Insects

27 pages, 1191 KB

Open AccessReview

Eastern North American Monarch Butterfly Conservation Needs and Opportunities: What the Science Tells Us

by Karen S. Oberhauser

Insects 2026, 17(3), 235; https://doi.org/10.3390/insects17030235 (registering DOI) - 25 Feb 2026

Monarch butterfly numbers in North America have been declining since the early 2000s. This review focuses on the causes of this decline in the eastern migratory population, found roughly east of the Rocky Mountains, and ways to achieve population sustainability. Drivers of eastern [...] Read more.

Monarch butterfly numbers in North America have been declining since the early 2000s. This review focuses on the causes of this decline in the eastern migratory population, found roughly east of the Rocky Mountains, and ways to achieve population sustainability. Drivers of eastern North American monarchs’ decline include (1) the loss of breeding habitat, caused mainly by the loss of their milkweed host plants in agricultural fields after adoption of genetically modified, herbicide tolerant corn and soybeans, (2) weather, particularly warmer and drier conditions that could push monarchs farther north and lead to lower numbers, and (3) increasing insecticide use. Making habitat broadly available to monarchs across their migratory cycle will make them more resilient, and better able to survive weather-driven declines, and even small tracts of land can provide needed habitat. Sites that are isolated from other habitat patches contain higher egg, larva, and adult monarch densities. Good monarch habitat should include a diversity of native milkweed species and nectar plants that will thrive in local growing conditions. Monarch egg and larva density increases with increasing milkweed density and monarch survival is higher when larvae are less crowded, so a good general rule is that more milkweed is better. Full article

(This article belongs to the Special Issue Advances on Conservation of Biodiversity, Monitoring Programs and Trend Assessment)

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12 pages, 719 KB

Open AccessReview

Crop: The Black Box of Mosquito Vector Fitness

by Ainhoa Rodriguez-Pereira, Frances M. Hawkes and S. Noushin Emami

Insects 2026, 17(3), 234; https://doi.org/10.3390/insects17030234 - 25 Feb 2026

Abstract

In mosquitoes, digestion involves the foregut (including the crop), midgut, and hindgut, with the midgut and crop playing important roles in processing sugar and blood meals. The well-studied midgut is a known major pathogen entry point; however, the less-explored crop may affect vector [...] Read more.

In mosquitoes, digestion involves the foregut (including the crop), midgut, and hindgut, with the midgut and crop playing important roles in processing sugar and blood meals. The well-studied midgut is a known major pathogen entry point; however, the less-explored crop may affect vector fitness and immunity. This review provides an overview of the anatomy and function of the crop, before drawing together the current state of knowledge of (I) the crop’s role in digestion, (II) its immune function, and (III) the importance of the crop microbiome and its potential role in mosquito fitness. After decades of chemical control, vector management must move beyond immediate disease prevention toward a global approach that considers mosquito biology and the crop’s diverse roles. This may make it a suitable target for new innovations by providing insights into detoxification mechanisms, microbiome-mediated functions, and their potential combined effects on vectorial capacity. Future research is needed to better understand crop function. Full article

(This article belongs to the Special Issue Exploring Chemical Language between Vector, Parasite, and Host)

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Graphical abstract

14 pages, 2014 KB

Open AccessArticle

Effect of Transgenic Cotton with Bt Event Mpp51Aa2 on Cotton Fleahopper (Pseudatomoscelis seriatus) During Early Cotton Growth and Resulting Plant Injury

by Malek A. Alwedyan, Pius A. Bradicich, Joshua A. McGinty and Michael J. Brewer

Insects 2026, 17(3), 233; https://doi.org/10.3390/insects17030233 - 24 Feb 2026

Abstract

The cotton fleahopper (Pseudatomoscelis seriatus (Reuter)) is an early-season hemipteran plant bug pest of cotton. In transgenic cotton cultivars, Bt event Mpp51Aa2 (Cry51Aa2) affects some other plant bug species (Hemiptera: Miridae) (we henceforth use the common terminology, stating that these cultivars have [...] Read more.

The cotton fleahopper (Pseudatomoscelis seriatus (Reuter)) is an early-season hemipteran plant bug pest of cotton. In transgenic cotton cultivars, Bt event Mpp51Aa2 (Cry51Aa2) affects some other plant bug species (Hemiptera: Miridae) (we henceforth use the common terminology, stating that these cultivars have the ThryvOn trait). Field experiments were conducted in Corpus Christi, Texas, USA, to evaluate the responses of four cotton cultivars with and without the ThryvOn trait to cotton fleahopper infestations, comparing them with early-season foliar insecticide applications of flupyradifurone. Naturally occurring cotton fleahopper populations rose to the economic threshold midway through the first four weeks of squaring, when cotton plants are most sensitive to feeding injury, in 2024 and later in the same period in 2025. Flupyradifurone application significantly reduced adult and nymph abundance, resulting in reduced square abscission (2025) and yield protection that was consistent across cultivars in 2024 but more variable in 2025. Cultivars expressing the ThryvOn trait exhibited modest and variable reductions in adult cotton fleahopper abundance (~10–30%), occasionally benefiting from reduced square abscission but not protected yield. The open boll ratio, used to assess maturity delay, was not affected by cultivar or cotton fleahopper pressure. These results indicate that ThryvOn cultivars may provide limited supplemental benefits but do not replace or enhance the effectiveness of flupyradifurone for cotton fleahopper management. Full article

