Your search keyword '"Lepidoptera"' showing total 1,971 results

1. A snow-dwelling tropical butterfly? An unprecedented discovery of a new genus of the Pedaliodes clade in an extreme, high-altitude Andean environment (Lepidoptera: Nymphalidae: Satyrinae).

Author

Pyrcz, Tomasz, Mahecha-J., Oscar, Boyer, Pierre, Lachowska-Cielik, Dorota, Cerdeña, Jose, Farfán, Jackie, Garlacz, Rafał, Lorenc-Brudecka, Jadwiga, Bálint, Zsolt, Fåhraeus, Christer, Zając-Garlacz, Kamila S, and Espeland, Marianne

Subjects

*MOLECULAR phylogeny, *TROPICAL forests, *NYMPHALIDAE, *LEPIDOPTERA, *BUTTERFLIES

Abstract

A new genus of satyrine butterflies, Nivaliodes gen. nov. is described for three species, all new: Nivaliodes negrobueno sp. nov. Nivaliodes viracocha sp. nov. and Nivaliodes puriq sp. nov. (Lepidoptera: Nymphalidae), with the support of molecular data and adult morphology. A target enrichment-based phylogeny indicates that Nivaliodes gen. nov. is sister to the genus Pherepedaliodes within an extremely diverse Pedaliodes clade of the predominantly Andean subtribe Pronophilina. Although an overwhelming majority of species of this group occur in tropical montane forests, N. negrobueno sp. nov. was discovered in a central Peruvian desert puna at some 4600–4800 m a.s.l. the highest elevation reported for any species of the Pronophilina. Individuals were observed overflying rocky slopes and resting directly on snow-covered surfaces, which is an exceptionally unusual behaviour among butterflies. The other two species of the new genus were found at lower elevations, some 3300–4200 m a.s.l. at the timberline and in puna grassland. [ABSTRACT FROM AUTHOR]

Published

2024

2. The Hypolimnas misippus Genome Supports a Common Origin of the W Chromosome in Lepidoptera.

Author

Orteu, Anna, McCarthy, Shane A, Hornett, Emily A, Gemmell, Matthew R, Reynolds, Louise A, Warren, Ian A, Gordon, Ian J, Hurst, Gregory D D, Durbin, Richard, Martin, Simon H, and Jiggins, Chris D

Subjects

*X chromosome, *LEPIDOPTERA, *MOTHS, *BUTTERFLIES

Abstract

Moths and butterflies (Lepidoptera) have a heterogametic sex chromosome system with females carrying ZW chromosomes and males ZZ. The lack of W chromosomes in early-diverging lepidopteran lineages has led to the suggestion of an ancestral Z0 system in this clade and a B chromosome origin of the W. This contrasts with the canonical model of W chromosome evolution in which the W would have originated from the same homologous autosomal pair as the Z chromosome. Despite the distinct models proposed, the rapid evolution of the W chromosome has hindered the elucidation of its origin. Here, we present high-quality, chromosome-level genome assemblies of 2 Hypolimnas species (Hypolimnas misippus and Hypolimnas bolina) and use the H. misippus assembly to explore the evolution of W chromosomes in butterflies and moths. We show that in H. misippus , the W chromosome has higher similarity to the Z chromosome than any other chromosome, which could suggest a possible origin from the same homologous autosome pair as the Z chromosome. However, using genome assemblies of closely related species (ditrysian lineages) containing assembled W chromosomes, we present contrasting evidence suggesting that the W chromosome might have evolved from a B chromosome instead. Crucially, by using a synteny analysis to infer homology, we show that W chromosomes are likely to share a common evolutionary origin in Lepidoptera. This study highlights the difficulty of studying the evolution of W chromosomes and contributes to better understanding its evolutionary origins. [ABSTRACT FROM AUTHOR]

Published

2024

3. 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

4. Genomic resources of aquatic Lepidoptera, Elophila obliteralis and Hyposmocoma kahamanoa, reveal similarities with Trichoptera in amino acid composition of major silk genes.

Author

Heckenhauer, Jacqueline, Plotkin, David, Martinez, Jose I, Bethin, Jacob, Pauls, Steffen U, Frandsen, Paul B, and Kawahara, Akito Y

Subjects

*AQUATIC resources, *LEPIDOPTERA, *CADDISFLIES, *MOTHS, *CRAMBIDAE, *SILKWORMS

Abstract

While most species of butterflies and moths (Lepidoptera) have entirely terrestrial life histories, ∼0.5% of the described species are known to have an aquatic larval stage. Larvae of aquatic Lepidoptera are similar to caddisflies (Trichoptera) in that they use silk to anchor themselves to underwater substrates or to build protective cases. However, the physical properties and genetic elements of silks in aquatic Lepidoptera remain unstudied, as most research on lepidopteran silk has focused on the commercially important silkworm, Bombyx mori. Here, we provide high-quality PacBio HiFi genome assemblies of 2 distantly-related aquatic Lepidoptera species [ Elophila obliteralis (Pyraloidea: Crambidae) and Hyposmocoma kahamanoa (Gelechioidea: Cosmopterigidae)]. As a step toward understanding the evolution of underwater silk in aquatic Lepidoptera, we used the genome assemblies and compared them to published genetic data of aquatic and terrestrial Lepidoptera. Sequences of the primary silk protein, h-fibroin, in aquatic moths have conserved termini and share a basic motif structure with terrestrial Lepidoptera. However, these sequences were similar to aquatic Trichoptera in that the percentage of positively and negatively charged amino acids was much higher than in terrestrial Lepidoptera, indicating a possible adaptation of silks to aquatic environments. [ABSTRACT FROM AUTHOR]

Published

2024

5. Temporal dynamics of faster neo-Z evolution in butterflies.

Author

Höök, Lars, Vila, Roger, Wiklund, Christer, and Backström, Niclas

Subjects

*HOMOLOGOUS chromosomes, *CHROMOSOMES, *GENE expression, *LEPIDOPTERA, *BUTTERFLIES, *SEX chromosomes

Abstract

The faster-Z/X hypothesis predicts that sex-linked genes should diverge faster than autosomal genes. However, studies across different lineages have shown mixed support for this effect. So far, most analyses have focused on old and well-differentiated sex chromosomes, but less is known about the divergence of more recently acquired neo-sex chromosomes. In Lepidoptera (moths and butterflies), Z-autosome fusions are frequent, but the evolutionary dynamics of neo-Z chromosomes have not been explored in detail. Here, we analyzed the faster-Z effect in Leptidea sinapis , a butterfly with three Z chromosomes. We show that the neo-Z chromosomes have been acquired stepwise, resulting in strata of differentiation and masculinization. While all Z chromosomes showed evidence of the faster-Z effect, selection for genes on the youngest neo-Z chromosome (Z3) appears to have been hampered by a largely intact, homologous neo-W chromosome. However, the intermediately aged neo-Z chromosome (Z2), which lacks W gametologs, showed fewer evolutionary constraints, resulting in particularly fast evolution. Our results therefore support that neo-sex chromosomes can constitute temporary hot-spots of adaptation and divergence. The underlying dynamics are likely causally linked to shifts in selective constraints, evolution of gene expression, and degeneration of W-linked gametologs which gradually expose Z-linked genes to selection. [ABSTRACT FROM AUTHOR]

Published

2024

6. Survey of Leafminers on American Chestnut and other Castanea spp. (Fagales: Fagaceae) on Long Island, NY.

Author

Hough, Karissa E, Eiseman, Charles S, Perreault, Stephane, McGuinness, Hugh, Burke, Russell L, and Nieto-Fernandez, Fernando E

Subjects

INTRODUCED species, LEAFMINERS, CASTANEA, GRACILLARIIDAE, FAGACEAE

Abstract

The effect of the 20th-century functional extinction of the American Chestnut (Fagaceae: Castanea dentata (Marshall) Borkh) on associated herbivorous insects is unknown. These insects include leafminers that spend at least part of their larval phase feeding between the epidermises of leaves. We surveyed leafminers on C. dentata , nonnative Castanea spp. and hybrids on Long Island, NY. We found 10 leafminer species feeding on Castanea spp. A first New York State record was documented for Stigmella castaneaefoliella (Chambers) (Lepidoptera: Nepticulidae). New host records are established for 6 lepidopterans, including a new host genus for Phyllonorycter basistrigella (Clemens) (Lepidoptera: Gracillariidae). We found no significant differences in the mean intensity of S. castaneaefoliella leaf mines on native and nonnative Castanea spp.; however, our sample size was small. Thus, we guardedly conclude that nonnative Castanea spp. can serve as refugia for C. dentata leafminers native to North America while acknowledging that the extent to which nonnative species are utilized requires further investigation. [ABSTRACT FROM AUTHOR]

Published

2024

7. Domestication reduces caterpillar response to auditory predator cues.

Author

Lee, Zachary A, Baranowski, Alex K, Cohen, Caroline B, Pelletier, Tyler S, and Preisser, Evan L

Subjects

LYMANTRIA dispar, LEPIDOPTERA, CATERPILLARS, NOCTUIDAE, PREDATION

Abstract

Domestication can lead to significant changes in the growth and behavior of organisms. While the threat of predation is a strong selective force in the wild, the relaxation or removal of this threat in captive-rearing environments selects for reduced sensitivity to biotic stressors. Previous work has documented such changes in other taxa, but no work has been done on domestication-related losses of predation risk sensitivity in insects. We exposed both wild and domesticated (>50 generations in captivity) Lymantria dispar dispar (Lepidoptera: Erebidae) larvae to recordings of predators (wasp buzzing), nonpredators (mosquito buzzing), or no sound to compare the effects of predation risk on the two stocks. Wasp buzzing, but not mosquito buzzing, decreased survival of wild caterpillars relative to the control; domesticated caterpillars showed no such response. Domesticated L. dispar larvae appear to have reduced sensitivity to predation risk cues, suggesting that captive-reared insects may not always be analogs to their wild counterparts for risk-related behavioral studies. [ABSTRACT FROM AUTHOR]

Published

2024

8. Flight capacity and behavior of Ephestia kuehniella (Lepidoptera: Pyralidae) in response to kairomonal and pheromonal stimuli.

