Miridae Research Articles

Antioxidant cysteine and methionine derivatives show trachea disruption in insects.

To prevent the deterioration of the global environment, the reduction of chemical pesticide use and the development of eco-friendly pest control technologies are urgent issues. Our recent study revealed that the production of reactive oxygen species (ROS) by dual oxidase (Duox) plays a pivotal role in stabilizing the tracheal network by intermediating the tyrosine cross-linking of proteins that constitute trachea. Notably, the formation of dityrosine bonds by ROS can be inhibited by the intake of an antioxidant cysteine derivative N-acetyl-L-cysteine (NAC), which can suppress insect respiration. In this study, we screened for the derivatives showing insecticidal activity and tracheal formation inhibition. As a result of investigating the soybean pest bug Riptortus pedestris, cysteine and methionine derivatives showed respiratory formation inhibition and high insecticidal activity. In particular, NAC had a slow-acting insecticidal effect, while L-cysteine methyl ester (L-CME) showed relatively fast-acting insecticidal activity. Furthermore, the insecticidal activity of these derivatives was also detected in Drosophila, mealworms, cockroaches, termites, and plant bugs. Our results suggest that some antioxidant compounds have specific tracheal inhibitory activity in different insect species and they may be used as novel pest control agents upon further characterization.

Reconstructing host plant repertoire and timing of evolution of phyline plant bugs (Hemiptera, Miridae)

AbstractThe diversity of phytophagous insects is often attributed to the success of land plants in the framework of ecological speciation. Several hypotheses have been proposed to explain host plant driven insect diversification in a phylogenetic context and have mostly been explored using Lepidoptera. We posit that Miridae are a great system to examine these hypotheses because they are one of the largest primarily phytophagous insect families and include many species with narrow host repertoire. Focusing on the species‐rich Phylinae (>2700 spp.), we generate the most taxon‐rich phylogeny published to date and for the first time estimate divergence times and trace the evolution of host plant associations across the group. Focusing on two clades of oak‐associated phylines, we further examine if diversification in these insects and their hosts coincided or if the insects tracked their hosts. We find that Phylinae diverged from their orthotyline sister group before the end of the Cretaceous, tribal‐level taxa diversified throughout the Paleogene, and diversification within genera mostly occurred in the Neogene. Host plant repertoire reconstructions at the family level show transitions from stenophagy to polyphagy are more common than the reverse. We reconstructed the ancestral phyline host as ambiguous, followed by Asterales throughout most of the deep splits. Species‐level divergences in the two oak‐associated clades coincide with those in oaks, a pattern is that is consistent with the hypothesis that these plant bugs may have cospeciated with their hosts. Our study shows that Phylinae are a suitable system to further test hypotheses on ecological speciation of plants and insects but will require more robust phylogenetic hypotheses of the group.

Review of the Plant Bug Genus Larinocerus Froeschner (Heteroptera: Miridae: Phylinae), with the Description of a New Species from Mexico and a Revised Key

Review of the Plant Bug Genus Larinocerus Froeschner (Heteroptera: Miridae: Phylinae), with the Description of a New Species from Mexico and a Revised Key

What do Lygus like? Looking for potential trap crops to reduce faba bean damage

Grain legumes, such as faba bean (Vicia faba L.), are crucial for protein supply and soil fertility enhancement through nitrogen fixation. However, faba bean cultivation is challenged by Lygus plant bugs (Hemiptera: Miridae), which cause significant crop damage and seed quality loss. This study aimed to evaluate Lygus preferences between faba bean and alternative crops to develop effective management strategies. We conducted choice bioassay experiments under laboratory conditions and field plot experiments. Laboratory results indicated sex-based host preferences, with males favoring faba beans and females preferring canola. Field studies showed that faba beans adjacent to canola had higher Lygus abundance and damage compared to those next to peas, flax, and safflower. Safflower and sunflower demonstrated potential as trap crops to reduce Lygus damage to faba beans. Our findings provide insights into Lygus behavior and suggest that a combination of trap cropping, and targeted insecticide use could mitigate the impact of Lygus infestations on faba bean cultivation.