(This article belongs to the Special Issue Cotton Pest Management)

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23 pages, 1001 KB

Open AccessArticle

Sustainable Protein in the Food Chain: A Five-Country Study on Consumer Preferences for Insect-Fed Animal Products

by Jie Li, Giovanni Sogari, Francesco Riccioli, Martina Sartoni, Daylan Amelia Tzompa-Sosa, Aijun Liu and Simone Mancini

Insects 2026, 17(3), 232; https://doi.org/10.3390/insects17030232 - 24 Feb 2026

Abstract

Insect-based feed is a promising solution to reduce the environmental impact of livestock production, but its market success depends on consumer acceptance of animal products raised on such diets. This study examines consumer preferences and willingness to pay (WTP) for insect-fed fish, chicken, [...] Read more.

Insect-based feed is a promising solution to reduce the environmental impact of livestock production, but its market success depends on consumer acceptance of animal products raised on such diets. This study examines consumer preferences and willingness to pay (WTP) for insect-fed fish, chicken, pork, and eggs across five countries: China, Mexico, Italy, Belgium, and the United States. Using contingent valuation and randomized information treatments through a survey with a total sample of 3418 respondents, we assess how product type, country context, and consumer exposure to information influence purchasing behavior. Results show that product information generally reduces consumer resistance to purchasing insect-fed products, but its effect on raising WTP varies significantly by country and product. China consistently exhibits the highest WTP across all products, exceeding current market prices. Notably, information treatment about the sustainability, environmental and economic advantages of insect-based feed significantly increased WTP in Mexico but had little to no effect in Italy, Belgium, or the U.S. Results also suggest that consumers across all five countries value transparency and believe it is important to disclose feed-related information on product packaging. These findings suggest that targeted communication and policy efforts are needed to support broader consumer acceptance and price alignment for sustainable feed innovations in European countries and the US. Full article

(This article belongs to the Special Issue Insects: A Unique Bioresource for Agriculture and Humanity)

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5 pages, 160 KB

Open AccessEditorial

Advances in the Health, Behavior, and Physiology of Honeybees and Other Pollinators

by Giovanni Formato and Franco Mutinelli

Insects 2026, 17(2), 231; https://doi.org/10.3390/insects17020231 - 23 Feb 2026

Abstract

The health, behavior, and physiology of honeybees and other pollinators are critical areas of research with profound implications for biodiversity, agriculture, and ecosystem stability [...] Full article

(This article belongs to the Special Issue Advances in the Health, Behavior, and Physiology of Honeybees and Other Pollinators)

14 pages, 2374 KB

Open AccessArticle

Characterization of BmCeP, a Salivary Gland-Predominant Expression Promoter in the Silkworm Bombyx mori

by Ling Ran, Jing Wang, Jinyu Pan, Jie Yang, Shuozheng Mei, Shuyi Lei, Ying He, Fanglin Zhou, Qingyou Xia and Genhong Wang

Insects 2026, 17(2), 230; https://doi.org/10.3390/insects17020230 - 23 Feb 2026

Abstract

The salivary gland is a key organ in insects that plays essential roles in food digestion, nutrient absorption, and energy metabolism, thereby highlighting the importance of studying salivary gland function for gaining a better understanding of nutritional utilization and insect–plant interactions. To date, [...] Read more.

The salivary gland is a key organ in insects that plays essential roles in food digestion, nutrient absorption, and energy metabolism, thereby highlighting the importance of studying salivary gland function for gaining a better understanding of nutritional utilization and insect–plant interactions. To date, however, a lack of salivary gland-specific promoters has limited functional analyses of salivary gland genes in Lepidoptera. In this study, based on microarray and salivary gland transcriptome data, we identified nine candidate genes characterized by high salivary gland expression. Semi-quantitative PCR analysis confirmed cholinesterase (BmCe, BGIBMGA010988) as the optimal candidate for promoter cloning. Temporal expression analysis revealed that the expression of BmCe reaches a peak during days 2–4 of the fifth larval instar. A 2152 bp fragment upstream of the transcription initiation site of BmCe was selected as the putative promoter sequence (designated BmCeP) and cloned to construct a piggyBac transgenic vector driving DsRed expression. Transgenic silkworms were obtained via embryonic microinjection and tissue expression analysis on day three of fifth-instar larvae revealed the predominant localization of DsRed expression in the salivary glands. In this study, we thus identified a gene promoter characterized by salivary gland-predominant expression in Bombyx mori, which we believe could serve as a valuable genetic tool for investigating the molecular mechanisms underlying silkworm nutritional utilization and interactions with its host plant, mulberry. Full article

