

Subjects

*PESTICIDE resistance, *FALL armyworm, *GENE expression, *BEAUVERIA bassiana, *METABOLIC regulation

Abstract

Spodoptera frugiperda damages crops around the world and has developed resistance to many pesticides. Beauveria bassiana, a fungus that is harmless to humans and the environment, is widely used in pest control. In our study, differentially expressed genes between S. frugiperda larvae, both exposed and unexposed, to B. bassiana were analyzed by transcriptome sequencing. More than 160 Gb of clean data were obtained, and 2767 and 2892 DEGs were identified in LH36vsCK36 and LH144vsCK144, respectively. To explore the roles of glycometabolism and antioxidation-related enzyme genes in S. frugiperda against B. bassiana infection, the expression patterns of those genes when under attack from B. bassiana were analyzed by quantitative real-time PCR. The results of enzyme activity experiments revealed that S. frugiperda larvae exposed to B. bassiana could upregulate these genes to produce more enzymes related to the maintainance of normal glucose metabolism, as well as regulate the expression of detoxification and antioxidant factors to enhance the larvae's detoxification and antioxidant capacity. The result implied that glycometabolism and antioxidation-related enzymes and genes played critical roles in the antifungal immune process of S. frugiperda larvae. This study enhances our understanding of the molecular mechanisms related to regulation of metabolism and provides a basis for exploring new methods to combat antifungal resistance in S. frugiperda. [ABSTRACT FROM AUTHOR]

Published

2024

35. Chemical composition and toxic effects of an ethanolic extract of Senecio rudbeckiaefolius on Diatraea saccharalis larvae.

Author

Terán, Paula M., Merep, Ana P., García Degano, Florencia, Gastaminza, Gerardo, Lizarraga, Emilio, and Ajmat, María T.

Subjects

*SUGARCANE borer, *POISONS, *INTESTINAL mucosa, *INTEGRATED pest control, *PYRROLIZIDINES, *SUGARCANE

Abstract

Diatraea saccharalis Fabricius (Lepidoptera: Crambidae), known as sugarcane borer, is the most damaging pest of sugarcane (Saccharum officinarum L., Poaceae) in northwestern Argentina and it causes significant losses in sugar and ethanol production. Currently, chemical and biological controls are used, along with host plant resistance, but there is a clear trend toward adoption of integrated pest management strategies. Considering the potential environmental and health risks associated with using agrochemicals, our study focuses on utilizing bioactive natural products, specifically plant secondary metabolites. Senecio rudbeckiaefolius Meyen & Walp (Asteraceae) is a perennial shrub found in southern Peru, Bolivia, and northwestern Argentina, valued for its use in traditional medicine. The main compounds of the genus Senecio are sesquiterpenes, with some species containing pyrrolizidine alkaloids (PAs), known for their harmful effects on herbivorous insects and vertebrates. Plant extracts exhibit several modes of action, encompassing confusion, feeding deterrence, growth regulation, insecticidal, and repellent effects. Our goal was to analyze the chemical composition of an ethanolic extract (EE) of S. rudbeckiaefolius and evaluate its lethal and sublethal effects on D. saccharalis larvae. We also investigated the potential target sites affected by the ingestion of an alkaloidal fraction from the EE (AFEE) through a midgut histological study. The main secondary metabolites identified were the PAs and phenolic compounds, with the highest concentrations found in the flowers and leaves. The majority of the PAs identified were senecionine and integerrimine. Toxicity bioassays were carried out with larvae fed on a diet supplemented with an EE of S. rudbeckiaefolius. Concentration‐dependent mortality and a marked inhibition of larval growth were recorded. We described the midgut histological structure and compared it with that of AFEE‐fed larvae. Various morphological changes were observed in the intestinal epithelium, especially an increase in the number of goblet cells and pronounced acidophilic secretion in the lumen. These results suggest that the EE of S. rudbeckiaefolius could be promising for D. saccharalis control. [ABSTRACT FROM AUTHOR]