Author

Abshire, Jennifer, Harman, Rachel, Bruce, Alexander, Gillette, Samantha, Maille, Jacqueline M, Ranabhat, Sabita, Scully, Erin D, Zhu, Kun Yan, Gerken, Alison R, and Morrison, William R

Subjects

MEDITERRANEAN flour moth, LEPIDOPTERA, ECOLOGICAL models, PEST control, MOTHS, PYRALIDAE

Abstract

Flight behavior is an important component to understand in the context of pest management. However, because of their small size, little is known about the flight capacity of most stored-product insects, and when a flight has been assessed, it usually consists of a propensity for initiating flight. Despite a priori expectations of the importance of flight for moths, there are no data about the flight capacity and little on the flight behavior of the Mediterranean flour moth, Ephestia kuehniella Zeller (Lepidoptera: Pyralidae). As a result, the objective of the current study was to (i) characterize the baseline flight capacity of E. kuehniella and (ii) determine how flight capacity is affected by the presence of kairomonal, pheromonal, or no stimuli. We found adult E. kuehniella flew a mean of 24–34 km in a 24-h period, and the distance flown per bout increased from 91 to 207 m in the presence of pheromones but decreased to 41 m when food was nearby compared to a negative control. The total number of flight bouts was 1.6-fold higher in the presence of pheromone compared to the negative control, but E. kuehniella flew significantly slower with pheromone and food cues present, suggesting they may be exhibiting an optimal foraging strategy. Our data on flight capacity results in qualitatively and quantitatively different conclusions about flight than those conclusions formed if only flight initiation is considered. Overall, this novel information is useful for understanding the spread within facilities and in the landscape (between facilities), as well as parameterizing ecological modeling. [ABSTRACT FROM AUTHOR]

Published

2024

9. First report of resistance in Spodoptera frugiperda (Lepidoptera: Noctuidae) to lambda-cyhalothrin from Pakistan: baseline susceptibility, selection, occurrence of cross-resistance, realized heritability, and inheritance mode of resistance.

Author

Zaidi, Sayed Wasif Naseer, Saddiq, Bushra, Afzal, Muhammad Babar Shahzad, Banazeer, Ansa, Serrão, José Eduardo, Farooq, Umar, and Baloch, Muhammad Affan Zahid

Subjects

EMAMECTIN benzoate, FALL armyworm, NOCTUIDAE, DELTAMETHRIN, LEPIDOPTERA

Abstract

Fall armyworm (FAW) Spodoptera frugiperda (J.E. Smith) (Lepidoptera: Noctuidae), is a global pest causing damage to several crops. However, its management using chemical control is a challenge due to its capacity to evolve resistance to insecticides. After 6 generations of selection with lambda-cyhalothrin, the LC50 for the insecticide-resistant strain (Lambda-Sel) was 486 ppm, higher than that of the field strain (FAW-MUL) (7.5 ppm), susceptible laboratory strain (Lab-PK) (0.46 ppm), and laboratory unselected strain (UNSEL) (5.26 ppm). Laboratory selection with lambda-cyhalothrin increased resistance from 16.3- to 1056.52-fold and 1.43- to 92.4-fold to lambda-cyhalothrin compared to Lab-PK and UNSEL strains, respectively. The selected strain of S. frugiperda (Lambda-Sel) presented low cross-resistance to chlorpyrifos, moderate to deltamethrin and indoxacarb, very low to spinosad, and no cross-resistance to emamectin benzoate. The realized heritability (h 2) of lambda-cyhalothrin resistance in the Lambda-Sel strain was very high (0.88). The reciprocal cross progenies of F1 (Lambda-Sel ♀ × Lab-PK ♂), F1ʹ (Lambda-Sel ♂ × Lab-PK ♀), BC1 (F1 ♀ × Lambda-Sel ♂), and BC2 (F1 ♀ × Lab-PK ♂) showed high resistance ratios of 545.64-, 396.52-, 181.18-, and 146.54-fold, respectively compared to Lab-PK. The degree of dominance values for lambda-cyhalothrin in F1 and F1ʹ indicates incompletely dominant resistance. The difference between observed and expected mortality in backcross populations (BC1 and BC2) revealed a polygenic resistance. In conclusion, the resistance to lambda-cyhalothrin was autosomal, incompletely dominant, and polygenic. These findings provide new insights for insect resistance management strategies to mitigate the occurrence of resistance in this global pest. [ABSTRACT FROM AUTHOR]

Published

2024

10. Impact of Spodoptera frugiperda (Lepidoptera: Noctuidae), on maize yield in humid tropical zones of Central Africa.

Author

Agbodzavu, Komi Mawufe, Nanga, Samuel Nanga, Abang, Albert Fomumbod, Fotso-Kuate, Apollin, Bamba, Zoumana, Masso, Cargele, and Fiaboe, Komi Kouma Mokpokpo

Subjects

FALL armyworm, CORN farming, NOCTUIDAE, LEPIDOPTERA, AGRICULTURAL ecology

Abstract

Fall armyworm, Spodoptera frugiperda Smith, became the most important maize pest in Africa in 2016, with management based on chemical pesticides. High yield losses across the continent were predicted based on farmers' perceptions, but existing agroecological differences were not considered. In the Democratic Republic of Congo, experiments were conducted to assess fall armyworm damage and yield losses in maize farms with and without treatment. The study included 2 seasons in the Kipopo wetland in 2020 and 2021, one rainy season in Kanyameshi in 2021, 2 rainy seasons in Mulungu in 2020 and 2021, and one season in a wetland on the Bishibiru site in 2020. In addition, the research was also conducted at 4 sites in Cameroon from September to December 2020 and from March to July 2021. High levels of damage incidences were recorded, but the density of larvae per plant was low, with low to moderate levels of damage severities in different seasons and sites. Treatment significantly reduced the number of fall armyworm larvae and their damage severity. However, the high infestation levels did not significantly reduce yield. Cost–benefit ratios were either negative or, in most cases, less than 1. In the best case, the use of pesticides only allowed the recovery of the amount used for the intervention. We discussed the implications of these findings for fall armyworm management in humid tropical agroecology. [ABSTRACT FROM AUTHOR]

Published

2024

11. De Novo Long-Read Genome Assembly and Annotation of the Luna Moth (Actias luna) Fully Resolves Repeat-Rich Silk Genes.

Author

Markee, Amanda, Godfrey, Rebekah Keating, Frandsen, Paul B, Weng, Yi-Ming, Triant, Deborah A, and Kawahara, Akito Y

Subjects

*AMINO acid residues, *SILKWORMS, *SILK production, *MOTHS, *LEPIDOPTERA

Abstract

We present the first long-read de novo assembly and annotation of the luna moth (Actias luna) and provide the full characterization of heavy chain fibroin (h-fibroin), a long and highly repetitive gene (>20 kb) essential in silk fiber production. There are >160,000 described species of moths and butterflies (Lepidoptera), but only within the last 5 years have we begun to recover high-quality annotated whole genomes across the order that capture h-fibroin. Using PacBio HiFi reads, we produce the first high-quality long-read reference genome for this species. The assembled genome has a length of 532 Mb, a contig N50 of 16.8 Mb, an L50 of 14 contigs, and 99.4% completeness (BUSCO). Our annotation using Bombyx mori protein and A. luna RNAseq evidence captured a total of 20,866 genes at 98.9% completeness with 10,267 functionally annotated proteins and a full-length h-fibroin annotation of 2,679 amino acid residues. [ABSTRACT FROM AUTHOR]

Published

2024

12. Genome-Wide Gene Birth–Death Dynamics Are Associated with Diet Breadth Variation in Lepidoptera.

Author

Dort, Hanna, van der Bijl, Wouter, Wahlberg, Niklas, Nylin, Sören, and Wheat, Christopher W

Subjects

*PESTICIDE resistance, *GENE families, *PROTEOLYSIS, *COMPARATIVE genomics, *PHYLOGENY

Abstract

Comparative analyses of gene birth–death dynamics have the potential to reveal gene families that played an important role in the evolution of morphological, behavioral, or physiological variation. Here, we used whole genomes of 30 species of butterflies and moths to identify gene birth–death dynamics among the Lepidoptera that are associated with specialist or generalist feeding strategies. Our work advances this field using a uniform set of annotated proteins for all genomes, investigating associations while correcting for phylogeny, and assessing all gene families rather than a priori subsets. We discovered that the sizes of several important gene families (e.g. those associated with pesticide resistance, xenobiotic detoxification, and/or protein digestion) are significantly correlated with diet breadth. We also found 22 gene families showing significant shifts in gene birth–death dynamics at the butterfly (Papilionoidea) crown node, the most notable of which was a family of pheromone receptors that underwent a contraction potentially linked with a shift to visual-based mate recognition. Our findings highlight the importance of uniform annotations, phylogenetic corrections, and unbiased gene family analyses in generating a list of candidate genes that warrant further exploration. [ABSTRACT FROM AUTHOR]

Published

2024

13. Are day-flying moths more specialized in larval dietary breadth?—a test of the "Salient Aroma Hypothesis" in a predominantly nocturnal clade.

Author

Seifert, Carlo L, Strutzenberger, Patrick, and Fiedler, Konrad

Subjects

*COLD adaptation, *FLIGHT, *MOTHS, COLD regions

Abstract

Although diurnality is widespread across Lepidoptera and has evolved many times independently, its causes and ecological implications are yet poorly understood. The "Salient Aroma Hypothesis" (SAH) postulates that diurnal insect herbivores are overall more specialized in dietary breadth than species active at night. It is furthermore assumed that diurnality evolved more frequently in species that live in cooler environments. Using European geometrid moths as a model group, we tested whether diurnal activity in adults is associated with an increased larval dietary breadth as predicted by the SAH. We further investigated whether species that exclusively occur in colder regions or whose flight period is restricted to cool seasons are more likely to exhibit a diurnal flight activity. Contrary to expectation, we found no consistent differences in larval dietary breadth between diurnal and nocturnal species, and thus no support for the SAH. Diurnal activity occurred more frequently in species restricted to cold regions but not in species restricted to cool seasons. We conclude that diurnality could serve as an advantageous adaptation in cold environments, depending on further factors such as resource availability or predation pressure, but has no immediate consequences for larval dietary breadth. [ABSTRACT FROM AUTHOR]

Published

2024

14. Improved reference quality genome sequence of the plastic-degrading greater wax moth, Galleria mellonella.

Author

Young, Reginald, Ahmed, Khandaker Asif, Court, Leon, Castro-Vargas, Cynthia, Marcora, Anna, Boctor, Joseph, Paull, Cate, Wijffels, Gene, Rane, Rahul, Edwards, Owain, Walsh, Tom, and Pandey, Gunjan

Subjects

*GREATER wax moth, *BIODEGRADABLE plastics, *LEPIDOPTERA, *PROTEIN analysis

Abstract

Galleria mellonella is a pest of honeybees in many countries because its larvae feed on beeswax. However, G. mellonella larvae can also eat various plastics, including polyethylene, polystyrene, and polypropylene, and therefore, the species is garnering increasing interest as a tool for plastic biodegradation research. This paper presents an improved genome (99.3% completed lepidoptera_odb10 BUSCO; genome mode) for G. mellonella. This 472 Mb genome is in 221 contigs with an N50 of 6.4 Mb and contains 13,604 protein-coding genes. Genes that code for known and putative polyethylene-degrading enzymes and their similarity to proteins found in other Lepidoptera are highlighted. An analysis of secretory proteins more likely to be involved in the plastic catabolic process has also been carried out. [ABSTRACT FROM AUTHOR]

Published

2024

15. Continental-scale migration patterns and origin of Helicoverpa zea (Lepidoptera: Noctuidae) based on a biogeochemical marker.