(This article belongs to the Special Issue Genomics and Molecular Biology in Silkworm)

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17 pages, 17457 KB

Open AccessArticle

Simple and Rapid Detection of Salivary Sheaths at Philaenus spumarius Feeding Points

by Aziza Husein, Valdete Sefa, Francesca Garganese, Ugo Picciotti, Giovanni Luigi Bruno, Maria Letizia Gargano and Francesco Porcelli

Insects 2026, 17(2), 229; https://doi.org/10.3390/insects17020229 - 22 Feb 2026

Abstract

Hemipteran plant sap feeders acquire food by inserting their piercing–sucking mouthparts into the apoplast (xylem sap feeders) or symplast (phloem sap feeders). When feeding, these insects seal their stylets inside the plant with a salivary sheath, minimising embolisms. The main impact of the [...] Read more.

Hemipteran plant sap feeders acquire food by inserting their piercing–sucking mouthparts into the apoplast (xylem sap feeders) or symplast (phloem sap feeders). When feeding, these insects seal their stylets inside the plant with a salivary sheath, minimising embolisms. The main impact of the insect on the host or food plant consists of sucking plant sap, transmitting phytopathogenic agents, or triggering galls as hypertrophic and/or hyperplastic neoformations. This paper proposes a rapid method for locating and counting the salivary sheaths of Philaenus spumarius (the Meadow Spittlebug), the primary Italian vector of Xylella fastidiosa, at the feeding point on its host or food plants. Hand-sliced stems of herbs hosting juveniles and olive twigs or leaves feeding the adult spittlebug, preserved while mounted in 75% ethanol (v/v), show the salivary sheaths. Alternative dyeing with acid fuchsin, chlorazol black, or phloroglucinol, and diaphanisation with Essig’s fluid alone or in combination with benzyl alcohol, may help with observations. The 75% EtOH solution provides a better compromise, yielding rapid evidence. The other methods offer similar outcomes but require more time and effort and expose the operator to harmful dyes. Assessing vectors’ access to plants may enable us to quantify the potential number of pathogen transmission events or to spot rejecting clones, thereby advancing the development of robust, effective control strategies that incorporate resistance. Full article

(This article belongs to the Section Insect Pest and Vector Management)

16 pages, 2688 KB

Open AccessArticle

Binding Mechanism of PsauPBP3 to Sex Pheromones in Peridroma saucia: Insights from Computational and Experimental Approaches

by Xiaoqian Yao, Shuai Chang, Mingshan Wang, Junfeng Dong, Shaoli Wang and Yalan Sun

Insects 2026, 17(2), 228; https://doi.org/10.3390/insects17020228 - 22 Feb 2026

Abstract

The variegated cutworm Peridroma saucia Hübner, a recently emerged polyphagous pest in China’s Huang-Huai River Basin, uses sex pheromones (Z)-11-hexadecenyl acetate (Z11-16: Ac) and (Z)-9-tetradecenyl acetate (Z9-14: Ac) for mate finding. Insect pheromone-binding proteins (PBPs) serve as the primary filter for detecting specific [...] Read more.

The variegated cutworm Peridroma saucia Hübner, a recently emerged polyphagous pest in China’s Huang-Huai River Basin, uses sex pheromones (Z)-11-hexadecenyl acetate (Z11-16: Ac) and (Z)-9-tetradecenyl acetate (Z9-14: Ac) for mate finding. Insect pheromone-binding proteins (PBPs) serve as the primary filter for detecting specific sex pheromones. Although comprehensive functional analyses of PBPs exist, their binding mechanisms remain poorly characterized. In this study, we elucidated the binding properties and mechanisms of PsauPBP3 in sex pheromone recognition by computational and experimental approaches. PsauPBP3, predominantly expressed in male P. saucia antennae, showed high binding affinity for both Z11-16: Ac and Z9-14: Ac, as demonstrated by binding-free-energy calculations and fluorescence binding assays. Molecular dynamics simulations and docking studies identified five key residues (Thr-10, Phe-13, Ile-53, Ile-95, and Phe-119) that consistently interact with these pheromones, indicating their critical role in ligand binding. Computational alanine scanning further demonstrated that all five residues act as binding determinants, with Phe-13 and Ile-95 making particularly significant contributions to ligand affinity. The results were further validated by site-directed mutagenesis and fluorescence binding assays. This work provides insights into the function and binding mechanisms of PBPs in sex pheromone recognition and supports the development of targeted mating disruption strategies for P. saucia control. Full article

(This article belongs to the Special Issue Insect Sensory Biology—2nd Edition)

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12 pages, 1319 KB

Open AccessArticle

Rainfall Timing as a Key Driver of Cicada Peak Emergence in Urban Habitats

by Jae-Yeon Kang, Yong-Su Kwon, Heejo Lee and Yikweon Jang

Insects 2026, 17(2), 226; https://doi.org/10.3390/insects17020226 - 22 Feb 2026

Abstract

Synchronous emergence is a widespread adaptive strategy in cicadas, yet the proximate cues governing its timing in urban environments remain poorly understood. We examined the emergence phenology of three common urban cicada species (Cryptotympana atrata, Hyalessa maculaticollis, Graptopsaltria nigrofuscata) [...] Read more.