Using integrative taxonomy to delimit species in the plant bug genus Pseudoloxops (Hemiptera: Miridae) in French Polynesia

Abstract We use integrative taxonomy to elucidate species boundaries of the plant bug genus Pseudoloxops (Kirkaldy 1905) in the Austral and Society archipelagos of French Polynesia. We operationalize the unified species concept by treating each individual as a potential species and then establish initial groupings (putative species) following statistically highly-supported reciprocal monophyly of individuals in a phylogenetic analysis of CO1, 16S, and 28S gene fragments. We then test our species hypotheses against additional lines of evidence from geometric morphometrics, genetic distance, discrete genitalic morphology, plant association, and geographic distribution partitions. Twenty species endemic to French Polynesia are recognized as follows: Pseudoloxops aama Balukjian & Van Dam, sp. nov., Pseudoloxops anaana Balukjian & Van Dam, sp. nov., Pseudoloxops baileyi Balukjian & Van Dam, sp. nov., Pseudoloxops chastaoliancai Balukjian & Van Dam, sp. nov., Pseudoloxops harrisonfordi Balukjian & Van Dam, sp. nov., Pseudoloxops kamalaharrisae Balukjian & Van Dam, sp. nov., Pseudoloxops oboyskii Balukjian & Van Dam, sp. nov., Pseudoloxops papepihaa Balukjian & Van Dam, sp. nov., Pseudoloxops puarata Balukjian & Van Dam, sp. nov., Pseudoloxops raimana Balukjian & Van Dam, sp. nov., Pseudoloxops ravataputuarai Balukjian & Van Dam, sp. nov., Pseudoloxops simberloffi Balukjian & Van Dam, sp. nov., Pseudoloxops tairoto Balukjian & Van Dam, sp. nov., Pseudoloxops temehanirahi Balukjian & Van Dam, sp. nov., Pseudoloxops tiapai Balukjian & Van Dam, sp. nov., Pseudoloxops toparaamahana Balukjian & Van Dam, sp. nov., Pseudoloxops tupapaau Balukjian & Van Dam, sp. nov. New synonyms are proposed for Pseudoloxops flavus (Knight, 1937) [=Pseudoloxops rubrocuneatus (Knight, 1937)] and Pseudoloxops adamsoni (Knight, 1937) [= Pseudoloxops nigribasicornis (Knight, 1937) and = Pseudoloxops tahiticus (Knight, 1937)]. Pseudoloxops rubroclavus (Knight, 1937) is redescribed.

Effect of biotic and abiotic factors on the population dynamics of Nilaparvata lugens in the middle Gangetic Plains of India

Aim: To investigate the effect of biotic and abiotic factors on the population dynamics of brown planthopper Nilaparvata lugens (Stal) (Hemiptera: Delphacidae) in the middle Gangetic plains of India. Methodology: Field trials were conducted in the middle Gangetic plains of India at Agricultural Research Farm, B.H.U., Varanasi, Uttar Pradesh, India during Kharif season of 2018 and 2019 on the variety Swarna sub-1 to study the population dynamics and certain biotic and abiotic interaction with brown planthopper. Results: During Kharif 2018 and 2019, the highest mean number of brown planthopper population (45.00 ± 2.31 and 39.33 ±1.82 nos., respectively) were recorded during September in both seasons. Abiotic factors such as rainfall (r = - 0.556), relative humidity in the morning (r = 0.476), maximum temperature (r = 0.511), and sunshine hour (r = - 0.546) influenced planthopper population dynamics, and predictions were made with reasonable accuracy (R2 = 0.89) using the principal component regression analysis technique. Crop phenology was the most influential biotic factor on pest population density. The crop's booting stage had the highest incidence of planthoppers. Three different predatory populations (wolf spider, damselfly and ladybird beetle) were observed to feed on planthoppers in Kharif 2018 and four different predatory populations (wolf spider, damselfly, ladybird beetle and green mirid bug) were observed to feed on planthoppers in Kharif 2019, resulting in a reduction in crop pest density. Interpretation: These findings can be used to develop the precise management strategies for brown planthopper in the rice ecosystem. Key words: Abiotic, Biotic factors, Brown planthopper, Crop phenology, Middle Gangetic Plains, Natural enemies, Rice