Published

2024

36. Chromosome-level genome assembly of the forest pest Achelura yunnanensis (Lepidoptera: Zygaenidae).

Author

Fang, RunZhao, Tian, Xiao, Liang, Dan, and Zhang, Peng

Subjects

LEPIDOPTERA, BIOTRANSFORMATION (Metabolism), GENOMES, CYTOCHROME P-450, TREE growth, CHROMOSOMES, FOREST biodiversity

Abstract

Achelura yunnanensis is a destructive pest of forests, causing substantial damage on tree growth and severe economic losses. Additionally, as a daytime-active moth, this species also holds important scientific value for investigating the genetic mechanisms governing day-night activity patterns of Lepidoptera. To facilitate effective pest control and deepen our understanding of the diurnal behavior's genetic basis of moths, genomic data for this species are crucial. In this study, we present a chromosome-level reference genome of A. yunnanensis (368.15 Mb in 32 chromosomes; scaffold N50 = 12.61 Mb; BUSCO completeness = 98.0%). Genome annotation shows that the new assembly comprises 37.10% (136.55 Mb) repetitive elements, 1,828 non-coding RNAs, and 15,523 protein-coding genes. Genes involved in lipid metabolism and xenobiotics biodegradation and metabolism, such as cytochrome P450 families, experienced significant expansion in the A. yunnanensis genome. The chromosome-level genome of A. yunnanensis provides a valuable genomic resource for devising novel pest control strategies, and will also help to study the genetic mechanism of the shift of diurnal behavior in Lepidoptera. [ABSTRACT FROM AUTHOR]

Published

2024

37. Butterflies, bumblebees and hoverflies are equally effective pollinators of Knautia arvensis (Caprifoliaceae), a generalist plant species with compound inflorescences.

Author

Ollerton, Jeff, Coulthard, Emma, Tarrant, Sam, Woolford, James, Jorge, Leonardo Ré, and Rech, André Rodrigo

Subjects

*POLLINATORS, *POLLINATION, *SYRPHIDAE, *PLANT species, *FLOWERING time

Abstract

Plant‐pollinator interactions exist along a continuum from complete specialisation to highly generalised, that may vary in time and space. A long‐held assumption is that large bees are usually the most effective pollinators of generalist plants. We tested this by studying the relative importance of different groups of pollinators of Knautia arvensis (L.) Coult. (Caprifoliaceae: Dipsacoideae). This plant is suitable for such a study because it attracts a diversity of flower visitors, belonging to different functional groups. We asked whether all functional groups of pollinators are equally effective, or if one group is most effective, which has been documented in other species with apparently generalised pollination systems. We studied two subpopulations of K. arvensis, one at low and one at high density in Northampton, UK. To assess pollinator importance we exposed unvisited inflorescences to single visits by different groups of pollinators (butterflies, bumblebees, hoverflies and others) and assessed the proportion of pollinated stigmas. We then multiplied the effectiveness of each pollinator group with their proportional visitation frequency in five different years. For each group we also compared time spent on flowers and flight distance between visits. The relative importance of each pollinator group varied between years, as did their flight distances between flower visits. Butterflies were the best pollinators on a per visit basis (in terms of the proportion of stigmas pollinated) and flew further after visiting an inflorescence. Different measures and proxies of pollinator effectiveness varied between taxa, subpopulations, and years, and no one group of pollinators was consistently more effective than the others. Our results demonstrate the adaptive value of generalised pollination strategies when variation in relative abundance of different types of pollinators is considered. Such strategies may have buffered the ability of plants to reproduce during past periods of environmental change and may do so in the future. [ABSTRACT FROM AUTHOR]

Published

2024

38. Population comparison of innate and plastic host plant preference and performance in a polyphagous insect.

Author

Green, Kristina Karlsson, Pasqual, Chiara De, Litto, Maria, Anderson, Peter, Dion, Emilie, and Badenes-Pérez, Francisco Rubén

Subjects

HOST plants, SPODOPTERA littoralis, PHYTOPHAGOUS insects, EGYPTIANS, PHENOTYPIC plasticity, COWPEA