Synchronous emergence is a widespread adaptive strategy in cicadas, yet the proximate cues governing its timing in urban environments remain poorly understood. We examined the emergence phenology of three common urban cicada species (Cryptotympana atrata, Hyalessa maculaticollis, Graptopsaltria nigrofuscata) across two urban parks with contrasting habitat structure (a closed-canopy urban forest park vs. an open urban park) in Seoul, South Korea, over three summers (2015–2017). Despite interannual variation in rainfall amount and timing, peak emergence consistently occurred about two weeks after the monsoon rainfall peak. Poisson generalized estimating equation (GEE) analyses confirmed that antecedent precipitation at a 2–3-week lag significantly increased emergence counts across all three species, while precipitation one week prior had no significant effect. Emergence synchrony varied among species and habitat conditions, but the rainfall–emergence lag relationship was robust across years and sites. These findings demonstrate that precipitation timing is a key driver of peak cicada emergence in urban habitats. As East Asia experiences increasingly variable monsoon rainfall under climate change, understanding precipitation-based phenological cues will be essential for predicting the dynamics of urban insect populations. Full article

(This article belongs to the Section Insect Ecology, Diversity and Conservation)

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17 pages, 4609 KB

Open AccessArticle

Laboratory and Field Soil Tunneling/Tubing by Subterranean Termites in Response to 2-Phenoxyethanol

by Luke Prescott, Roberto Pereira, Rebecca Baldwin, Allen Fugler and Philip Koehler

Insects 2026, 17(2), 227; https://doi.org/10.3390/insects17020227 - 21 Feb 2026

Abstract

The chemical 2-phenoxyethanol (2-PE) has been found to elicit trail following responses in subterranean termites and could have potential use as an enhancement to termite treatments. In this paper, similar glycol ethers to 2-phenoxyethanol were found to elicit significant trail following compared to [...] Read more.

The chemical 2-phenoxyethanol (2-PE) has been found to elicit trail following responses in subterranean termites and could have potential use as an enhancement to termite treatments. In this paper, similar glycol ethers to 2-phenoxyethanol were found to elicit significant trail following compared to the control, but they were not as effective as 2-phenoxyethanol. Significantly more shelter tubes were built over 2-phenoxyethanol treatment lines applied to vinyl tile compared to water controls. Eastern subterranean termites chose a food source with 2-PE applied to the surrounding soil over water controls in a choice test. The termites also tunneled along a soil treatment line significantly further, and with less deviation than the water controls, in sand. During field trials, there was termite activity only at 2-PE-treated detection stations beginning at 4 months after initial installation. 2-phenoxyethanol is relatively inexpensive, considered safe for the environment, and easy to mix in large batches. 2-PE is a simple and efficient way to guide termites to specific locations in the field for collection and other purposes. These factors should facilitate adoption in future pest management practices. Full article

(This article belongs to the Section Insect Behavior and Pathology)

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26 pages, 2673 KB

Open AccessArticle

A Circular Bioeconomy Model for Oaxaca: Integrating Entomophagy and Zootechnical Validation in Small-Scale Tilapia Farming

by Tamara Aquino-Aguilar, Yolanda Donají Ortiz-Hernández, Marco Aurelio Acevedo-Ortiz, Teodulfo Aquino-Bolaños, Gema Lugo-Espinosa, Jesús Andrés Morales-López and Salatiel Velasco-Pérez

Insects 2026, 17(2), 225; https://doi.org/10.3390/insects17020225 - 21 Feb 2026

Abstract

Global population growth necessitates sustainable food systems, positioning Circular Bioeconomy as a key transition framework. In Oaxaca, Mexico, semi-intensive tilapia aquaculture faces economic viability issues due to a critical reliance on expensive external commercial feeds. This study proposes a “Backyard Integrated System” specifically [...] Read more.