Author

Paula-Moraes, Silvana V, Calixto, Eduardo S, Santos, Abraão A, Reay-Jones, Francis P F, Reisig, Dominic D, Farhan, Yasmine, Smith, Jocelyn L, and Hutchison, William D

Subjects

HELIOTHIS zea, NOCTUIDAE, LEPIDOPTERA, UNITED States. Racketeer Influenced & Corrupt Organizations Act, INTEGRATED pest control, HELICOVERPA armigera

Abstract

Insect migrations have ecological and economic impacts, particularly in agriculture. However, there is limited knowledge about the migratory movements of pests at the continental scale, which is an important factor influencing the spread of resistance genes. Understanding the migratory patterns of economic pests, like Helicoverpa zea (Boddie), is essential for improving Integrated Pest Management (IPM) and Insect Resistance Management (IRM) strategies. In this study, we used stable hydrogen isotopic ratios in wing tissue as a biogeochemical marker to examine migratory patterns and estimate the native origins of H. zea individuals collected across a wide latitudinal gradient in North America. Samples collected at higher latitudes (Ontario, Canada and Minnesota, USA) exhibited a greater proportion (60%–96%) of nonlocal individuals, with an increased probability of origin from the southeastern United States. Populations from mid-latitudes (Florida, North Carolina, and South Carolina) showed a blend of local and nonlocal (40%–60%) individuals. Finally, 15% of the southernmost population individuals (Puerto Rico) were classified as migratory, with some having a probability of origin at higher latitudes (>30°). Overall, our results provide evidence of a northward spring/summer migration of H. zea in North America and underscore the significance of the southeastern United States as a hub for genetic flow. In addition, based on stable hydrogen isotopic ratios, there is strong evidence of reverse (southward) migration of H. zea from the continental United States to Puerto Rico. Our study highlights the implications for IPM and IRM programs and the need for management strategies that account for both northward and southward migration patterns. [ABSTRACT FROM AUTHOR]

Published

2024

16. Chronic effect of copper on biology, immunity, and biochemical assessment of Helicoverpa armigera (Lepidoptera; Noctuidae) in laboratory bioassays.

Author

Azizi, Roya and Sendi, Jalal Jalali

Subjects

NOCTUIDAE, HELICOVERPA armigera, HELIOTHIS zea, LEPIDOPTERA, COPPER, BIOLOGICAL assay, SUPEROXIDE dismutase, BIOLOGY

Abstract

Although copper is an essential element for any organism's well-being, it becomes toxic if present in excess. In the present study, copper was provisioned at 25, 50, and 75 mg/kg in an artificial diet and fed to juvenile larvae of cotton bollworm, Helicoverpa armigera (Lepidoptera; Noctuidae), for 4 generations. The results of this investigation exhibited shortening of larval life in the first 2 generations, but extended duration was observed in third and fourth generations compared to controls, and dietary copper caused reduced total hemocyte counts in all treatments. The number of immunocytes (i.e. granulocytes and plasmatocytes) were also significantly reduced. The changes in activities of certain important enzymes, including catalase, superoxide dismutase, and peroxidases, were seen. Furthermore, after treatment, an increase in the activity of 2 detoxifying enzymes, glutathione s-transferase and acetylcholinesterase, was observed. It is clear that metallothioneins are important in maintaining essential and nonessential metal ion homeostasis. While copper is typically regarded as an important essential metal in an organism's life, excessive amounts can have deteriorating effects. This heavy metal is being used as a nano-based pesticide. Therefore, the present investigation aims to determine the fate of Cu in insects receiving them in new formulations. [ABSTRACT FROM AUTHOR]

Published

2024

17. Differential feeding on ornamental plants by Duponchelia fovealis (Lepidoptera: Crambidae) larvae.

Author

Copeman, Sophia M and Frank, Steven D

Subjects

CRAMBIDAE, LEPIDOPTERA, CROPS, INTEGRATED pest control, HOUSE plants, ORNAMENTAL plants, GREENHOUSES

Abstract

Duponchelia fovealis (Zeller) (Lepidoptera: Crambidae) is a polyphagous pest that feeds on a variety of ornamental and crop plants. At least 47 plant families have been identified as hosts for D. fovealis in literature based on empirical data and observations. This list is surely incomplete based on the broad feeding habits of D. fovealis. We sought to expand the list of known D. fovealis host plants and to identify species that may be less preferred or not fed upon by D. fovealis. We used laboratory feeding assays to measure D. fovealis consumption rate of leaf disks from 32 herbaceous plant species and 32 woody species grown outdoors throughout the Southeastern United States, and 24 tropical species typically grown as house plants. These plants were from 65 genera and 36 families. Between the 3 ornamental plant groups, we tested (herbaceous, woody, and tropical) that, after 24 h, plants in the tropical group were the least consumed by D. fovealis. After 24 h, the average proportion of leaf disks eaten by D. fovealis was 0.80 or higher for 5 herbaceous and 12 woody species. Proportions of leaf disks eaten varied at the family and genus level in many cases. Our research can improve integrated pest management of D. fovealis by informing growers that plants may be at more or less risk of infestation and damage by larvae. [ABSTRACT FROM AUTHOR]

Published

2024

18. Identification of the female sex pheromone of Bastilla arctotaenia (Lepidoptera: Erebidae).

Author

Abubaker, Tareq A S, Matsui, Yuki, and Naka, Hideshi

Subjects

*NOCTUIDAE, *PHEROMONES, *LEPIDOPTERA, *GAS detectors, *MASS spectrometry

Abstract

(3 Z ,6 Z ,9 Z)-3,6,9-henicosatriene was identified as a major component of female sex pheromone of Bastilla arctotaenia (Lepidoptera: Erebidae), a pest of cultivated roses, by gas chromatograph-electroantennographic detector(GC-EAD) and gas chromatograph/mass spectrometry (GC/MS) analyses. The single (3 Z ,6 Z ,9 Z)-3,6,9-henicosatriene (1.0 mg/lure) successfully attracted B. arctotaenia males in the field. [ABSTRACT FROM AUTHOR]

Published

2024

19. Evolution of wing shape in geometrid moths: phylogenetic effects dominate over ecology.

Author

Ude, Kadri, Õunap, Erki, Kaasik, Ants, Davis, Robert B, Javoiš, Juhan, Nedumpally, Vineesh, Foerster, Stenio I A, and Tammaru, Toomas

Subjects

*MOTHS, *ASPECT ratio (Aerofoils), *BODY size, *GEOMETRIDAE, *LEPIDOPTERA, *AERODYNAMICS of buildings

Abstract

Locomotory performance is an important determinant of fitness in most animals, including flying insects. Strong selective pressures on wing morphology are therefore expected. Previous studies on wing shape in Lepidoptera have found some support for hypotheses relating wing shape to environment-specific selective pressures on aerodynamic performance. Here, we present a phylogenetic comparative study on wing shape in the lepidopteran family Geometridae, covering 374 species of the northern European fauna. We focused on 11 wing traits including aspect ratio, wing roundness, and the pointedness of the apex, as well as the ratio of forewing and hindwing areas. All measures were taken from images available on the internet, using a combination of tools available in Fiji software and R. We found that wing shape demonstrates a phylogenetically conservative pattern of evolution in Geometridae, showing similar or stronger phylogenetic signal than many of its potential predictors. Several wing traits showed statistically significant associations with predictors such as body size, phenology, and preference for forest habitats. Overall, however, all of these associations remained notably weak, with no wing shape being excluded for any value of the predictors, including body size. We conclude that, in geometrids, wing traits do not readily respond to selective pressures optimizing aerodynamic performance of the moths in different environments. Selection on wing shape may nevertheless operate through other functions of the wings, with the effectiveness of crypsis at rest being a promising candidate for further studies. [ABSTRACT FROM AUTHOR]

Published

2024

20. Investigating the effects of species niche shifts on the potential distribution of Tuta absoluta (Lepidoptera: Gelechiidae) by using global occurrence data.

Author

Yuan, Xuejiao, Zhang, Yuanyuan, Hu, Luyi, Sang, Weiguo, and Yang, Zheng

Subjects

*GELECHIIDAE, *LEPIDOPTERA, *ECOLOGICAL niche, *PRINCIPAL components analysis, *SPECIES

Abstract

Invasive species may occupy quite different environments in their invaded areas to native ones, which may intensively interfere with predicting potential distribution through ecological niche modeling (ENM). Here, we take the tomato leafminer Tuta absoluta Meyrick (Lepidoptera: Gelechiidae), a tomato pest, as an example to investigate this topic. We analyzed niche expansion, stability, unfilling, and Schoener's D by principal component analysis (PCA) ordination method to examine its realized niche shifts and to explore how ENM approaches are affected by niche shifts. We used 5 datasets: Asian, African, European, South American, and global occurrence records in this study. Results showed that high niche unfilling for the species' invaded areas in Asia (20%), Africa (12%), and Europe (37%), possibly due to T. absoluta being in the early stages of invasion. High niche expansion was observed in Asia (38%) and Europe (19%), implying that some European and Asian populations had reached new climatic areas. African niche had the most niche stability (94%) and was equivalent to the native one in climate space (PCA ordination method), but the n -dimensional climate space framework showed that they were different. When projecting the native model to Asia and Europe, the native model performed poorly, implying that the niche shifts affected the transferability of the native model. ENM based on global data outperformed than other models, and our results suggested that T. absoluta has a large potential distribution in Asia, Mexico, South Europe, the United States, and Australia. Meanwhile, we recommend updating ENMs based on the species' invasion stage. [ABSTRACT FROM AUTHOR]

Published

2024

21. A new distribution and host record for the rare moth, Callioratis millari (Lepidoptera: Geometridae), and some ecological observations.