Abstract

During decision-making, animals may use either innate or plastic behaviours. This has been suggested to be important for generalist phytophagous insects where females need to assess a large range of cues during host plant selection for oviposition. To facilitate the choice, generalists may thus use innate preference hierarchies among host plants combined with phenotypic plasticity based on earlier host experience, but if populations differ in whether they rely on innate or plastic factors during decision-making is not well-known. Females from an Egyptian population of the polyphagous moth Spodoptera littoralis has previously been found to shift preference between plants in their innate preference hierarchy depending on larval host plant experience. We studied the innate preference hierarchy for three host plants (cotton, cabbage and cowpea), and whether the hierarchy shifts based on larval host plant experience, in a Northern range margin population (Italy) and a core population (Kenya) of S. littoralis, to see if and how these traits vary across populations. In addition, we studied larval performance on the three host plants in all three populations. The Italian and Kenyan populations had different innate preference hierarchies, and both hierarchies differed from the hierarchy that has previously been found in the Egyptian population. Furthermore, the host plant selection of ovipositing females was affected by larval diet in the Italian and Kenyan population, but the larval host plant experience did not completely shift the preference hierarchy as in the Egyptian population. This indicates that not only host plant preference per se, but also phenotypic plasticity during host plant selection can vary between populations. We further found that the populations responded differently to larval diet for some performance traits. However, it was only the Italian population that showed indications of any link between preference and performance, as they had slower development on their least preferred host plant. Overall, preference divergence between populations seems not to be driven by local variation in larval performance. [ABSTRACT FROM AUTHOR]

Published

2024

39. CHECKLIST OF THE BUTTERFLIES AND MOTHS (LEPIDOPTERA) OF THE BURREN REGION OF WESTERN IRELAND.

Author

NELSON, BRIAN, O'DONNELL, MICHAEL, BOND, KEN G. M., CONNOR, ÁINE O., MARNELL, FERDIA, and COTTER, STEPHEN

Subjects

*LEPIDOPTERA, *MOTHS, *SPECIES, *ANNIVERSARIES

Abstract

The year 2024 marks the 75th anniversary of the discovery of the Burren Green Calamia tridens in Ireland and we provide a complete checklist of the Lepidoptera of the Burren region of western Ireland, the first such list since 1967. The checklist is compiled from published sources and verified records. In total 1,002 species are listed as present in the region up to the end of 2023 which represents 65% of the Irish Lepidoptera fauna. 27 species are only present in the Burren region within Ireland and two of these are only found here within Britain and Ireland. The Burren region supports a significant proportion of the Irish Red-listed macromoths and butterflies. The history of recording in the Burren region is briefly described. [ABSTRACT FROM AUTHOR]

Published

2024

40. Lethal and sublethal effects of calcium carbonate formulation against fall armyworm, Spodoptera frugiperda.

Author

Hidayat, Yusup, Octaviani, Widya Salsabila, Meliansyah, Rika, Sudarjat, Maharani, Yani, Dono, Danar, and Ang, Gurion

Subjects

*FALL armyworm, *BIOLOGICAL insecticides, *INTRODUCED insects, *CALCIUM carbonate, *INSECT pests

Abstract

The fall armyworm (FAW), Spodoptera frugiperda (J.E. Smith) (Lepidoptera: Noctuidae), is an important insect pest of maize (Zea mays L., Poaceae). The use of synthetic insecticides to control this pest remains the most popular option amongst growers. Natural insecticides offer a safer alternative to synthetic insecticides for controlling FAW. This study aimed to investigate the lethal and sublethal effects of a calcium carbonate formulation against this invasive insect pest. The tested formulation was a mixture of calcium carbonate (five concentrations), wetting agent and dispersant agent. Four experiments were conducted including a direct contact test, a no‐choice feeding test, a choice feeding test and an oviposition test. The application of the calcium carbonate formulation on maize leaves had a strong anti‐oviposition effect for adult female FAW, but a low‐to‐moderate antifeedant effect on FAW larvae. The growth and development of FAW larvae were only slightly affected by the calcium carbonate formulation in the feeding and the direct contact tests. The lethal effects of the calcium carbonate formulation against FAW larvae were low in direct contact and feeding tests. These results indicate that a calcium carbonate formulation has the potential to be used as the push component in a push–pull strategy for FAW control. Considering its low toxicity, both through direct contact and feeding, calcium carbonate can be an environmentally friendly alternative for the management of FAW. [ABSTRACT FROM AUTHOR]