Global population growth necessitates sustainable food systems, positioning Circular Bioeconomy as a key transition framework. In Oaxaca, Mexico, semi-intensive tilapia aquaculture faces economic viability issues due to a critical reliance on expensive external commercial feeds. This study proposes a “Backyard Integrated System” specifically designed for rural contexts with limited capitalization, connecting traditional entomophagy with aquaculture to reduce operational costs and close nutrient cycles. Using a mixed-method approach, we first conducted a sociocultural diagnosis (n = 140), revealing a 97.14% acceptance of insect consumption. Subsequently, to validate technical viability, a long-term (280-day) feeding trial was conducted using standardized insect meals (Tenebrio molitor and Acheta domesticus) as total substitutes (100%) for commercial feed in Nile tilapia (Oreochromis niloticus) diets. Results showed a Feed Conversion Ratio (FCR) of 1.61–1.62, comparable to the commercial control (p > 0.05), while significantly enhancing fillet protein content. Crucially, microbiological analysis confirmed the absence of pathogens in the final product, empirically validating the safety of the waste-to-feed cycle. Consequently, this strategy ensures food sovereignty, decouples producers from volatile external markets, and offers a scalable solution for community resilience without compromising food safety. Full article

(This article belongs to the Special Issue Insects: A Unique Bioresource for Agriculture and Humanity)

18 pages, 7414 KB

Open AccessArticle

Deacetylation of BmHSP90 at Lysines 550/567 Stimulates Its Chaperone Function and Actin Polymerization to Drive the Proliferation of Bombyx mori Nucleopolyhedrovirus

by Yang-Jing-Wen Wu, Jia-Qi Li, Si-Yi Yang, Fei Ma, Xiao-Fang Shi and Wei Yu

Insects 2026, 17(2), 224; https://doi.org/10.3390/insects17020224 - 21 Feb 2026

Abstract

The silkworm, Bombyx mori, is a model organism with significant agricultural and economic importance, but it is threatened by Bombyx mori nucleopolyhedrovirus (BmNPV). A crucial chaperone, heat shock protein 90 (HSP90), can also facilitate the proliferation of viruses, and our previous quantitative [...] Read more.

The silkworm, Bombyx mori, is a model organism with significant agricultural and economic importance, but it is threatened by Bombyx mori nucleopolyhedrovirus (BmNPV). A crucial chaperone, heat shock protein 90 (HSP90), can also facilitate the proliferation of viruses, and our previous quantitative acetylome analysis revealed that lysines 550 and 567 in the carboxyl-terminal domain (CTD) of Bombyx mori HSP90 (BmHSP90) were significantly deacetylated following BmNPV infection, but the underlying mechanism remained unknown. In this study, deacetylation-mimetic (K to R) mutants of BmHSP90 exhibited increased dimerization and chaperone activity compared with the wild-type. In addition, the mutants also exhibited higher affinity for actin, promoting F-actin polymerization. Collectively, these changes facilitated BmNPV replication and progeny virion production. This study reveals that the deacetylation of BmHSP90 at K550 and K567 mediates crucial host–virus interactions, providing novel insights into potential antiviral strategies. Full article

(This article belongs to the Section Insect Molecular Biology and Genomics)

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16 pages, 695 KB

Open AccessArticle

Diversity of Phytoplasmas Infecting Plants and Insects in Iran Reveals Two Novel Ribosomal Subgroups

by Valeria Trivellone, Wardah Noor Syeda, Maryam Ghayeb Zamharir and Christopher H. Dietrich

Insects 2026, 17(2), 223; https://doi.org/10.3390/insects17020223 - 21 Feb 2026

Abstract

Phytoplasmas are obligate bacterial pathogens transmitted by phloem-feeding insects and responsible for severe diseases in numerous crops worldwide. In Iran, insect-associated phytoplasma transmission pathways remain poorly resolved, particularly at fine phylogenetic and vector-specific scales. Here, we investigated phytoplasma strains detected in four plant [...] Read more.

Phytoplasmas are obligate bacterial pathogens transmitted by phloem-feeding insects and responsible for severe diseases in numerous crops worldwide. In Iran, insect-associated phytoplasma transmission pathways remain poorly resolved, particularly at fine phylogenetic and vector-specific scales. Here, we investigated phytoplasma strains detected in four plant species, grapevine (Vitis vinifera), soybean (Glycine max), barberry (Berberis vulgaris), and the weed Conyza canadensis, and in three potential insect vectors (Tropidocephala prasina, Eysarcoris ventralis, and Nysius graminicola) collected from distinct agroecosystems across Iran. Phytoplasmas were characterized by using nearly full-length 16S rRNA gene sequences and a multilocus dataset of protein-coding genes obtained through a targeted next-generation sequencing approach. Five phytoplasma strains belonging to ribosomal groups 16SrI, 16SrVI, 16SrIX, and 16SrXII were identified, including two novel ribosomal subgroups, 16SrI-AS and 16SrIX-K. Several previously unreported plant–phytoplasma and insect–phytoplasma associations were documented. Comparative phylogenetic analyses revealed that ribosomal and multilocus markers capture complementary evolutionary signals, with protein-coding genes providing additional resolution beyond 16S-based classification. These findings highlight the potential role of diverse hosts and polyphagous insects, not yet confirmed as vectors, in phytoplasma circulation and underscore how high-throughput next-generation sequencing and multilocus approaches advance our understanding of phytoplasma diversity and evolution. Full article