Author

van Rensburg, Paul Duvel Janse, Bezuidenhout, Hugo, Steyn, Tommie, and den Berg, Johnnie van

Subjects

LEPIDOPTERA, MOTHS, NATURE reserves, GEOMETRIDAE, CYCADS, HOST plants, NATIONAL parks & reserves

Abstract

Callioratis millari Hampson (Lepidoptera: Geometridae) is a Critically Endangered moth endemic to South Africa. Despite extensive searches, it was previously known only from the Entumeni Nature Reserve in KwaZulu-Natal, where its larvae exclusively feed on the cycad Stangeria eriopus (Kunze) Baill (Cycadales: Stangeriaceae). In July 2022, a new population of C. millari was discovered in the Kabouga section of Addo Elephant National Park in the Eastern Cape. Larvae of C. millari were feeding on the cycad Encephalartos caffer (Thunb.) Lehm (Cycadales: Zamiaceae), which also constitutes a new host record. In June 2023, we determined larval incidence and herbivory at this new locality, offering insights into the ecological requirements of C. millari. Known C. millari localities, although ecologically different, share low altitudes (700–950 m a.s.l.), moderate to high rainfall, and grassy habitats with sparse woody cover. A total of 59 larvae were counted in Kabouga, mostly in the fifth and sixth (final) instars. Herbivory incidence was lower on smaller plants and those covered by other vegetation. The flight period of adult C. millari likely occurs between mid-March and April in Kabouga, but further investigation is needed to clarify this. The peak period of larval occurrence in Kabouga occurs during the driest and coldest months of the year (May–July). Considering limited habitat availability, host plant poaching, and the risk of untimely fires, the species should be considered highly threatened. This study adds to our understanding of the biology of C. millari and provides information on its ecological requirements and may contribute to making informed management decisions. [ABSTRACT FROM AUTHOR]

Published

2024

22. Characterization of Spodoptera littoralis (Lepidoptera: Noctuidae) resistance to indoxacarb: inheritance mode, realized heritability, and fitness costs.

Author

Mokbel, El-Sayed M S, Moustafa, Moataz A M, Alfuhaid, Nawal Abdulaziz, and Fouad, Eman A

Subjects

SPODOPTERA littoralis, HERITABILITY, NOCTUIDAE, LEPIDOPTERA, HEREDITY, INSECTICIDES

Abstract

Spodoptera littoralis (Boisd.) (Lepidoptera: Noctuidae) is a major economic pest attacking a variety of crops in Egypt and other Mediterranean countries. S. littoralis has developed resistance to both traditional and novel insecticides. The current study investigated S. littoralis resistance to indoxacarb regarding inheritance mode, realized heritability (h 2), and fitness costs. An indoxacarb-resistant strain (Indoxa-SEL) was obtained by selecting a field strain with indoxacarb. Indoxa-SEL strain outperformed the susceptible one (Indoxa-S) by 29.77-fold after 16 consecutive generations of selection. Based on the LC50 values of the progenies of reciprocal crosses F1 (R♂ × S♀) and F1ʹ (R♀ × S♂), S. littoralis resistance to indoxacarb was found to be autosomal and partially recessive. Chi-square tests for goodness-of-fit between observed and expected mortalities of self-bred F1 and resistant strain reciprocal crosses revealed that the resistance was controlled by multiple genes. The resistant strain had a relative fitness of 0.80, with significantly increased total preovipositional period of females, egg, larvae, pupae, preadult, adult, and total longevity period. The estimated realized heritability value in the Indoxa-SEL strain was 0.21. The current study will contribute to sustaining indoxacarb efficacy and designing effective resistance management programs against S. littoralis. [ABSTRACT FROM AUTHOR]

Published

2024

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

Author

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

Subjects

*MONARCH butterfly, *CHROMOSOMES, *GENE expression, *GENE clusters, *LEPIDOPTERA, *HYMENOPTERA, *PUPAE

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 'omic resources in the monarch butterfly Danaus 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 30 chromosomes in the monarch genome, 12 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. [ABSTRACT FROM AUTHOR]

Published

2024

24. Long read genome assembly of Automeris io (Lepidoptera: Saturniidae) an emerging model for the evolution of deimatic displays.

Author

Skojec, Chelsea, Godfrey, R Keating, and Kawahara, Akito Y

Subjects

*LEPIDOPTERA, *GENOMES, *MOTHS, *NUCLEOTIDE sequencing

Abstract

Automeris moths are a morphologically diverse group with 135 described species that have a geographic range that spans from the New World temperate zone to the Neotropics. Many Automeris have elaborate hindwing eyespots that are thought to deter or disrupt the attack of potential predators, allowing the moth time to escape. The Io moth (Automeris io), known for its striking eyespots, is a well-studied species within the genus and is an emerging model system to study the evolution of deimatism. Existing research on the eyespot pattern development will be augmented by genomic resources that allow experimental manipulation of this emerging model. Here, we present a high-quality, PacBio HiFi genome assembly for Io moth to aid existing research on the molecular development of eyespots and future research on other deimatic traits. This 490 Mb assembly is highly contiguous (N50 = 15.78 mbs) and complete (benchmarking universal single-copy orthologs = 98.4%). Additionally, we were able to recover orthologs of genes previously identified as being involved in wing pattern formation and movement. [ABSTRACT FROM AUTHOR]

Published

2024

25. Impacts of winter warming events on spruce budworm: the importance of timing.

Author

Moise, Eric R D, Warren, Jamie, and Bowden, Joseph J

Subjects

*SPRUCE budworm, *LEPIDOPTERA, *CLIMATE change, *TORTRICIDAE, *WINTER, *CHRONIC diseases

Abstract

Winter climate change constitutes not only a shift in chronic conditions (i.e. shorter length and warmer average temperatures) but will also influence the dynamics of extreme warming events. The latter may be particularly important for the performance and survival of insects, given their susceptibility to temperature variation. However, metabolic sensitivity changes over the course of winter diapause, and thus, insect responses to warming may vary depending on when the event occurs. To determine the influence of warm-up timing, we exposed the spruce budworm, Choristoneura fumiferana ((Clem.), Lepidoptera: Tortricidae), to acute warming events in early-, mid-, and late-dormancy and measured impacts on survival, performance, and biochemistry. While we did not observe any impacts of warm-up timing on performance, survival to the adult stage was significantly reduced in response to earlier warming. Additionally, glycogen concentration was significantly higher in response to early and late warming exposure. Collectively, these results suggest that the timing of extreme winter warming events matters, with consequences for both lethal and sublethal responses. [ABSTRACT FROM AUTHOR]

Published

2024

26. The effect of diet composition on the diversity of active gut bacteria and on the growth of Spodoptera exigua (Lepidoptera: Noctuidae).

Author

Mugo-Kamiri, Loretta, Querejeta, Marina, Raymond, Ben, and Herniou, Elisabeth A

Subjects

*BEET armyworm, *NOCTUIDAE, *LEPIDOPTERA, *WHEAT germ, *DIET, *MICROBIAL communities

Abstract

Gut microbiota plays a functional role in nutrition among several insects. However, the situation is unclear in Lepidoptera. Field studies suggest the microbiome may not be stable and is determined by diet, while in the laboratory, Lepidoptera are routinely reared on diet containing antibiotics with unknown effects on microbial communities. Furthermore, molecular approaches for the characterization of lepidopteran microbiomes rarely describe the metabolically active gut bacteria. The aim of this study was to evaluate how diet and antibiotics affect Spodoptera exigua (Hübner) growth and the diversity and activity of the gut bacteria community. We assessed how alfalfa and wheat germ-based diets affected larval growth, in the presence and absence of streptomycin. Alfalfa diet improved larval growth, pupal mass, and survival, but antibiotic was only beneficial in the wheat germ diet. We observed diet-driven changes in the gut bacterial communities. In the active community, the alfalfa colony was dominated by Enterococcus and Rhodococcus whereas in the wheat germ colony, only Enterococcus was present. In contrast, spore-forming Bacilli species were very common members of the DNA community. In both cases, streptomycin had a selective effect on the relative abundance of the taxa present. Our study highlights the importance of characterizing both the diversity and activity of the gut microbiota community. DNA-derived communities may include environmental DNA, spores, or non-viable bacteria, while RNA-derived communities are more likely to give an accurate representation of the diversity of active members that are potentially directly involved in the metabolic processes of the host. [ABSTRACT FROM AUTHOR]

Published

2024

27. Molecular characterization and demographic insights into soybean bud borer (Lepidoptera: Tortricidae) in Brazil.

Author

Fernandes, Davi de Souza, Horikoshi, Renato Jun, Dourado, Patrick M, Ovejero, Ramiro F L, Berger, Geraldo U, Savaris, Marcoandre, Brown, John W, and Corrêa, Alberto Soares

Subjects

*TORTRICIDAE, *LEPIDOPTERA, *SOYBEAN diseases & pests, *GENETIC variation, *GENETIC barcoding, *SOYBEAN

Abstract

The soybean bud borer, a soybean pest in Brazil, was initially identified as Crocidosema aporema (Walsingham 1914) (Lepidoptera: Tortricidae). Outbreaks of this species have recently increased, but identification of this pest remains uncertain, and the historical factors associated with its geographic distribution in Brazil are little known. Here, we conducted a species characterization and phylogeographic analysis based on molecular and morphological evidence. Ninety individuals of bud-borers Lepidoptera were collected in different regions of Brazil. We sequenced COI and COII mitochondrial genes and examined wing patterns and male genital morphology. DNA barcoding approach revealed that 10 individuals were Argyrotaenia sphaleropa (Meyrick 1909) (Lepidoptera: Tortricidae) and 80 were a species of the genus Crocidosema Zeller. The morphology of the adult genitalia and wings proved to be insufficient to confirm the identification of Brazilian individuals as C. aporema , a species originally described from a high-elevation site in Costa Rica. Furthermore, the genetic distance between putative C. aporema specimens from Brazil and Costa Rica (ranging from 5.2% to 6.4%) supports the hypothesis that the Brazilian specimens are not referable to C. aporema. Our analysis revealed a single genetic strain (i.e. species) with low genetic diversity on soybean crops. We found no indication that the genetic structure was related to geographic distance among populations or edaphoclimatic regions. The population expansion of the soybean bud borer coincides with the increase in the area of soybean production in Brazil, suggesting that expanded soybean farming has allowed a significant increase in the effective population size of this pest. [ABSTRACT FROM AUTHOR]

Published

2024

28. Genomic integrity of Phyciodes butterfly species in a region of contact (Lepidoptera: Nymphalidae).

Author

Wingert, Brittany D, Campbell, Erin O, Acorn, John H, and Sperling, Felix A H

Subjects

NYMPHALIDAE, LEPIDOPTERA, SINGLE nucleotide polymorphisms, GENE flow, BUTTERFLIES, SPECIES

Abstract

Crescent butterflies of the Phyciodes tharos group have a long-standing reputation for taxonomic difficulty. We assessed species boundaries in the P. tharos group using genome-wide single-nucleotide polymorphism (SNP) data, focusing on sampling in western Canada, where 4 species (P. tharos , P. cocyta , P. batesii , and P. pulchella) have classically been recognized. Phylogenetic and cluster-based analyses confirm that there are indeed 4 species based on the maintenance of genomic integrity in the presence of occasional hybridization and low levels of gene flow. Mitochondrial cytochrome c oxidase I (COI) does not consistently distinguish species, with haplotypes extensively shared between species. Limited sampling of P. batesii indicates complex boundaries and interactions with other Phyciodes , especially with P. pulchella and P. cocyta. This study demonstrates the power of a genome-wide perspective to elucidate the integrity of boundaries between recently diverged species that remain capable of occasional hybridization. [ABSTRACT FROM AUTHOR]