Published

2024

41. Chromosome-level genome assembly of predatory Arma chinensis.

Author

Fu, Luyao, Lin, Changjin, Xu, Wenyan, Cheng, Hongmei, Liu, Dianyu, Ma, Le, Su, Zhihan, Yan, Xiaoyu, Dong, Xiaolin, and Liu, Chenxi

Subjects

GENOMES, AGRICULTURAL pests, CHROMOSOMES, STINKBUGS, LEPIDOPTERA

Abstract

Arma chinensis is a natural enemy that preys on various species and can suppress agricultural and forest pests in the orders Lepidoptera and Coleoptera. Here, we aimed to determine the genome of A. chinensis assembled at the chromosome-level using PacBio and Hi-C technologies. The assembled genome was 986 Mb, with a contig N50 of 2.40 Mb, scaffold N50 of 134.98 Mb, and BUSCO completeness of 96.10%. Hi-C data aided in anchoring the assembly onto seven chromosomes. A sequence of ~ 496.2 Mb was annotated as a repeat element, constituting 51.15% of the genome. We functionally annotated 84.79% of 20,853 predicted protein-encoding genes. This high-quality A. chinensis genome provides a novel genomic resource for future research on Pentatomidae insects. [ABSTRACT FROM AUTHOR]

Published

2024

42. Timing-dependent effects of elevated temperature on reproductive traits in the European corn borer moth.

Author

Velikaneye, Brittany A and Kozak, Genevieve M

Subjects

*EUROPEAN corn borer, *HIGH temperatures, *TEMPERATURE control, *TEMPERATURE effect, *HEAT waves (Meteorology)

Abstract

Elevated temperature often has life stage-specific effects on ectotherms because thermal tolerance varies throughout ontogeny. Impacts of elevated temperature may extend beyond the exposed life stage if developmental plasticity causes early exposure to carry-over or if exposure at multiple life stages cumulatively produces effects. Reproductive traits may be sensitive to different thermal environments experienced during development, but such effects have not been comprehensively measured in Lepidoptera. In this study, we investigate how elevated temperature at different life stages alters reproduction in the European corn borer moth, Ostrinia nubilalis. We tested effects of exposure to elevated temperature (28 °C) separately or additively during larval, pupal, and adult life stages compared to control temperatures (23 °C). We found that exposure to elevated pupal and adult temperature decreased the number of egg clusters produced, but exposure limited to a single stage did not significantly impact reproductive output. Furthermore, elevated temperature during the pupal stage led to a faster transition to the adult stage and elevated larval temperature altered synchrony of adult eclosion, either by itself or combined with pupal temperature exposure. These results suggest that exposure to elevated temperature during development alters reproduction in corn borers in multiple ways, including through carry-over and additive effects. Additive effects of temperature across life stages are thought to be less common than stage-specific or carry-over effects, but our results suggest thermal environments experienced at all life stages need to be considered when predicting reproductive responses of insects to heatwaves. Graphical Abstract [ABSTRACT FROM AUTHOR]

Published

2024

43. THE IMMIGRATION OF LEPIDOPTERA TO THE BRITISH ISLES IN 2020.

Author

CLANCY, SEAN P.

Subjects

*ANIMAL introduction, *LEPIDOPTERA, *EMIGRATION & immigration, *IMMIGRANTS, *SPECIES

Abstract

Formally accepted records of immigrant Lepidoptera occurring in the British Isles during the year 2020 are listed and discussed. For less frequently encountered species, full information is given in Annex 1, presented in vice-county order, the individual localities then listed alphabetically for each. For the more regular/frequent immigrant species recorded, annual summaries and a selection of the more important records are presented in Annex 2. [ABSTRACT FROM AUTHOR]

Published

2024

44. THE EARLY STAGES OF MICROPTERIX CALTHELLA (LINNAEUS) LEPIDOPTERA, MICROPTERIGIDAE.

Author

SPALDING, ADRIAN

Subjects

*VIDEO recording, *LARVAE, *LEPIDOPTERA

Abstract

Rearing experiments are reported for Micropterix calthella (L.). Eggs and early instar larvae were observed, measured and photographed; larvae were video recorded. Potential larval foodplants are discussed. [ABSTRACT FROM AUTHOR]

Published

2024

45. Baseline Moth Survey of Tater Hill, an Amphibolite Mountain in Western North Carolina.

Author

Nelson, Adrianna and Estep, Matt C.