(This article belongs to the Section Insect Pest and Vector Management)

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21 pages, 4386 KB

Open AccessArticle

Developmental and Reproductive Impacts of Arsenophonus Symbiont on the Population of Nilaparvata lugens

by Qian-Qian Li, Salah M. Mohamed, Yi-Le Hu, Yong-Mao Lian, Adams Ibrahim, Xiang-Zhen Zhu, Feng Chen and Sheng Lin

Insects 2026, 17(2), 222; https://doi.org/10.3390/insects17020222 - 20 Feb 2026

Abstract

The Brown Planthopper, Nilaparvata lugens (Stål.) (Hemiptera: Delphinidae), is one of the most destructive pests of rice. Its reproductive and developmental traits are influenced by various environmental and biological factors including endosymbiotic microorganisms. Arsenophonus, a widespread endosymbiotic bacterium of insects, can affect [...] Read more.

The Brown Planthopper, Nilaparvata lugens (Stål.) (Hemiptera: Delphinidae), is one of the most destructive pests of rice. Its reproductive and developmental traits are influenced by various environmental and biological factors including endosymbiotic microorganisms. Arsenophonus, a widespread endosymbiotic bacterium of insects, can affect host fitness and metabolic processes. This study investigates the role of Arsenophonus in modulating the developmental and reproductive traits of N. lugens fed on transgenic cry30Fa1 rice (KF30-14) and its parent variety Minghui 86 (MH86). Life table analysis revealed that Arsenophonus infection (Ars⁺) increased the development time and reduced the reproductive capacity of N. lugens, especially those feeding on KF30-14. The first-instar nymphs in MH86 Ars⁺ (infected) exhibited slower development compared to MH86 Ars⁻ (uninfected). Similarly, the third and fourth-instar nymphs in KF30-14 Ars⁺ exhibited prolonged development time compared to KF30-14 Ars⁻. In addition, KF30-14 Ars⁺ females had significantly reduced reproductive capacity, smaller ovarian tubules and lower relative expression levels of reproduction-related genes including Trehalose transporter (Tret), Vitellogenin (Vg) and Cytochrome P450 hydroxylase (cyp314a1), while Juvenile hormone acid methyltransferase (JHAMT) expression was upregulated. RNA sequencing and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway analysis revealed significant enrichment of genes involved in lipid, amino acid, and vitamin metabolisms, with Long-chain acyl-CoA synthetase implicated as a key regulator of lipid metabolism and reproductive fitness. These results highlight the complex interactions between endosymbionts, host plants and pest biology, offering a solid foundation for sustainable approaches to control N. lugens in rice production systems. Full article

(This article belongs to the Special Issue Insect Molecular Biology: From Bioinformatics to Pest Management Applications)

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15 pages, 256 KB

Open AccessArticle

The Impact of Energy and Protein Levels on Yellow Mealworm Growth and Chemical Composition

by Marko Vukadinović, Mirko Ivković, Dejan Beuković, Miloš Petrović, Miroslava Polovinski Horvatović, Nikola Laćarac, Saša Krstović and Igor Jajić

Insects 2026, 17(2), 221; https://doi.org/10.3390/insects17020221 - 20 Feb 2026

Abstract

To maximize protein production from insects, it is essential to understand their nutritional requirements, production characteristics, and the chemical properties of the resulting feed, along with how these factors depend on the insects’ diets. This research involved the use of nine different insect [...] Read more.

To maximize protein production from insects, it is essential to understand their nutritional requirements, production characteristics, and the chemical properties of the resulting feed, along with how these factors depend on the insects’ diets. This research involved the use of nine different insect diets, all based on wheat bran. Corn and soybean meal were included to enhance the energy and protein content. The weight gain of larvae was significantly affected by the level of protein in their feed; however, the energy level did not have a significant impact on the weight gain measured in grams per day per tray. This gain ranged from 0.57 g/day per tray for insects fed low-energy, low-protein diets to 0.71 g/day per tray for those fed high-protein, medium-energy diets. Feed conversion ranged from 1.83 to 2.34 and was significantly influenced by energy and protein levels. The chemical composition of reared insects showed significant differences, particularly in fat content. The fat content ranged from 38.5% with a low-protein diet to just 26.9% with a high-protein diet. In contrast to fat content, the variability in protein content was smaller, ranging from 44.8% in a low-protein, high-energy diet to 51.9% in a high-protein, high-energy diet. Full article

(This article belongs to the Section Insect Physiology, Reproduction and Development)

14 pages, 1923 KB

Open AccessArticle

Mitochondrial Gene Expression as a Novel Biomarker for Detecting and Discriminating Neurotoxic Pesticide Exposure in Ramulus phyllodeus (Chen & He, 2008)

by Tong Lin, Fanqi Gan, Yiying Chen, Siqi Meng, Jingyi He, Danna Yu and Jiayong Zhang

Insects 2026, 17(2), 220; https://doi.org/10.3390/insects17020220 - 20 Feb 2026

Abstract

This study investigates the mitochondrial transcriptomic responses of Ramulus phyllodeus (Chen & He, 2008); Phasmatodea: Phasmatidae) to acute exposure to four widely used neurotoxic insecticides: chlorpyrifos, cyfluthrin, emamectin benzoate, and acetamiprid. Using quantitative real-time PCR (qRT-PCR), we quantified transcriptional changes in 10 mitochondrial [...] Read more.