Geographical, Seasonal, and Growth-Related Dynamics of Gut Microbiota in a Grapevine Pest, Apolygus spinolae (Heteroptera: Miridae)

A number of insects are associated with gut symbiotic microorganisms, wherein symbiotic partners play pivotal metabolic roles for each other such as nutrient supplementation, diet degradation, and pesticide detoxification. Despite the ecological and evolutionary importance of gut microbial communities in insects, their diversity and dynamics remain unclear in many species. The green plant bug Apolygus spinolae, a notorious grapevine pest in Japan, damages grape shoots and severely reduces grape berry yield and quality. The plant bug possesses a simple tubular gut housing ~ 104 bacteria. Here, we investigated geographic, seasonal, and growth-related dynamics of gut microbiota by high-throughput sequencing in 82 individuals (11 nymphs and 71 adults) from five locations in Hokkaido, Japan. In plant bugs, gut microbiota changed dynamically depending on region, season, and developmental stage. Among the gut bacteria, Serratia was consistently and abundantly detected and was significantly affected by seasonal changes. In addition, Caballeronia, known as a specific symbiont in some stinkbug species, was abundantly detected, especially in insects collected in late summer despite A. spinolae complete lack of midgut crypts known as symbiotic organ harboring Caballeronia in other stinkbug species. Considering their prevalence among host bug populations, it is possible these gut microorganisms play a pivotal role in the adaptation of the green plant bug to grapevine fields, although further confirmation through rearing experiments is needed.

A conserved protein family in mirid bug Riptortus pedestris plays dual roles in regulating plant immunity.

The mirid bug (Riptortus pedestris), a major soybean pest, migrates into soybean fields during the pod filling stage and causes staygreen syndrome, which leads to substantial yield losses. The mechanism by which R. pedestris elicits soybean (Glycine max) defenses and counter-defenses remains largely unexplored. In this study, we characterized a protein family from R. pedestris, designated Riptortus pedestris HAMP 1 (RPH1) and its putative paralogs (RPH1L1, 2, 3, 4, and 5), whose members exhibit dual roles in triggering and inhibiting plant immunity. RPH1 and RPH1L1 function as herbivore-associated molecular patterns (HAMPs), activating pattern-triggered immunity (PTI) in tobacco (Nicotiana benthamiana) and G. max. Furthermore, RPH1 stimulates jasmonic acid and ethylene biosynthesis in G. max, thereby enhancing its resistance to R. pedestris feeding. Additionally, RPH1 homologs are universally conserved across various herbivorous species, with many homologs also acting as HAMPs that trigger plant immunity. Interestingly, the remaining RPH1 putative paralogs (RPH1L2-5) serve as effectors that counteract RPH1-induced PTI, likely by disrupting the extracellular perception of RPH1. This research uncovers a HAMP whose homologs are conserved in both chewing and piercing-sucking insects. Moreover, it unveils an extracellular evasion mechanism utilized by herbivores to circumvent plant immunity using functionally differentiated paralogs.

Molecular Detection of kdr and superkdr Mutation Sites and Analysis of the Binding Modes of Pyrethroid Insecticides with Voltage-Gated Sodium Channels in the Plant Bug Lygus pratensis (Hemiptera: Miridae).