Published

2024

29. Recent range shifts of moths, butterflies, and birds are driven by the breadth of their climatic niche.

Author

Hällfors, Maria H, Heikkinen, Risto K, Kuussaari, Mikko, Lehikoinen, Aleksi, Luoto, Miska, Pöyry, Juha, Virkkala, Raimo, Saastamoinen, Marjo, and Kujala, Heini

Subjects

*BUTTERFLIES, *MOTHS, *LIFE history theory, *CLIMATE change, *PHENOTYPIC plasticity

Abstract

Species are altering their ranges as a response to climate change, but the magnitude and direction of observed range shifts vary considerably among species. The ability to persist in current areas and colonize new areas plays a crucial role in determining which species will thrive and which decline as climate change progresses. Several studies have sought to identify characteristics, such as morphological and life-history traits, that could explain differences in the capability of species to shift their ranges together with a changing climate. These characteristics have explained variation in range shifts only sporadically, thus offering an uncertain tool for discerning responses among species. As long-term selection to past climates have shaped species' tolerances, metrics describing species' contemporary climatic niches may provide an alternative means for understanding responses to on-going climate change. Species that occur in a broader range of climatic conditions may hold greater tolerance to climatic variability and could therefore more readily maintain their historical ranges, while species with more narrow tolerances may only persist if they are able to shift in space to track their climatic niche. Here, we provide a first-filter test of the effect of climatic niche dimensions on shifts in the leading range edges in three relatively well-dispersing species groups. Based on the realized changes in the northern range edges of 383 moth, butterfly, and bird species across a boreal 1,100 km latitudinal gradient over c. 20 years, we show that while most morphological or life-history traits were not strongly connected with range shifts, moths and birds occupying a narrower thermal niche and butterflies occupying a broader moisture niche across their European distribution show stronger shifts towards the north. Our results indicate that the climatic niche may be important for predicting responses under climate change and as such warrants further investigation of potential mechanistic underpinnings. [ABSTRACT FROM AUTHOR]

Published

2024

30. Tritrophic effects mediate host suitability for two parasitoids of the carob moth (Lepidoptera: Pyralidae), infesting pistachio kernels.

Author

Baghery, Fatemeh, Michaud, J P, and Dini, Ali

Subjects

PYRALIDAE, PISTACHIO, LEPIDOPTERA, CAROB, MOTHS, PARASITOIDS, TRANSITION to adulthood

Abstract

The carob moth, Ectomyelois ceratoniae (Zeller) (Lepidoptera: Pyralidae), is an important pest of pistachio causing direct damage to nuts during ripening, and in storage. We examined the tritrophic effects of 5 pistachio cultivars, representing the full range of kernel suitability for E. ceratoniae , on 2 larval parasitoids, Habrobracon hebetor (Say) (Hymenoptera: Braconidae), a gregarious, synovigenic, idiobiont, ectoparasitoid, and Venturia canescens Gravenhorst (Hymenoptera: Ichneumonidae), a solitary, pro-ovigenic, koinobiont, endoparasitoid. The suitability of pistachio cultivars for development and reproduction of the 2 parasitoids was closely correlated, despite their divergent lifestyles and developmental patterns, and paralleled variation in kernel suitability for host larvae. Although kernels of the most resistant cultivar reduced demographic parameters of the parasitoids, the potential impact on numerical responses was minor. Successful biological control of carob moth within the vulnerable period of nut ripening will likely depend on the functional responses of earlier generations of adult parasitoids emerging from other fruit and nut crops, or those released in an augmentation program. [ABSTRACT FROM AUTHOR]

Published

2024

31. Influence of varieties of hemp, Cannabis sativa (Rosales: Cannabaceae), and fertilization rates on damage caused by corn earworm, Helicoverpa zea (Lepidoptera: Noctuidae).

Author

Cosner, Julian B and Grant, Jerome F

Subjects

HELIOTHIS zea, HELICOVERPA armigera, CANNABACEAE, CANNABIS (Genus), NOCTUIDAE, LEPIDOPTERA, INTEGRATED pest control

Abstract

Industrial hemp, Cannabis sativa L. production has been negatively impacted by larvae of corn earworm, Helicoverpa zea (Boddie), which feed on developing inflorescences. Adult H. zea oviposit on hemp once flowers develop, and late-instar larvae can cause serious loss to both quality and yield. A 2-year study to assess the influence of hemp variety and fertilization practices on damage caused by H. zea was conducted. Differences in damage ratings among varieties were observed in both years; however, the rate of nitrogen applied did not influence biomass yield or damage rating. These results indicate that increasing nitrogen fertility may not be an effective means of cultural control for mitigating damage from H. zea. Floral maturity was very influential on damage caused by H. zea as late-maturing varieties had much less floral injury than those which matured early in outdoor field trials. Some cannabinoids were also correlated to damage rating, but this relationship was due to late-maturing plants with immature flowers low in cannabinoid concentrations receiving less floral injury. Based on these results, the selection of high-yielding varieties that flower when ovipositional activity of H. zea is expected to decline should be the first step in an integrated pest management program for hemp production. This research expanded our knowledge of the role of fertility rate, varietal characteristics, cannabinoid profile, and floral maturity on damage caused by H. zea to hemp. Findings from this research will allow growers to make more informed agronomic decisions before planting to improve hemp production. [ABSTRACT FROM AUTHOR]

Published

2024

32. Effects of different Ficus feeding experiences on host preference of Perina nuda larvae (Lepidoptera: Lymantriidae).

Author

Liao, Songkai, Lin, Haoyu, Wang, Jiajin, Wang, Qi, Wei, Hongjian, and Chen, Hui

Subjects

LEPIDOPTERA, LARVAE, FOOD consumption, TREE diseases & pests, ANIMAL feeds

Abstract

Perina nuda (Lepidoptera: Lymantriidae) is a serious pest of banyan trees (Ficus spp.), which is distributed in South China, but little is known about the host preference on the different banyan tree species. To address this gap, we conducted experiments to investigate larval feeding preferences, assessing the impact of feeding experience in both choice and no-choice conditions. Fifth and sixth instars were exposed to 4 banyan species, and food intake, feeding area, and relative ingestion index were measured. Our findings reveal that Ficus concinna was the preferred host of fifth instars in choice tests, while sixth instars exhibited a preference for this host in no-choice tests. In contrast, fifth instars did not display a significant preference for any of the 4 species in no-choice tests. However, sixth instars fed on F. microcarpa, F. altissima, and F. concinna continued to exhibit a preference for the original host. These observations indicate that larval feeding preference changes with instar, and feeding experience contributes to a preference for the original host. Consequently, the feeding preference of P. nuda larvae is influenced by multiple factors, including instar and previous feeding experience. These findings enhance our understanding of P. nuda's ecological interactions and its potential impact on various banyan tree species. [ABSTRACT FROM AUTHOR]

Published

2024

33. The application of demographic characteristics of Ectropis grisescens (Lepidoptera: Geometridae) in pest risk assessment of IPM.

Author

Shi, Fan, Ma, Xu, Lin, Chang-Jin, Gao, Xiao-Han, Wang, Xing-Yu, Kuang, Yang-Fan, Wang, Lin-Lin, Li, Shitang, Lin, Changlu, and Chen, Li-Lin

Subjects

DEMOGRAPHIC characteristics, GEOMETRIDAE, LEPIDOPTERA, RISK assessment, LIFE tables, INTEGRATED pest control, TEA plantations, ECOLOGICAL risk assessment, POPULATION dynamics

Abstract

Ectropis grisescens Warren is one of the most important pests of tea plants. In this study, data on the development, survival, and fecundity of E. grisescens were collected at 15, 22, and 32 °C and analyzed by using the age-stage, two-sex life table. At 15 °C, the duration of the preadult period of E. grisescens was significantly prolonged (81.06 days), with high mortality (69.0%), and the proportion of emerged female adults was extremely low (7.0%). At 32 °C, the preadult period was significantly shortened (29.12 days), with high preadult mortality (74.0%), and a low proportion of emerged female adults (15.0%). At 22 °C, with low preadult mortality (24.0%), and a high proportion of emerged female adults (26.0%). The overall effects of the shorter preadult duration, higher preadult survival rate, higher proportion of emerged female adults, higher fecundity (F = 350.88 eggs/♀), and higher net reproductive rate (R0 = 91.23 offspring/individual) at 22 °C resulted in the highest values of the intrinsic rate of increase (r = 0.1054 days–1) and finite rate of increase (λ = 1.1112 days–1). Computer simulation showed that E. grisescens populations can increase much faster at 22 °C than at 15 and 32 °C. The weighted population size and cumulative weighted insect-days provided the dynamics necessary for estimating the damage potential of E. grisescens in devising economical pest management programs. Our results demonstrate that populations of E. grisescens were able to develop at a broad range of temperatures and adapt to the high temperatures. These finding can be utilized to improve the management of E. grisescens. Graphical Abstract Age-stage, two-sex life table can reveal the survival and stage differentiation for assessment of differences between temperatures. [ABSTRACT FROM AUTHOR]

Published

2024

34. Predicting insect body masses based on linear measurements: a phylogenetic case study on geometrid moths.

Author

Foerster, Stênio Ítalo Araújo, Javoiš, Juhan, Holm, Sille, and Tammaru, Toomas

Subjects

*LENGTH measurement, *INSECTS, *BODY size, *SHAPE measurement, *REGRESSION analysis, *GEOMETRIDAE

Abstract

Dry body mass (DBM) is perhaps the most biologically informative variable describing body size in invertebrates. Unfortunately, obtaining species-specific indices of DBM is problematic because body mass inevitably changes during the course of the life of an individual. Here, we present a phylogenetically informed analysis of allometric relationships between body size and various linear measurements in the moth family Geometridae, which relies on DBM recorded at a fixed time point of adult life. We demonstrate that all measurements of wing size predict DBM with reasonable accuracy, with the distance between the most distal ends of the two forewings in traditionally mounted moths showing the best performance. Abdomen width provides independent morphometric information and can be used as a proxy of body plan, i.e. a measurement of shape that is not dependent on size. Incorporating abdomen width into the regression models considerably increases their predictive ability. We also show that the allometric relationships are reasonably consistent between the two sexes, between monophyletic clades of Geometridae and between the two geographical regions involved in the study (northern Europe and equatorial Africa). The derived equations thus appear to be general enough to be applied in various studies, from comparative phylogenetic analyses to applied projects monitoring insect biomass. [ABSTRACT FROM AUTHOR]

Published

2024

35. Geographical variation in parasitoid communities and the cause of enemy-free space in a range-expanding myrmecophilous lycaenid butterfly.