Subjects

*PLANT conservation, *SPECIES diversity, *PUBLIC records, *MOTHS, *LEPIDOPTERA

Abstract

Moths (Order Lepidoptera) represent a large and diverse group of insects. To better understand moth diversity in the mountains of western North Carolina, we documented species richness, distribution, and phenology at the Tater Hill Plant Conservation Preserve in Watauga County. From June to August of 2022, we surveyed 6 locations once every other week with bucket traps and documented moth diversity via photography, resulting in 2631 individuals and 223 species. Common eastern species as well as northern species at the southern reaches of their ranges were present. There were 17 species newly recorded in the county, 1 significant state record, and species that had not been recorded in Watauga County in decades. Documenting moth diversity contributes to our knowledge of ecosystems, which has the potential to inform conservation management. [ABSTRACT FROM AUTHOR]

Published

2024

46. A Preliminary Study of Longleaf Pine Canopy Arthropods in Southwest Georgia.

Author

Dingley, N. Royce, Sheehan, Thomas N., Klepzig, Kier D., and McCarty, Elizabeth

Subjects

*LONGLEAF pine, *BIOTIC communities, *ARTHROPODA, *COLLEMBOLA, *LEPIDOPTERA

Abstract

The Pinus palustris (Longleaf Pine) ecosystem contains a diverse array of arthropods, yet the composition of the arthropod community of the canopy layer is largely unknown. We surveyed canopy arthropods using flight-intercept traps placed in the mid-canopy of Longleaf Pine trees at the Jones Center at Ichauway to determine which taxa inhabit the canopies, and assess abundance and richness among 3 ecological communities. We collected a total of 4004 arthropods from May to August 2022. Diptera, Collembola, and Lepidoptera were the most abundant orders. Overall, order- and family-level abundance and order-level richness were similar among ecological communities. However, hemipteran family-level richness differed significantly among the ecological communities. This preliminary research lays the foundation for further canopy arthropod research in endangered Longleaf Pine ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

47. Effects of Global Climate Warming on the Biological Characteristics of Spodoptera frugiperda (J.E. Smith) (Lepidoptera: Noctuidae).

Author

Fu, Chun, Liu, Zhiqian, Xu, Danping, Peng, Yaqin, Liu, Biyu, and Zhuo, Zhihang

Subjects

*LIFE history theory, *INTRODUCED insects, *POPULATION dynamics, *NOCTUIDAE, *LEPIDOPTERA, *FALL armyworm

Abstract

Simple Summary: Spodoptera frugiperda is an important economic pest that has recently invaded Africa and Asia. This study systematically assessed its life history traits under varying temperatures, photoperiods, and humidity levels. The results show that its physiological activity is highest at 32 °C, with reduced durations of the developmental stages, increased oviposition quantity and period in females, and a shorter pupal stage, which extends the adult lifespan. These findings help predict population dynamics and inform management strategies. Spodoptera frugiperda (J.E. Smith) is a significant economic pest that has recently invaded Africa and Asia. However, much of the information regarding its ecological capabilities in these newly invaded environments remains largely unknown. In this study, the life history traits of the fall armyworm under conditions of increased temperature, different photoperiods, and varying humidity levels were systematically evaluated. Among 43 studies, a total of 20 studies were included in the analysis by passing the screening criteria, and random-effects meta-analysis, fixed-effects meta-analysis, and meta-regression were conducted. It has been found that with the increase in temperature above 20 °C, various physiological indicators of the fall armyworm are significantly enhanced. When the temperature reaches 32 °C, the physiological activities of S. frugiperda are at their highest point. As the temperature increases, the duration of each developmental stage of the fall armyworm decreases significantly, accompanied by an increase in oviposition quantity and period in females. Additionally, the pupal development time is shortened, which leads to an increase in the lifespan of the adult moth. Using temperature and relative humidity as environmental variables, the optimal survival conditions for each insect state of the fall armyworm were calculated. These findings can assist in predicting the population dynamics of the fall armyworm and in formulating appropriate and practical management strategies. [ABSTRACT FROM AUTHOR]