This study identified genetic mutations linked to resistance to pyrethroid insecticides in the plant pest Lygus pratensis. The voltage-gated sodium channel (VGSC) gene was cloned, revealing two mutations (Met918Thr and Leu1014Phe) in laboratory strains and field populations from Inner Mongolia, resulting in variable pyrethroid resistance. A 3D model of LpVGSC was created using homology modeling, and pyrethroid binding patterns were analyzed via molecular docking. Molecular dynamics simulations confirmed structural stability changes and binding stability of pyrethroids to VGSC sites. Mutation frequencies of homozygous and heterozygous genotypes did not exceed 40 and 20%, respectively. Toxicity tests showed high resistance to λ-cyhalothrin (LC50:401.31 ng/cm2). The kdr (L1014F) and superkdr (M918T) mutations weakened interaction forces, reducing pyrethroid binding. M918T and L1014F mutations are predicted to reduce Type I pyrethroid affinity, suggesting Type II pyrethroids may be more effective against resistant strains. These findings aid in resistance management and insecticide design.

Seasonal variations of insect abundance: Correlating growth stage-specific metrics with weather patterns in Rangpur Region, Bangladesh

The disclosure of insect occurrences correlating with meteorological data is pivotal in devising effective management strategies for rice fields. The study collected data on harmful and beneficial insects, along with meteorological variables, for three consecutive rice-growing seasons in 2021 and 2022. Month-wise insect distribution were delineated, with prominent species such as green leafhopper, brown planthopper, white-backed planthopper, rice whorl maggot, damselfly, parasitic wasps and green mirid bug observed consistently. Notably, most of the harmful insects were predominantly present during March–July and September–October. The spatial distribution, further segmented based on the rice-growing seasons, revealing the Aus season's preeminence in hosting harmful insects followed by Aman and Boro. The prevalence of most of the harmful insects were in tillering stage. Beneficial insects, displayed their dominance during specific months, growth stage, emphasizing their potential role in controlling harmful species and their prevalence were increased by increased of harmful insects. Furthermore, the study elucidated the correlation between climatic factors and insect abundance, emphasizing the role of temperature, rainfall and relative humidity. Temperature metrics and relative humidity manifested significant associations with several insects both harmful and beneficial species differently. While rainfall notably correlated with rice bug, short-horned grasshoppers, yellow stem borer, and non-significant association with other insects. The study underscored mutual dependencies between predator and prey species, emphasizing the ecological balance within the agricultural ecosystem. This comprehensive analysis indicated the need for integrated pest management strategies, considering both harmful and beneficial insect dynamics, to promote sustainable practices for optimizing rice production in changing climatic scenarios.

Seasonal occurrence of zoo-phytophagous mirid bug, Nesidiocoris tenuis (Reuter) on sesame in relation to weather parameters

Seasonal occurrence of zoo-phytophagous mirid bug, Nesidiocoris tenuis (Reuter) on sesame in relation to weather parameters

Morphological Parameters of Sesame in Relation to Susceptibility to Major Sucking Insect Pests

Based on previous field screening data 15 genotypes were selected (based on the number of insect pests population/ plant) to study the role of morphological parameters of sesame. Trichome density, length and width were estimated under microscope with the help of software. The 15 selected genotypes of sesame were studied for finding trichome’s role in host plant resistance against major sucking pests; whitefly Bemisia tabaci), leafhopper (Orocius albicinctus) and mirid bug (Nesidiocoris tenuis) of sesame and the correlation studies revealed that the density of non-glandular trichome showed significant positive correlation with the population of Orocius albicinctus (r= 0.868), Nesidiocoris tenuis (r=0.549) and Bemisia tabaci (r= 0.824) while length and width of non-glandular trichomes and density of glandular trichomes showed non-significant (±) impact on the incidence of tested sucking insect pests.

Ant mimicry in Australian plant bugs: a new genus (Heteroptera: Miridae: Austromirini: Carenotus gen. nov.), eight new species, myrmecomorphic traits, host plants and distribution.