Author

Nakabayashi, Yui and Ohshima, Issei

Subjects

*LYCAENIDAE, *BRACONIDAE, *PARASITISM, *PARASITOIDS, HOSTS of parasitoids

Abstract

Range expansions of host species are likely to modify host–parasitoid interactions. Observational studies have indicated that host species in recently colonized areas are less frequently attacked by parasitoids; however, these studies did not determine whether traditional parasitoids can still use host populations in these areas. Thus, it is unclear why the host has escaped from their traditional parasitoids in their recently colonized areas. In this study, we examined the interaction between myrmecophilous lycaenid butterfly, Arhopala japonica , and its larval parasitoids in northern Japan, a recently colonised area. This region corresponds to a distribution of A. japonica , a myrmecophilous lycaenid butterfly. No parasitoids emerged from A. japonica larvae collected in the north, whereas six parasitoid species attacked the host larvae in native areas. Attacks from the braconid wasp Cotesia sp. near inducta were the most common; however, parasitism tests revealed that Cotesia sp. near inducta and other parasitoid species completed their development successfully regardless of origin of their butterfly hosts. Population genetic analyses supported the recent range expansion of both A. japonica and Cotesia sp. near inducta. These results suggest that both hosts and parasitoids have experienced recent population expansion; however, the more rapid range expansion of A. japonica has caused escape from the enemy in newly colonized areas. [ABSTRACT FROM AUTHOR]

Published

2024

36. Acalypha ostryifolia: a natural refuge for Chloridea virescens and Helicoverpa zea (Lepidoptera: Noctuidae) in the Southern United States.

Author

Allen, K Clint, Elkins, Blake H, and Little, Nathan S

Subjects

*HELICOVERPA armigera, *HELIOTHIS zea, *BACTERIAL toxins, *BT cotton, *LEPIDOPTERA, *NOCTUIDAE, *HOST plants

Abstract

The tobacco budworm, Chloridea virescens (F.), and corn earworm, Helicoverpa zea (Boddie) (heliothines), have had a long-intertwined relationship with respect to their importance as pests in agricultural production systems. Previous studies have examined the impacts of early-season wild host plants on local population density and distribution of these 2 insects on cultivated crops such as cotton, Gossypium hirsutum L. and soybean, Glycine max L. Additional studies have examined the importance of wild host plants, which act as a refuge of nonexposed populations of C. virescens and H. zea to insecticidal toxins from the soil bacterium, Bacillus thuringiensis (Bt) Berliner. The current study examined hophornbeam copperleaf, Acalypha ostryifolia Riddell, as a host plant for mid-late season populations of C. virescens and H. zea. Patches of A. ostryifolia were sampled along roadsides and the edges of fields from 2014 to 2020 in Mississippi, USA, to examine larval density, species composition, and parasitism of heliothines on this wild host plant. Insects were collected from the end of June through October. The largest densities (based on the number of caterpillars per sweep) of heliothines were over one larva per sweep. Overall, 49.5% of the collected caterpillars were determined to be tobacco budworms, while 50.5% were corn earworms. Parasitism rates ranged from approximately 1–30%, increasing throughout the season. In general, densities of heliothines encountered on A. ostryifolia were greater than densities reported for other wild host plants. Hophornbeam copperleaf is an important natural refuge for both heliothines from Bt toxins and synthetic insecticide applications. [ABSTRACT FROM AUTHOR]

Published

2024

37. Predator selection on multicomponent warning signals in an aposematic moth.

Author

Hämäläinen, Liisa, Binns, Georgina E, Hart, Nathan S, Mappes, Johanna, McDonald, Paul G, O'Neill, Louis G, Rowland, Hannah M, Umbers, Kate D L, and Herberstein, Marie E

Subjects

*PREDATORY animals, *WARNINGS, *MOTHS, *STRIPES

Abstract

Aposematic prey advertise their unprofitability with conspicuous warning signals that are often composed of multiple color patterns. Many species show intraspecific variation in these patterns even though selection is expected to favor invariable warning signals that enhance predator learning. However, if predators acquire avoidance to specific signal components, this might relax selection on other aposematic traits and explain variability. Here, we investigated this idea in the aposematic moth Amata nigriceps that has conspicuous black and orange coloration. The size of the orange spots in the wings is highly variable between individuals, whereas the number and width of orange abdominal stripes remains consistent. We produced artificial moths that varied in the proportion of orange in the wings or the presence of abdominal stripes. We presented these to a natural avian predator, the noisy miner (Manorina melanocephala) , and recorded how different warning signal components influenced their attack decisions. When moth models had orange stripes on the abdomen, birds did not discriminate between different wing signals. However, when the stripes on the abdomen were removed, birds chose the model with smaller wing spots. In addition, we found that birds were more likely to attack moths with a smaller number of abdominal stripes. Together, our results suggest that bird predators primarily pay attention to the abdominal stripes of A. nigriceps, and this could relax selection on wing coloration. Our study highlights the importance of considering individual warning signal components if we are to understand how predation shapes selection on prey warning coloration. [ABSTRACT FROM AUTHOR]

Published

2024

38. Application of noninvasive sampling technique in mitochondrial genome intraspecific phylogeny of the endangered butterfly, Teinopalpus aureus (Lepidoptera: Papilionidae).

Author

Yang, Wen-Jing, He, Gui-Qiang, Huang, Chao-Bin, Zhou, Shan-Yi, Jia, Feng-Hai, and Zeng, Ju-Ping

Subjects

*MITOCHONDRIAL DNA, *PAPILIONIDAE, *PHYLOGENY, *LEPIDOPTERA, *BUTTERFLIES, *GENOMES

Abstract

The butterfly genus of Teinopalpus , endemic to Asia, embodies a distinct species of mountain-dwelling butterflies with specific habitat requirements. These species are rare in the wild and hold high conservation and research value. Similar to other protected species, the genetic analysis of the rare Teinopalpus aureus poses challenges due to the complexity of sampling. In this study, we successfully extracted DNA and amplified mitochondrial genomic DNA from various noninvasive sources such as larval feces, larval exuviae, larval head capsules, pupal exuviaes, and filamentous gland secretions, all integral parts of butterfly metamorphosis. This was conducted as part of a research initiative focused on the artificial conservation of T. aureus population in Jinggang Shan Nature Reserve. Our findings illustrated the successful extraction of DNA from multiple noninvasive sources, achieved through modified DNA extraction methodologies. Although the DNA concentration obtained from noninvasive samples was lower than that from muscle tissues of newly dead larvae during rearing, all samples met the requirements for PCR amplification and sequencing, yielding complete circular sequences. These sequences are pivotal for both interspecific and intraspecific genetic relationship analysis. Our methods can be extended to other insects, especially scarce species. [ABSTRACT FROM AUTHOR]

Published

2024

39. Identification, expression profiles, and binding properties of chemosensory protein 18 in Plutella xylostella (Lepidoptera: Plutellidae).

Author

Qie, Xingtao, Yan, Xizhong, Wang, Han, Li, Fangyuan, Hu, Liming, Hao, Chi, and Ma, Li

Subjects

*CHEMOSENSORY proteins, *DIAMONDBACK moth, *PLUTELLIDAE, *LEPIDOPTERA, *ANIMAL sexual behavior, *BINDING site assay

Abstract

Chemosensory proteins (CSPs) are highly efficient carry tools to bind and deliver hydrophobic compounds, which play an important role in the chemosensory process in insects. The diamondback moth, Plutella xylostella L. (Lepidoptera: Plutellidae), is a cosmopolitan pest that attacks cruciferous crops. However, the detailed physiological functions of CSPs in P. xylostella remain limited to date. Here, we identified a typical CSP, named Pxyl CSP18, in P. xylostella and investigated its expression patterns and binding properties of volatiles. PxylCSP18 was highly expressed in antennae and head (without antennae), and the expression level in the male antennae of P. xylostella was obviously higher than that in the female antennae. Moreover, Pxyl CSP18 has a relatively broad binding spectrum. Fluorescence competitive binding assays showed that Pxyl CSP18 had strong binding abilities with 14 plant volatiles (Ki < 10 μM) that were repellent or attractive to P. xylostella. Notably, Pxyl CSP18 had no significant binding affinity to (Z)-11-hexadecenal, (Z)-11-hexadecenyl acetate, and (Z)-11-hexadecenyl alcolol, which are the pheromone components of P. xylostella. The attractive effects of trans-2-hexen-1-ol and isopropyl isothiocyanate to male adults and the attractive effects of isopropyl isothiocyanate and the repellent effects of linalool to female adults were significantly decreased after knocked down the expression of PxylCSP18. Our results revealed that Pxyl CSP18 might play an important role in host plant detection, avoidance of unsuitable hosts, and selection of oviposition sites; however, it does not participate in mating behavior. Overall, these results extended our knowledge on the CSP-related functions, which provided insightful information about CSP-targeted insecticides. [ABSTRACT FROM AUTHOR]

Published

2024

40. A draft reference genome assembly of the Pipevine Swallowtail butterfly, Battus philenor hirsuta.

Author

Chaturvedi, Samridhi, Escalona, Merly, Marimuthu, Mohan P A, Nguyen, Oanh, Chumchim, Noravit, Fairbairn, Colin W, Seligmann, William, Miller, Courtney, Shaffer, H Bradley, and Whiteman, Noah K

Subjects

*PAPILIONIDAE, *GENOMES, *PLANT genomes, *IMMUNOPRECIPITATION, *HOST plants, *INSECT diversity, *GENOMICS, *LANDSCAPE changes

Abstract

The California Pipevine Swallowtail Butterfly, Battus philenor hirsuta , and its host plant, the California Pipevine or Dutchman's Pipe, Aristolochia californica Torr., are an important California endemic species pair. While this species pair is an ideal system to study co-evolution, genomic resources for both are lacking. Here, we report a new, chromosome-level assembly of B. philenor hirsuta as part of the California Conservation Genomics Project (CCGP). Following the sequencing and assembly strategy of the CCGP, we used Pacific Biosciences HiFi long reads and Hi-C chromatin proximity sequencing technology to produce a de novo assembled genome. Our genome assembly, the first for any species in the genus, contains 109 scaffolds spanning 443 mega base (Mb) pairs, with a contig N50 of 14.6 Mb, a scaffold N50 of 15.2 Mb, and BUSCO complete score of 98.9%. In combination with the forthcoming A. californica reference genome, the B. philenor hirsuta genome will be a powerful tool for documenting landscape genomic diversity and plant–insect co-evolution in a rapidly changing California landscape. [ABSTRACT FROM AUTHOR]

