More Like this

1. Catalog of Endophytic Insects Associated with Rosinweeds ( Silphium L., Heliantheae, Asteraceae) in North America

   https://doi.org/10.1155/2024/8464635  

   Nastasi, Louis F; Smith, Cecil N; Tooker, John F; Deans, Andrew R (January 2024, Psyche: A Journal of Entomology)

   Tomanovic, Zeljko (Ed.)

   Endophytic insects, including gall insects and leaf miners, are prominent in both natural and agricultural plant communities. We catalog the endophytic insect fauna in North America that are known to associate with rosinweeds (SilphiumL., Heliantheae, Asteraceae). We provide details on host plant species, brief descriptions of insect associations, and known distributions of their association withSilphiumspecies. We report associations with rosinweeds for 41 insect species from 18 families across four insect orders and detail the host plant tissue where these insects occur. The complex community we describe suggests that a further study of rosinweed endophytic insects could be useful to understanding evolution of host‐plant preferences andSilphiumspecies boundaries. 

   more » « less
2. Ecological convergence in phytochemistry and flower–insect visitor interactions along an Andean elevation gradient

   https://doi.org/10.1002/ece3.10418  

   Carvajal Acosta, Alma Nalleli; Formenti, Ludovico; Godschalx, Adrienne; Katsanis, Angelos; Schapheer, Constanza; Mooney, Kailen; Villagra, Cristian; Rasmann, Sergio (August 2023, Ecology and Evolution)

   Abstract The diversity of specialized molecules produced by plants radiating along ecological gradients is thought to arise from plants' adaptations to local conditions. Therefore, closely related species growing in similar habitats should phylogenetically converge, or diverge, in response to similar climates, or similar interacting animal communities. We here asked whether closely related species in the genusHaplopappus(Asteraceae) growing within the same elevation bands in the Andes, converged to produce similar floral odors. To do so, we combine untargeted analysis of floral volatile organic compounds with insect olfactory bioassay in congenericHaplopappus(Asteraceae) species growing within the same elevation bands along the Andean elevational gradient. We then asked whether the outcome of biotic interactions (i.e., pollination vs. seed predation) would also converge across species within the same elevation. We found that flower odors grouped according to their elevational band and that the main floral visitor preferred floral heads from low‐elevation band species. Furthermore, the cost–benefit ratio of predated versus fertilized seeds was consistent within elevation bands, but increased with elevation, from 6:1 at low to 8:1 at high elevations. In the light of our findings, we propose that climate and insect community changes along elevation molded a common floral odor blend, best adapted for the local conditions. Moreover, we suggest that at low elevation where floral resources are abundant, the per capita cost of attracting seed predators is diluted, while at high elevation, sparse plants incur a higher herbivory cost per capita. Together, our results suggest that phytochemical convergence may be an important factor driving plant–insect interactions and their ecological outcomes along ecological gradients. 

   more » « less
3. Two new species of Ormyrus Westwood (Hymenoptera: Ormyridae) from Cynipidae (Hymenoptera) galls on Silphium L. (Asteraceae: Heliantheae)

   https://doi.org/10.11646/zootaxa.5601.2.3  

   NASTASI, LOUIS F; DAVIS, CHARLES K; ALCORN, JELANI K; FREY, TIMOTHY S; HATFIELD, M J; HINES, HEATHER M; TOOKER, JOHN F; DEANS, ANDREW R (March 2025, Zootaxa)

   Two new species of Ormyrus Westwood, 1832 (Hymenoptera: Chalcidoidea: Ormyridae) are described: Ormyrus myrae Nastasi, Alcorn, & Davis sp. nov. and Ormyrus bellbowl Nastasi, Alcorn, & Davis sp. nov. Species of Ormyrus are parasitoids in insect galls, especially those induced by Cynipidae (Hymenoptera: Cynipoidea), and the new species are parasitoids in galls induced by Antistrophus Walsh, 1869 (Cynipidae: Aulacideini) on rosinweeds of the genus Silphium L. (Asteraceae: Heliantheae). Ormyrus bellbowl is a parasitoid of Antistrophus meganae Tooker & Hanks, 2004 in stems of S. terebinthinaceum Jacq., as well as other species of Antistrophus inducing inconspicuous galls in stems of S. laciniatum L. Ormyrus myrae is a parasitoid of Antistrophus laciniatus Gillette, 1891 on S. laciniatum and S. terebinthinaceum; the latter represents a new association of A. laciniatus with S. terebinthinaceum. Previous records of O. labotus Walker, 1843 in association with Antistrophus species are suggested as the results of misidentifications.  