The Australian plant bug tribe Austromirini consists of ant-mimetic taxa which are poorly known, with no information of their phylogenetic relationships and ant-mimetic traits. In this study, we examined nearly 1000 ingroup specimens and developed a comprehensive morphological dataset comprising 37 characters, which was analysed both weighted and unweighted, using 'Tree analysis using New Technology' (TNT ) software. A single minimal length phylogenetic tree was found, comprising a monophyletic group of ant-mimetic taxa, that included Myrmecoroides rufescens , Myrmecoridea sp., Kirkaldyella spp. and eight species of a new genus, Carenotus gen. nov. The myrmecomorphic traits of Carenotus and allied ant-mimetic taxa are documented and analysed phylogenetically, in conjunction with genitalic characters. Carenotus is defined by the myrmecomorphic colour patterning of the abdominal venter, whereas the ingroup species relationships are supported by genitalic characters alone. Carenotus is described as new with eight included species as follows: C. arltunga sp. nov., C. louthensis sp. nov., C. luritja sp. nov., C. pullabooka sp. nov., C. scaevolaphilus sp. nov., C. schwartzi sp. nov., C. tanami sp. nov. and C. yuendumu sp. nov. Host plant associations are also documented, ranging from host plant specificity and genus-group preferences to host plant generalism. The distribution of Carenotus species is documented with reference to phytogeographic subregions, with all species being semi-arid and arid dwelling. The male and female genitalia of Kirkaldyella pilosa and K. rugosa are described and illustrated, for comparative and phylogenetic purposes. This research expands our knowledge on the plant bug tribe Austromirini and has broader implications for myrmecomorphic research in the suborder Heteroptera. ZooBank: urn:lsid:zoobank.org:pub:2FF9BE23-38A6-42B4-8488-74F216D8237F.

Pyroligneous Acid Obtained From Guadua Bamboo (Angustifolia Kunth) in the Management of Stink Bug and Borer of CCN-51 Cocoa (Theobroma Cacao) at The Latitud Cero Research Center

Objective: The research aimed to establish the effect of pyroligneous acid extracted from guadua bamboo (Angustifolia kunth) for controlling the cacao mirid bug (Monalonion dissimulatum Dist.) and the cacao borer "mazorquero del cacao" Carmenta foraseminis (Lepidoptera: Sesiidae) in CCN-51 cacao cultivation. Theoretical Framework: This section presents the main concepts and theories supporting the research. Pyroligneous acid or "wood vinegar" is prominently highlighted, providing a solid foundation for understanding the context of the research. Method: The research was conducted at the Latitud 0 Experimental Station of Universidad Laica Eloy Alfaro de Manabí, located in Parroquia Cojimíes, Cantón Pedernales, Manabí province, geographically situated between the coordinates Latitude, South 0°04’12” and Longitude West 80°03’0” at an altitude of 6 meters above sea level. A Randomized Complete Block Design in a Factorial Arrangement A x B (3x2+1) was used with the factors: 30%, 40%, and 50% doses of pyroligneous acid and times 0 and 30 days, plus a control without applications. Results and Discussion: The results showed that the best dose was 50% PA with 21.33 dead mirid bugs affecting the pods. For borers, the 0-day period produced the highest control with 10.75 borers after the first application with a 50% PA dose. For the times, the 30-day period resulted in 5.94 mortality in the first application. The 40% PA dose and the 30-day period produced 9.50 dead larvae. Borer mortality after the second application achieved the highest efficacy with the 40% PA dose, recording a mortality of 2.62 larvae compared to 1.11 live ones. When these factors interacted, the 50% PA dose with the 30-day period responded favorably with 4.25 dead borers compared to 1.01 dead ones. Implications of the Research: The practical and theoretical implications of this research are discussed, providing information on how the results can be applied or influence practices in the field of various agricultural crops. These implications could encompass not only cacao crops but related crops as well. Originality/Value: This study contributes to the literature by establishing a management strategy for the cacao mirid bug and borer. The relevance and value of this research are evidenced by the effect of pyroligneous acid on the cacao mirid bug and borer.