Published

2023

41. Asynchronous life cycles contribute to reproductive isolation between two Alpine butterflies.

Author

Bouaouina, Selim, Chittaro, Yannick, Willi, Yvonne, and Lucek, Kay

Subjects

*LIFE cycles (Biology), *SEXUAL cycle, *BUTTERFLIES, *SYMPATRIC speciation, *GENE flow, REPRODUCTIVE isolation

Abstract

Geographic isolation often leads to the emergence of distinct genetic lineages that are at least partially reproductively isolated. Zones of secondary contact between such lineages are natural experiments that allow investigation of how reproductive isolation evolves and co-existence is maintained. While temporal isolation through allochrony has been suggested to promote reproductive isolation in sympatry, its potential for isolation upon secondary contact is far less understood. Sampling two contact zones of a pair of mainly allopatric Alpine butterflies over several years and taking advantage of museum samples, we show that the contact zones have remained geographically stable over several decades. Furthermore, they seem to be maintained by the asynchronous life cycles of the two butterflies, with one reaching adulthood primarily in even and the other primarily in odd years. Genomic inferences document that allochrony is leaky and that gene flow from allopatric sites scales with the degree of geographic isolation. Overall, we show that allochrony has the potential to contribute to the maintenance of secondary contact zones of lineages that diverged in allopatry. Lay Summary: Many species have persisted in warmer geographic refugia during the last glaciation period. Since then, they have recolonized formerly glaciated areas, often coming into contact with close relatives from other refugia. Coexistence between these lineages is possible if there are enough isolating barriers that prevent gene flow between them. However, closely related taxa often lack strong barriers and form contact zones instead, where they hybridize to some degree. The factors that maintain such contact zones over time differ among species and are often unknown. Here, we studied two contact zones between a pair of closely related Alpine butterfly lineages. Over the 4 years that we sampled, we found that one lineage occurred predominantly in even and the other one predominantly in odd years, suggesting that their biennial life cycle enables them to spatially coexist in contact zones, with limited interbreeding. Using museum specimens, we confirmed that temporal isolation has been at play for at least several decades, and based on observation record data, we showed that biannual life cycles broadly differed between the two lineages across Switzerland. However, temporal isolation is leaky and hybridization occurs, especially when the contact zone is more connected to other populations. Taken together, our study highlights how asynchronous biennial life cycles, which are common in Alpine butterfly species, have the potential to contribute as a barrier to gene flow and may promote coexistence. [ABSTRACT FROM AUTHOR]

Published

2023

42. Adaptation by death? Cell death-based tolerance to cadmium in 150-generation exposure of Spodoptera exiqua Hübner (Lepidoptera: Noctuidae).

Author

Babczyńska, Agnieszka, Rost-Roszkowska, Magdalena, Kafel, Alina, Łozowski, Bartosz, Augustyniak, Maria, and Tarnawska, Monika

Subjects

SPODOPTERA, NOCTUIDAE, CADMIUM, APOPTOSIS, LEPIDOPTERA, LARVAE

Abstract

Mechanisms, including autophagy and apoptosis, which serve to regulate and ensure proper organism functions under optimal conditions, play additional defensive roles under environmental pressure.The aim of this study was to test the following hypotheses: (i) elevated autophagy and apoptosis intensity levels, as defensive processes in response to contact with cadmium, are maintained for a limited number of generations and (ii) the number of generations after which levels of cell death processes reach the reference level depends on selective pressure. Cell death processes were assessed by light and transmission electron microscopy, terminal deoxynucleotidyl transferase dUTP nick end labeling(TUNEL), and cytometric analyses. Model insects (Spodoptera exiqua, Hübner, 1808) were orally exposed to various concentrations of cadmium for 18 generations and compared with reference strains exposed to cadmium or not (control) for over 150 generations. Elevated programmed cell death intensity levels decreased after several generations, indicating tolerance of individuals to cadmium in the diet and verifying the first hypothesis; however, testing the second hypothesis indicated that the number of generations depended not only on pressure intensity, but also on cell death type, since levels of autophagy remained increased for a minimum of 12 generations. Graphical Abstract [ABSTRACT FROM AUTHOR]

Published

2023

43. Host-plant phenology mediates facultative ant mutualism in the rare butterfly, Celastrina humulus (Lepidoptera: Lycaenidae).

Author

Mooney, Emily H., Fahland, Audrey C., Nolan, Hailee A., Swift, Abbey M., and Schorr, Robert

Subjects

BUTTERFLIES, PHENOLOGY, LYCAENIDAE, LEPIDOPTERA, HOPS, ANTS, INFLORESCENCES

Abstract

Host-plant phenology can directly and indirectly mediate the abundance of insect herbivores. Our objective was to determine how host-plant flowering phenology shapes a facultative ant–lycaenid mutualism.The focus of our research was the hops azure, Celastrina humulus Scott & D. Wright, a rare species whose larvae feed on the pollen-bearing inflorescences of Humulus lupulus var. neomexicanus. We used several approaches to evaluate the role of host-plant flowering phenology in this system. First, we monitored larvae over three study years (2020–2022) to parse the role of host-plant flowering phenology and other factors in shaping the likelihood of ant tending. Second, we tested larval performance at various phenological stages of the host plant. We also quantified variation in soluble proteins and secondary metabolites among inflorescences at varying phenological stages. Lastly, we treated artificial sugar–protein baits with extracts from different phenological stages of the host plant; this allowed us to assess how chemical variation among stages could impact ant recruitment. Monitoring results revealed that the likelihood of ant tending was lowest for larvae on host plants with early-stage inflorescences. These floral stages had the greatest concentrations of both soluble proteins and α-acids (humulone and cohumulone), and in the feeding trial, early-stage flowers enabled greater weight gain for larvae. However, extracts from early-stage flowers reduced ant recruitment to sugar–protein baits. Altogether, these results suggest that early-stage inflorescences enhance larval growth while also reducing the recruitment of mutualist ants.This shows an indirect mechanism whereby changing host-plant phenology can mediate herbivore populations through interactions with ants. Graphical Abstract [ABSTRACT FROM AUTHOR]

Published

2023

44. Factors Driving Bumble Bee (Hymenoptera: Apidae: Bombus) and Butterfly (Lepidoptera: Rhopalocera) Use of Sheared Shrubland and Young Forest Communities of The Western Great Lakes.

Author

Keele, Emma C., McNeil, Darin J., Duchamp, Joseph E., and Larkin, Jeffery L.

Subjects

BUMBLEBEES, BEES, HYMENOPTERA, APIDAE, COMMUNITY forests, LEPIDOPTERA, BUTTERFLIES, INSECT diversity, TUNDRAS

Abstract

In the northern Great Lakes region, the creation and maintenance of early-successional woody communities as wildlife habitat have increasingly become a conservation priority.The extent to which insect pollinators use these systems remains largely anecdotal. In summer (June–August) of 2021, we surveyed 49 early-successional sites in the western Great Lakes region treated with either shrub-shearing or silviculture (young forest) for bumble bees, butterflies, and habitat components (i.e., structural vegetation and floral resources). Hierarchical distance models predicted pollinator densities () to be, on average, = 84 bumble bees/ha and = 102 butterflies/ha. Although sheared shrubland and young forest communities supported comparable densities of bumble bees and butterflies, density was not equal across all sites. At the microhabitat scale, butterfly density and morphospecies richness were negatively associated with tall shrub cover and butterfly morphospecies richness (but not density) was driven by floral richness. Similarly, bumble bee density was positively associated with metrics of floral resources, underscoring the importance of blooming plants within these woody systems. Landscape covariates explained variation in butterfly density/richness but not bumble bee density. Ultimately, our results demonstrate that blooming plant abundance is an important driver of bumble bee and butterfly densities within these managed early-successional communities. Because early-successional woody communities are dynamic and their herbaceous openings are ephemeral, routine management would ensure that a variety of successional conditions exist on the landscape to meet the needs of bumble bees, butterflies, and potentially other insect pollinators. [ABSTRACT FROM AUTHOR]

Published

2023

45. Unraveling the effect of temperature and humidity on the life cycle of Diatraea saccharalis (Lepidoptera: Crambidae) and the impact on pest outbreaks.

Author

Carbognin, Éllen R., Benedito, Antone S., Ferreira, Cláudia P., and Fernandes, Odair A.

Subjects

SUGARCANE borer, LIFE cycles (Biology), TEMPERATURE effect, CRAMBIDAE, LEPIDOPTERA, HUMIDITY

Abstract

Temperature and humidity are considered the main abiotic factors that affect both the development and survival of ectothermic organisms. In this study, we estimated the development time as well as the thermal requirements of the sugarcane borer, Diatraea saccharalis (Fabricius, 1794; Lepidoptera: Crambidae), a key insect pest of sugarcane and discussed the influence of temperature and relative humidity and its infestation intensity in a scenario of climate change.The models Brière-1 and Ikemoto-Takai provided the best fit to the data of development rate versus temperature.The average life cycle (from egg to adult) ranged from 39.21 ± 4.84 at 32 °C to 137.10 ± 7.47 at 18 °C days.The thermal constant and average base temperature were 547.69 degree-days and 13.64 °C, respectively.The number of larval instars varied from 4 to 7 depending on the temperature, being higher at lower temperatures.The thermal range comprised the interval from 16.7 °C to 33.9 °C and the optimum temperature was estimated as 27.4 °C. Locations with elevated temperature (≥25 °C) and high relative humidity (≥70%) presented larger populations of D. saccharalis. Our findings show that the infestation pressure of this species is highly influenced by both temperature and humidity, and the studied models allow to forecast pest outbreaks. In the context of climate change, information about the thermal range and the optimum temperature contributes to predicting the spatial-temporal distribution of D. saccharalis and, consequently, aids decision making in pest management. Graphical Abstract Resumo: Temperatura e umidade são consideradas os principais fatores abióticos que afetam o desenvolvimento e a sobrevivência de organismos ectotérmicos. Neste estudo, nós estimamos o tempo de desenvolvimento, bem como os requerimentos térmicos da broca da cana-de-açúcar, Diatraea saccharalis (Fabricius, 1794) (Lepidoptera: Crambidae), uma praga-chave da cana-de-açúcar e discutimos a influência da temperatura e umidade relativa e sua intensidade de infestação em um cenário de mudanças climáticas. Os modelos Brière-1 e Ikemoto-Takai forneceram o melhor ajuste aos dados de taxa de desenvolvimento versus temperatura. O ciclo de vida médio (do ovo ao adulto) variou de 39,21 ± 4,84 a 32 °C até 137,10 ± 7,47 dias a 18 °C. A constante térmica e a temperatura base média foram 547,69 graus-dia e 13,64 °C, respectivamente. O número de instares larvais variou de 4 a 7 dependendo da temperatura, sendo maior em temperaturas baixas. A faixa térmica compreendeu o intervalo de 16,7 °C a 33,9 °C e a temperatura ótima foi estimada em 27,4 °C. Locais com temperatura elevada (≥25 °C) e alta umidade relativa (≥70%) têm populações maiores de D. saccharalis. Nossos resultados mostram que a pressão de infestação desta espécie é altamente influenciada pela temperatura e umidade e os modelos estudados permitem prever surtos da praga. No contexto das mudanças climáticas, informação sobre a amplitude térmica e a temperatura ótima contribui para prever a distribuição espaçotemporal de D. saccharalis e, consequentemente, auxilia na tomada de decisão no manejo de pragas. [ABSTRACT FROM AUTHOR]

Published

2023

46. Larval competition analysis and its effect on growth of Ostrinia furnacalis (Lepidoptera: Crambidae) at natural conditions in Northeast China.