   more » « less
4. Clonal versus non-clonal milkweeds ( Asclepias spp.) respond differently to stem damage, affecting oviposition by monarch butterflies

   https://doi.org/10.7717/peerj.10296  

   He, Elise; Agrawal, Anurag A. (January 2020, PeerJ)

   null (Ed.)

   Background Oviposition decisions are critical to the fitness of herbivorous insects and are often impacted by the availability and condition of host plants. Monarch butterflies ( Danaus plexippus ) rely on milkweeds ( Asclepias spp.) for egg-laying and as food for larvae. Previous work has shown that monarchs prefer to oviposit on recently regrown plant tissues (after removal of above-ground biomass) while larvae grow poorly on plants previously damaged by insects. We hypothesized that these effects may depend on the life-history strategy of plants, as clonal and non-clonal milkweed species differ in resource allocation and defense strategies. Methodology/Principal Findings We first confirmed butterfly preference for regrown tissue in a field survey of paired mowed and unmowed plots of the common milkweed A. syriaca . We then experimentally studied the effects of plant damage (comparing undamaged controls to plants clipped and regrown, or damaged by insects) on oviposition choice, larval performance, and leaf quality of two closely related clonal and non-clonal species pairs: (1) A. syriaca and A. tuberosa , and (2) A. verticillata and A. incarnata . Clonal and non-clonal species displayed different responses to plant damage, impacting the proportions of eggs laid on plants. Clonal species had similar mean proportions of eggs on regrown and control plants (≈35–40% each), but fewer on insect-damaged plants (≈20%). Meanwhile non-clonal species had similar oviposition on insect-damaged and control plants (20–30% each) but more eggs on regrown plants (40–60%). Trait analyses showed reduced defenses in regrown plants and we found some evidence, although variable, for negative effects of insect damage on subsequent larval performance. Conclusions/Significance Overall, non-clonal species are more susceptible and preferred by monarch butterflies following clipping, while clonal species show tolerance to clipping and induced defense to insect herbivory. These results have implications for monarch conservation strategies that involve milkweed habitat management by mowing. More generally, plant life-history may mediate growth and defense strategies, explaining species-level variation in responses to different types of damage. 

   more » « less
5. Chitosan nanoparticles help double‐stranded RNA escape from endosomes and improve RNA interference in the fall armyworm, Spodoptera frugiperda

   https://doi.org/10.1002/arch.21677  

   Gurusamy, Dhandapani; Mogilicherla, Kanakachari; Palli, Subba R. (April 2020, Archives of Insect Biochemistry and Physiology)

   Abstract RNA interference (RNAi) is a promising technology for the development of next‐generation insect pest control products. Though RNAi is efficient and systemic in coleopteran insects, it is inefficient and variable in lepidopteron insects. In this study, we explored the possibility of improving RNAi in the fall armyworm (FAW),Spodoptera frugiperdaby conjugating double‐stranded RNA (dsRNA) with biodegradable chitosan (Chi). dsRNA conjugated with chitosan was protected from degradation by endonucleases present in Sf9 cell‐conditioned medium, hemolymph, and midgut lumen contents collected from the FAW larvae. Chi–dsRNA complexes showed reduced accumulation in the endosomes of Sf9 cells and FAW tissues. Exposing chitosan formulated dsRNA in Sf9 cells and the tissues induced a significant knockdown of endogenous genes. Chi–dsIAP fed to FAW larvae induced knockdown ofiapgene, growth retardation, and mortality. Processing of dsRNA into small interfering RNA was detected with chitosan‐conjugated³²P‐UTP‐labeled ds green fluorescent protein in Sf9 cells and FAW larval tissues. Overall, these data suggest that dsRNA conjugated with chitosan helps dsRNA escape from the endosomes and improves RNAi efficiency in FAW cells and tissues. 

   more » « less