Published

2024

48. Comparative Morphology and Ultrastructure of Antennal Sensilla in Dendrolimus superans (Lepidoptera: Lasiocampidae) and Lymantria dispar (Lepidoptera: Lymantriidae).

Author

Wang, Qi, Wang, Longzheng, Wang, Qing, and Yan, Shanchun

Subjects

*LYMANTRIA dispar, *SCANNING electron microscopy, *LEPIDOPTERA, *COMPARATIVE anatomy, *MOTHS

Abstract

Simple Summary: Insects' antennae are considered to be the principal organs of insects' olfactory sensory systems, with their surfaces harboring a vast array of specialized and differentiated receptors. In this study, we compared the morphology and ultrastructure of the antennal sensilla of Dendrolimus superans and Lymantria dispar using scanning electron microscopy (SEM). Furthermore, we conducted a comparative analysis to assess the differences in sensillum characteristics, quantity, and distribution between Dendrolimus superans and Lymantria dispar male and female individuals. Dendrolimus superans (Lepidoptera: Lasiocampidae) and Lymantria dispar (Lepidoptera: Lymantriidae) are two important forest defoliators in northeast China, with the former being a specialist on Larix spp. and the latter being a generalist feeding on >500 species of plants. The morphology and ultrastructure of antennal sensilla of both male and female D. superans and L. dispar were examined using scanning electron microscopy (SEM). In both sexes of D. superans, the following five types of antennal sensilla were found: sensilla trichoidea, s. chaetica, s. coeloconica, s. gemmiformia, and s. basiconica. In males of L. dispar, six types of antennal sensilla: sensilla trichoidea, s. chaetica, s. coeloconica, s. basiconica, s. styloconica, and s. auricillica, were identified. In addition to the six types found in males, a seventh type of sensilla, s. squamiform, was only detected on L. dispar female antennae. For s. chaetica of D. superans, a unique ultrastructure of sub-branches that have one branch, two branches, and three branches was observed on their tips, which has not yet been reported on other insects. s. styloconica, s. auricillica, and s. squamiform, not found in the specialist D. superans, may be related to the euryphagy of L. dispar. Potential functionalities of these sensilla were discussed with reference to moth feeding habits, and their morphology, distribution, and ultrastructures on both species. [ABSTRACT FROM AUTHOR]

Published

2024

49. A Phenomenon: What Are the Minuscule Grey Moths Abundant in the Dry Season in the Tropical Dry Forests of the Pacific Coast of Honduras?

Author

Stonis, Jonas R., Remeikis, Andrius, Diškus, Arūnas, Dobrynina, Viktorija, and Orlovskytė, Svetlana

Subjects

*TROPICAL dry forests, *DECIDUOUS forests, *FEMALE reproductive organs, *GENETIC barcoding, *MOLECULAR structure