Role of Endophytic Entomopathogenic Fungi in Mediating Host Selection, Biology, Behavior, and Management of Tarnished Plant Bug, Lygus lineolaris (Hemiptera: Miridae).

Non-insecticidal control strategies using entomopathogens, nematodes, and endophytes provide sustainable and safer alternatives for managing crop pests. This study investigated the potential of different fungal endophytes, specifically Beauveria bassiana strains, in colonizing cotton plants and their efficacy against tarnished plant bug, Lygus lineolaris. The effect of endophytes on plant growth parameters and cotton yield were measured during different plant growth stages. The entomopathogenicity of these fungi was studied in diet cup bioassays using L. lineolaris adults. The behavior of adult males and females toward endophytic cotton squares was analyzed using olfactometer assays. The experiments showed that the fungal endophytes colonized the plant structures of cotton plants, which resulted in an increase in the number of cotton squares, plant height, and weight compared to control plants. B. bassiana strains/isolates such as GHA, NI-8, and JG-1 caused significant mortality in Lygus adults compared to controls. Also, male and female Lygus adults exhibited repellence behavior towards endophytic cotton squares containing JG-1 isolate of B. bassiana and to other B. bassiana strains such as NI-8, GHA, and SPE-120. No differences were observed in the survival and development of L. lineolaris second-instar nymphs on endophytic cotton, and no yield differences were observed in the field experiments.

Two plant bug genera Euryopicoris Reuter, 1875 and Solenoxyphus Reuter, 1875 (Hemiptera: Heteroptera: Miridae) new for the Bulgarian fauna

Two plant bug species, Euryopicoris nitidus (Meyer-Dür, 1843) and Solenoxyphus lepidus (Puton, 1874), are reported for the first time for Bulgaria. Their habitats, host plants, and reasons for the late discovery in the country are briefly discussed. The genera Euryopicoris Reuter, 1875 and Solenoxyphus Reuter, 1875 have not been previously reported in Bulgaria as well.

Human Biting Plant Bug Campyloneura virgula (Hemiptera: Miridae): First Case Report in Türkiye

Campyloneura virgula is a plant bug found in many parts of the world. While information about the human biting of this insect is available in the literature, this is the first case report of such an incident in Türkiye. The patient was a 44-year-old man who was bitten by Campyloneura virgula in June of 2021. Clinical signs were recorded, and the bite's effects were reduced within a few days. Possible reasons and outcomes of the incident were discussed.

Volatiles of different resistant cotton varieties mediate the host preference of Mirid bug Apolygus lucorum.

Cotton, a crucial economic crop, is also the preferred host plant of the mirid bug Apolygus lucorum. In our previous field experiments, we found that cotton cultivars Kelin 08-15 and BR-S-10 (healthy and herbivore-damaged plants) exhibit distinct attraction and repellence to A. lucorum, respectively. However, the key plant volatiles determining attraction or repulsion effects remain unknown. Here, we investigated the volatiles emitted by these two cotton cultivars before and after herbivore infestation. We found that susceptible Kelin 08-15 emitted a greater diversity and quantity of volatiles than those of BR-S-10, with herbivore-damaged cottons releasing more volatile substances. Electroantennogram (EAG) recordings further revealed that 15 representative volatiles identified above could elicited electrophysiological responses in female and male A. lucorum antennae. Among them, behavioral assays showed that two compounds, 1,3-Diethylbenzene and 4-Ethylbenzaldehyde, exhibited attractive properties, whereas six volatiles including Hexyl Acrylate, Cumene, 2,4-Dimethylstyrene, Eucalyptol, Linalool and Butyl Acrylate demonstrated repellent effects on A. lucorum. Taken together, our findings suggest the critical role of volatile compounds in mediating bug-plant interactions and provide a foundation for the development of strategies to prevent and control of A. lucorum in cotton fields.