This study investigates the mitochondrial transcriptomic responses of Ramulus phyllodeus (Chen & He, 2008); Phasmatodea: Phasmatidae) to acute exposure to four widely used neurotoxic insecticides: chlorpyrifos, cyfluthrin, emamectin benzoate, and acetamiprid. Using quantitative real-time PCR (qRT-PCR), we quantified transcriptional changes in 10 mitochondrial protein-coding genes, which showed significant transcriptional changes (p < 0.05) when the insect was exposed to four commonly used pesticides (each at a concentration of 5 μg/L) for 24 h. Exposure to chlorpyrifos induced significant upregulation of ND2 (2.08 ± 0.048) and ND5 (1.38 ± 0.15). Cyfluthrin triggered coordinated upregulation across seven genes: ND1 (1.71 ± 0.07), ND2 (2.33 ± 0.38), ND3 (1.74 ± 0.25), ND5 (1.65 ± 0.38), COX1 (2.91 ± 0.40), COX3 (1.69 ± 0.18), and Cytb (2.81 ± 0.53). Emamectin benzoate induced the upregulation of ND1 (1.98 ± 0.21), ND2 (3.04 ± 0.41), ND3 (1.82 ± 0.26), ND4 (2.79 ± 0.64), COX1 (2.36 ± 0.34), ATP6 (3.26 ± 0.61), and Cytb (2.39 ± 0.81). Acetamiprid induced more selective upregulation, affecting only ND1 (1.67 ± 0.18), ND4 (1.43 ± 0.16), and ND5 (1.66 ± 0.10). Critically, each insecticide elicited a distinct, non-overlapping transcriptional signature, defined by both the identity and magnitude of responsive genes, indicating compound-specific modulation of mitochondrial gene expression. Notably, no gene exhibited significant downregulation under any single-compound treatment, and all differentially expressed genes were upregulated exclusively in response to individual pesticides. This absence of transcriptional suppression suggests that these neurotoxicants converge on shared upstream stress-response pathways that preferentially activate mitochondrial biogenesis or compensatory transcription, rather than inducing global transcriptional repression. Collectively, these findings establish mitochondrial protein-coding genes in R. phyllodeus as sensitive, mechanistically grounded molecular sentinels for neurotoxic pesticide exposure. The compound-specific transcriptional profiles further suggest potential utility in multiplex detection strategies for environmental monitoring, enabling discrimination among individual residues. Full article

(This article belongs to the Section Insect Physiology, Reproduction and Development)

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21 pages, 28780 KB

Open AccessArticle

DNA Barcodes and Morphology Reveal Five New Species of Phanerotoma (Hymenoptera, Braconidae, Cheloninae) from China

by Yu Fang, Wenjuan Luo, Cornelis van Achterberg, Xuexin Chen and Pu Tang

Insects 2026, 17(2), 219; https://doi.org/10.3390/insects17020219 - 20 Feb 2026

Abstract

The genus Phanerotoma Wesmael, 1838 (Hymenoptera, Braconidae, Cheloninae, Phane- rotomini) is distributed across all six major zoogeographical regions, with the highest species diversity recorded in the Palaearctic Region. DNA barcoding provides a robust method for species identification, yet its effectiveness for the genus [...] Read more.

The genus Phanerotoma Wesmael, 1838 (Hymenoptera, Braconidae, Cheloninae, Phane- rotomini) is distributed across all six major zoogeographical regions, with the highest species diversity recorded in the Palaearctic Region. DNA barcoding provides a robust method for species identification, yet its effectiveness for the genus Phanerotoma is limited by the scarcity of reliable, species-level data from specific regions in public databases. This gap makes it essential to contribute comprehensive genetic resources to advance taxonomic research. This study presents a comprehensive COI dataset of 92 sequences for the genus Phanerotoma, employing both the Automatic Barcode Gap Discovery (ABGD) method for species delimitation and the bPTP model for phylogenetic inference. The integrated analytical approach revealed 18 distinct species, including five new species; all species new to science are described and illustrated, and updates of the most recent key to the Chinese species are included. Full article

(This article belongs to the Special Issue Taxonomy and Phylogeny and Evolution of Parasitic Hymenoptera and Biological Control)