Author

Liu, Jia-Li, Feng, Xiao, Abbas, Arzlan, Abbas, Sohail, Hafeez, Faisal, Han, Xiao, Romano, Donato, and Chen, Ri Zhao

Subjects

LARVAE, OSTRINIA, CRAMBIDAE, LEPIDOPTERA, AGRICULTURE, INTEGRATED pest control

Abstract

The Asian corn borer (Ostrinia furnacalis, Lepidoptera, Crambidae) and Oriental armyworm (Mythimna separata, Lepidoptera, Noctuidae) are 2 major lepidopteran pests of the maize plant, especially the whorls and tassels. The aim of this study was to investigate competition between 2 lepidopteran pests of maize. Intraspecific and interspecific competition occurs when O. furnacalis and M. separata larvae interact with various stages of the maize plant. Therefore, determining whether this competition can decrease larval damage by causing adverse effects on larval growth is crucial. During the maize growing season of 2022, the interaction of these species was assessed in the experimental field of Jilin Agricultural University, China. Interspecific and intraspecific competition of larvae in different maize tissues and the influence of competition on larval development was determined in the fields. The results showed that first, probing behavior was significantly frequent in O. furnacalis larvae; intraspecific and interspecific attack was significant at 4th instar (with leaf, silk, and kernel). Interspecific defense behavior was significant at 3rd instar (without food). O. furnacalis larvae showed attack behavior toward M. separata larvae frequently. Second, competition increased the mortality rate of O. furnacalis larvae (intraspecific, 67%; interspecific, 33%) and decreased pupation emergence rate.Thus, intraspecific and interspecific competition might affect the competitive displacement of pest species sharing the same ecological niche, as well as the prevalence and population dynamics of pests, and help to develop integrated pest management strategies. [ABSTRACT FROM AUTHOR]

Published

2023

47. The potential of entomopathogenic nematodes of the genera Steinernema and Heterorhabditis for biological control of the pine lappet moth Dendrolimus pini L. (Lepidoptera: Lasiocampidae) in Scots pine stands.

Author

Tumialis, Dorota, Mazurkiewicz, Anna, Florczak, Lidia, and Skrzecz, Iwona

Subjects

INSECT nematodes, HETERORHABDITIS, SCOTS pine, BIOLOGICAL pest control agents, LEPIDOPTERA, PINE

Abstract

Protecting stands of Scots pine (Pinus sylvestris) from the larvae of the pine lappet moth (Dendrolimus pini) has been a problem for many years in Central Europe. The feeding habits of the larvae of D. pini often result in more than 50 per cent defoliation, which weakens trees and increases their susceptibility to unfavourable environmental conditions. The aim of this study was to evaluate the effectiveness of native isolates of the entomopathogenic nematodes Steinernema feltiae (Filipjev, 1934) and Heterorhabditis megidis (Poinar, Jackson and Klein, 1987), as well as of the commercial preparations Nemamax (Heterorhabditis downesi) (Stock, Griffin and Burnell), Entonem (S. feltiae) and E-nema GmbH (S. carpocapsae) in greenhouse experiments and field trials. The highest extensity of infection (>80 per cent) of the pine lappet moth with nematodes in the greenhouse experiments studies was found for the strain S. feltiae ZAG15. In field trials, a greater effectiveness was obtained using commercial preparations of S. feltiae (Entonem), which led to approximately a twofold reduction in the number of wintering D. pini larvae. The results of this study indicate that entomopathogenic nematodes can be considered a potential biological control agent for reducing the damage caused by D. pini larvae. [ABSTRACT FROM AUTHOR]

Published

2023

48. Kaolin as a management alternative for insecticide-resistant navel orangeworm (Lepidoptera: Pyralidae).

Author

Bush, Daniel S, Demkovich, Mark, Aldunate, Moiravi, Siegel, Joel, and Berenbaum, May R

Subjects

KAOLIN, INSECTICIDES, ALMOND growing, CHLORANTRANILIPROLE, PYRALIDAE, BIFENTHRIN, PEST control, LEPIDOPTERA

Abstract

The production of almonds and pistachios in California's Central Valley employs insecticides for the management of their primary pest, navel orangeworm. The pyrethroid Bifenthrin is commonly used, and now a strain of Amyelois transitella Walker (Lepidoptera: Pyralidae) (R347) obtained from Kern County almond orchards with a history of Bifenthrin use has acquired >110-fold resistance toward pyrethroids. One method to improve control is to use additives and spray adjuvants, which are applied simultaneously with an insecticide to increase coverage and/or duration of control. We tested 2 levels of the naturally occurring clay Kaolin as an additive, alone and in combination with either Bifenthrin or the diamide Chlorantraniliprole, to determine if it could reduce feeding damage and decrease survival of pyrethroid-resistant A. transitella on almonds in the laboratory and improve the efficacy of Chlorantraniliprole in the field. Larval performance was measured for the strains R347 and ALM (34.7-fold resistance compared to susceptible lab strain) reared on treated almonds. Strain R347 had 1.9-fold greater survival and caused 1.3-fold more feeding damage than strain ALM across all treatments, although both strains were susceptible to the combination of Kaolin + insecticide. Kaolin synergized Bifenthrin for R347, decreasing survival by 10.0%. Kaolin did not reduce feeding damage for either strain. When combined with insecticide, feeding damage was similar to insecticide alone, but the addition of Kaolin to the insecticide generally decreased survival more than the insecticide alone. In the field, the addition of Kaolin to Chlorantraniprole during application helped retain activity against this challenging pest. [ABSTRACT FROM AUTHOR]

Published

2023

49. Frequency and diversity of indoxacarb resistance in Australian Helicoverpa armigera (Lepidoptera: Noctuidae).

Author

Bird, Lisa J, Walker, Paul W, and Drynan, Linda J

Subjects

HELICOVERPA armigera, NOCTUIDAE, EMAMECTIN benzoate, LEPIDOPTERA, AGRICULTURE, CHICKPEA, INSECTICIDES

Abstract

Annual indoxacarb resistance in Helicoverpa armigera (Hübner) populations collected from various crops in Australia was monitored between 2013 and 2023. Resistance frequency determined by F2 screening using a predetermined discriminating dose of indoxacarb, was lowest in the 2013–2014 and 2015–2016 seasons at 0.0164 and 0.0246, respectively. Resistance then increased significantly to a ten-year high of 0.0869 in 2018–2019 but declined to 0.0557 in 2019–2020 during a severe drought, remaining relatively stable thereafter to 2023. Indoxacarb resistance was first detected in H. armigera collected from maize in the Gwydir valley, New South Wales, in 2013 (strain GY7-39). In 2017, a second indoxacarb resistant H. armigera strain (UN1U3-10) was isolated from a population collected in chickpeas in the Liverpool Plains, New South Wales. Indoxacarb resistance of this strain was characterized to evaluate its potential to compromise the ongoing effectiveness of insecticide resistance management strategies in Australian farming systems. Survival at the discriminating dose of indoxacarb in UN1U3-10 was 28.9, 52.6, 86.7, and 92.9% in the F2, F3, F4, and F5, respectively. Following introgression with a susceptible strain and reselection with the discriminating dose of indoxacarb, the resistance ratio of UN1U3-10 was approximately 800-fold. Resistance was autosomal, incompletely dominant and conferred by more than 1 locus. While indoxacarb resistance in UN1U3-10 did not confer to emamectin benzoate or spinetoram and there was no evidence of major cross-resistance to the Bt toxins Cry1A, Cry2A or Vip3A, there was 5-fold reduced sensitivity to chlorantraniliprole. Indoxacarb resistance was suppressed by approximately 10-fold by PBO with no synergism by TPP or DEM, suggesting the involvement of cytochrome P450 enzymes. A stability analysis indicated a fitness cost may be associated with the genes that confer resistance in the UN1U3-10 strain. The potential risk for diverse indoxacarb resistance in the Australian H. armigera population is discussed. [ABSTRACT FROM AUTHOR]

Published

2023

50. A soybean trypsin inhibitor reduces the resistance to transgenic maize in a population of Spodoptera frugiperda (Lepidoptera: Noctuidae).

Author

Fonseca, Sandy Sousa, Santos, Ana Leticia Zero, Pinto, Ciro Pedro Guidotti, Marques, Luiz, Santos, Antonio Cesar, Bing, James, Nowatzki, Timothy, Sethi, Amit, and Rossi, Guilherme Duarte

Subjects

FALL armyworm, TRYPSIN inhibitors, LEPIDOPTERA, NOCTUIDAE, SOYBEAN, BT cotton, INSECTICIDE resistance

Abstract

Lepidopteran pests have been successfully managed by the adoption of insect resistant transgenic plants expressing Cry and/or Vip insecticidal proteins derived from Bacillus thuringiensis (Bt plants). Among such pests, Spodoptera frugiperda (Smith, 1797) (Lepidoptera: Noctuidae) is highlighted for its destructive potential in maize crops and for cases of field-evolved resistance to Bt plants. Cry insecticidal proteins expressed in Bt plants are known for their interaction with insect midgut receptors and subsequent midgut cell disruption that leads to target pest death. In the midgut of lepidopteran larval pests such as S. frugiperda , serine proteases are important in dietary protein digestion and activation or degradation of insecticidal proteins. This work was conducted to evaluate if the use of a soybean trypsin inhibitor (SBTI) could disrupt the development of a Bt-susceptible and a Bt-resistant population of S. frugiperda ingesting Bt (expressing Cry1F, Cry1A.105, and Cry2Ab2 Cry proteins) and non-Bt maize plants. The SBTI was produced and purified using recombinant expression in E. coli followed by purification in Ni-Sepharose. Bioassays using non-Bt maize leaves indicated that the development of susceptible and resistant populations of S. frugiperda was not influenced by the ingestion of SBTI. However, when the resistant population consumed Bt maize plants amended with SBTI, high mortality along with a reduction in larval weight and reduced activity of digestive trypsins were observed. Although the mode of action was not elucidated, it is possible that the consumption of SBTI increased susceptibility to Bt maize in the resistant population of S. frugiperda. [ABSTRACT FROM AUTHOR]

Published

2023