Paraburkholderia largidicola sp. nov., a gut symbiont of the bordered plant bug Physopelta gutta.

Gram-negative, aerobic, rod-shaped, non-spore-forming, motile bacteria, designated strains F2T and PGU16, were isolated from the midgut crypts of the bordered plant bug Physopelta gutta, collected in Okinawa prefecture, Japan. Although these strains were derived from different host individuals collected at different times, their 16S rRNA gene sequences were identical and showed the highest similarity to Paraburkholderia caribensis MWAP64T (99.3 %). The genome of strain F2T consisted of two chromosomes and two plasmids, and its size and G+C content were 9.28 Mb and 62.4 mol% respectively; on the other hand, that of strain PGU16 consisted of two chromosomes and three plasmids, and its size and G+C content were 9.47 Mb and 62.4 mol%, respectively. Phylogenetic analyses revealed that these two strains are members of the genus Paraburkholderia. The digital DNA-DNA hybridization value between these two strains was 92.4 %; on the other hand, the values between strain F2T and P. caribensis MWAP64T or phylogenetically closely related Paraburkholderia species were 44.3 % or below 49.1 %. The predominant fatty acids of both strains were C16 : 0, C17 : 0 cyclo, summed feature 8 (C18 : 1 ω7c/C18 : 1 ω6c), and C19 : 0 cyclo ω8c, and their respiratory quinone was ubiquinone 8. Based on the above genotypic and phenotypic characteristics, strains F2T and PGU16 represent a novel species of the genus Paraburkholderia for which the name Paraburkholderia largidicola sp. nov. is proposed. The type strain is F2T (=NBRC 115765T=LMG 32765T).

Effectiveness and residual activity of four common insecticides used in the Mississippi Delta to control tarnished plant bugs in cotton.

The tarnished plant bug, (TPB) Lygus lineolaris Palisot de Beauvois (Hemiptera: Miridae) is a key pest of cotton in the midsouth region and some areas of the eastern United States. Its control methods have been solely based on chemical insecticides which has contributed to insecticidal resistance and shortened residual periods for control of this insect pest. This study was conducted over a two-year period and examined the efficacy and residual effect of four commercial insecticides including lambda-cyhalothrin (pyrethroid), acephate (organophosphate), imidacloprid (neonicotinoid), and sulfoxaflor (sulfoxamine). The effectiveness and residual effects of these insecticides were determined by application on cotton field plots on four different dates during each season using three different concentrations (high: highest labeled commercial dose (CD), medium: 1/10 of the CD, low: 1/100 of the CD) on field cotton plots. Four groups of cotton leaves were randomly pulled from each treated plot and control 0-, 2-, 4-, 7-, and 9-days post treatment (DPT) and exposed to a lab colony of TPB adults. One extra leaf sample/ plot/ spray /DPT interval (0-2-4-7-9-11) during 2016 was randomly collected from the high concentration plots and sent to Mississippi State Chemical Laboratory for residual analysis. Mortality of TPB adults was greatest for those placed on leaves sprayed with the organophosphate insecticide with mortalities (%) of 81.7±23.4 and 63.3±28.8 (SE) 1-day after exposure (DAE) on leaves 0-DPT with the high concentration for 2016 and 2017, respectively, reaching 94.5±9.5 and 95.4±7.6 6-DAE each year. Mortality to all insecticides continued until 9 and 4-DPT for high and medium concentrations, respectively. However, organophosphate (39.4±28.6) and pyrethroid (24.4±9.9) exhibited higher mortality than sulfoxamine (10.6±6.6) and the neonicotinoid (4.0±1.5) 7-DAE on 9-DPT leaves with the high concentration. Based on our results using the current assay procedure, TPB adults were significantly more susceptible to contact than systemic insecticides and due to its residual effect, organophosphate could kill over 80% of the TPB population 7-DPT.