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24 pages, 6756 KB

Open AccessArticle

Aerial Trajectories and Meteorological Drivers of Transboundary Loxostege sticticalis Migration Across Northern China and Mongolia, 2022

by Xing-Yue Pu, Yi-Yang Zhang, Hai-Bin Gu, Rui Zhong, Gui-Jun Wan, Fa-Jun Chen and Qiu-Lin Wu

Insects 2026, 17(2), 218; https://doi.org/10.3390/insects17020218 - 19 Feb 2026

Abstract

Clarifying migration pathways and the source area–destination relationships of the domestic and foreign beet webworm Loxostege sticticalis (Linnaeus) populations, as well as understanding the meteorological mechanisms shaping these processes, is pivotal for remote, accurate, and location-specific pest early warning and forecasting. Based on [...] Read more.

Clarifying migration pathways and the source area–destination relationships of the domestic and foreign beet webworm Loxostege sticticalis (Linnaeus) populations, as well as understanding the meteorological mechanisms shaping these processes, is pivotal for remote, accurate, and location-specific pest early warning and forecasting. Based on light trap data from northern China and field survey data from Mongolia in 2022, we simulated the migration trajectories, source regions, and primary landing areas of L. sticticalis by using the HYSPLIT model and analyzed the synoptic systems, processes and conditions during its migration. The results indicate the frequent exchange of L. sticticalis populations between China and Mongolia in 2022. The L. sticticalis migrants initiating their flights from Mongolia primarily undertook a southeastward migration pathway, supplemented by eastward ‘cyclonic’ and southwestward paths. The main landing areas were located in North China and Northeast China, with migration events potentially extending to the Shandong, Heilongjiang, and Xinjiang provinces. Populations originating from North China exhibited a capacity for migrating into Northeast China and Mongolia through 1–5 consecutive nights of flight. During this period, the Northeast China Cold Vortex (NCCV) and the Mongolian Cyclone alternately regulated the synoptic circulation pattern governing the migration of L. sticticalis. The spatiotemporal distributions and intensities of these systems were key determinants of the transboundary migration routes and distances of L. sticticalis. The NCCV dominated, and the precipitation and downdrafts it induced were crucial for the massive landing of L. sticticalis in northern China. Full article

(This article belongs to the Special Issue Global and Regional Patterns of Insect Biodiversity)

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23 pages, 6763 KB

Open AccessArticle

First Insights into the Comparative Transcriptomic Response of Field and Laboratory Aedes aegypti Strains to Partial-Mortality Concentration (<50%) Imidacloprid and Broflanilide Exposure

by Gerardo Trujillo-Rodríguez, Mariana Lizbeth Jiménez-Martínez, José Alfonso Flores Leal, Roberto Emmanuel Huerta García, María de Lourdes Ramírez Ahuja, Iram P. Rodríguez Sanchez and Margarita L. Martínez Fierro

Insects 2026, 17(2), 217; https://doi.org/10.3390/insects17020217 - 19 Feb 2026

Abstract

Insecticide resistance in Aedes aegypti (Linnaeus, 1762), the primary vector of several arboviruses, threatens vector control efficacy and motivates evaluation of current and candidate public health insecticides, such as imidacloprid and broflanilide, and their molecular impacts. Here, we used RNA sequencing (RNA-seq) to [...] Read more.

Insecticide resistance in Aedes aegypti (Linnaeus, 1762), the primary vector of several arboviruses, threatens vector control efficacy and motivates evaluation of current and candidate public health insecticides, such as imidacloprid and broflanilide, and their molecular impacts. Here, we used RNA sequencing (RNA-seq) to characterize the transcriptomic response to one-hour acute exposure to an operational partial-mortality concentration (<50%) of imidacloprid and broflanilide in two Ae. aegypti strains: a field-derived, pyrethroid-resistant population from San Nicolás and a susceptible laboratory strain (New Orleans). Adults were exposed for 1 h to partial-mortality concentration (<50%) doses of each insecticide or acetone control, and differential gene expression and Gene Ontology (GO) enrichment were assessed with DESeq2-based workflows. We detected pronounced baseline transcriptomic differences between strains and extensive activation of gene expression after insecticide exposure, with a strong bias toward up-regulation. A shared transcriptional core involving proteolysis, transmembrane transport, detoxification pathways, and structural remodeling of the cuticle and cytoskeleton was identified across contrasts. Despite these common elements, broflanilide elicited largely conserved early responses between strains, whereas imidacloprid amplified pre-existing divergence and produced marked population-specific transcriptional signatures. These findings suggest greater transcriptional changes in the field-derived strain, particularly in response to imidacloprid, and highlight the importance of integrating population-specific molecular information when designing insecticide rotation schemes and resistance management strategies targeting Ae. aegypti. Full article

(This article belongs to the Special Issue Insecticide Resistance in Disease Vectors: Mechanisms, Surveillance, and Control Perspectives)

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