Abstract

Simple Summary: Understanding the diversity, distribution, and ecological roles of leaf-mining Lepidoptera across different biomes is both intriguing and important for advancing our knowledge of biodiversity and ecosystem functioning. Despite extensive studies on leaf-mining Nepticulidae in tropical environments, no one had previously explored trapping in completely dry deciduous forests, especially during the peak of the dry season when trees are bare and even grass is dried out. This paper reveals an unexpected and astonishing abundance of minuscule plant-mining Nepticulidae moths in such dry deciduous forests. Our study ecoregion, the tropical dry forests of Honduras, includes the Pacific coastal lowlands and premontane areas extending into low-altitude regions further inland, known for their rich biodiversity and high levels of endemism. In these tropical dry forests, we identified five species of pygmy moths belonging to the genus Acalyptris Meyrick, including three new species. These moths are characterized by their distinctive grey coloration and exceptionally small size, classified as "extremely small". Despite their similarities, they exhibit significant differences in genital structures and molecular profiles, indicating distinct species groups. Our research also uncovered novel atypical morphological traits in Nepticulidae from this ecoregion. These findings highlight the unique and highly specific nature of the Nepticulidae fauna in tropical dry forests. A key question arises regarding the presence of Nepticulidae adults during the dry season: could they be mining plant bark instead of leaves? This paper aims to stimulate further exploration of micromoths in other tropical dry forests, which, despite their limited and fragmented distribution, are found not only in Central America but also in other regions worldwide. Our investigation centered on the tropical dry forests along the Pacific coast of Honduras, aiming to elucidate the presence and abundance of minuscule grey moths during the dry season. Through specimen dissections and the taxonomic identification of the collected material, we have described three new species: Acalyptris podenasi sp. nov., A. palpiformis sp. nov., and A. tortoris sp. nov. Additionally, we documented two species previously known from neighboring countries, A. lascuevella Puplesis & Robinson and A. basicornis Remeikis & Stonis. The females of A. lascuevella were previously unknown and are documented here for the first time. Morphological examinations were complemented by DNA barcoding, particularly highlighting variation in A. lascuevella. The paper's primary significance lies not only in the description of new species but also in uncovering their taxonomic, morphological, and molecular importance. We found that these species are unique and indicative of the previously unstudied dry forests as a distinct ecosystem. Our findings revealed several novel atypical morphological traits within the studied Nepticulidae, including unusually large signum cells in the female genitalia, a dorso-ventrally divided uncus, and asymmetrical valvae in the male genitalia. These discoveries underscore the morphological diversity of Acalyptris Meyrick and their significance in evolutionary biology. Consequently, the paper addresses a previously unknown phenomenon of the occurrence and astonishing abundance of minuscule plant-mining micromoths in dry deciduous forests during the peak of the dry season. We hope that this paper will encourage Lepidoptera taxonomists to explore micromoths in other tropical dry forests, which, while limited in distribution, hold global importance. The paper is extensively illustrated with photographs of Acalyptris adults and their genitalia, along with maps, habitats, and molecular phylogenetic trees. [ABSTRACT FROM AUTHOR]

Published

2024

50. First Record of the Complete Mitochondrial Genome for the Genus Borbo (Lepidoptera, Hesperiidae): Characterization and Comparative Genomic Analysis.

Author

Xue, Chao, Zhang, Dan, Liu, Dongkai, Jiao, Laizheng, Li, Ran, and Yi, Xianfeng

Subjects

*MITOCHONDRIAL DNA, *WHOLE genome sequencing, *GENOMICS, *RIBOSOMAL RNA, *LEPIDOPTERA

Abstract

Butterflies of the genus Borbo are mainly distributed in the Oriental and Australian regions and are considered pests of important crops. However, no mitochondrial genomes have been reported for this genus until now, leaving the evolutionary characteristics and differentiation patterns of their mitogenomes unclear. In this study, we present the first complete mitochondrial genome sequence of the rice swift, Borbo cinnara. The circular double-stranded mitogenome was 15,508 bp in length, comprising 13 protein-coding genes (PCGs), 2 ribosomal RNA genes (rRNAs), 22 transfer RNA genes (tRNAs), and 1 non-coding control region (CR). Among the mitogenomes of Hesperiinae, the ND3 gene was found to be the most variable PCG, while COX1 was the most conserved. Selection pressure analysis revealed that ND3 was under relaxed purifying selection, whereas COX1 was subjected to strong purifying selection. Phylogenetic trees reconstructed using both the Bayesian inference (BI) and maximum likelihood (ML) methods yielded robust and identical topologies, confirming the sister relationship between B. cinnara and Pelopidas mathias at the mitogenome level. Methodologically, this research enriches novel molecular markers for the species identification of butterflies and enhances our understanding of mitogenomic evolution in Lepidoptera. [ABSTRACT FROM AUTHOR]

Published

2024