Bemisia Tabaci Research Articles

Population Dynamics of Major Insect Pests and Natural Enemies in Tomato

An experiment on major insect pests and natural enemies of tomato was conducted during rabi, 2022-23 at the experimental farm for PG research, Biswanath College of Agriculture, Sonitpur. Results revealed eleven insect pests; whitefly, Bemisia tabaci (Gennadius); aphid, Aphis craccivora Koch; leafminer, Lyriomyza trifolii (Burgess); fruitborer, Helicoverpa armigera (Hubner); jassid, Amrasca biguttula biguttula (Ishida); semilooper, Trichoplusia ni (Hubner) were found to be the most dominant species. Two coccinellid predators viz., Micraspis discolor(F) and Cheilomenes sexmaculata (F) and two spiders Lycosa tista Tikader, Anyphaena accentuata (Walckenaer) were recorded as natural enemies. It was observed that the incidence of B. tabaci, A. craccivora and A. biguttula biguttula showed significant negative correlation with both maximum and minimum temperature. B. tabaci population registered a positive significant correlation with morning relative humidity. Both L. trifolii and H. armigera exhibited significant negative correlation with bright sunshine hour. Furthermore, T. ni showed significant negative correlation with maximum temperature and bright sunshine hour. As regards coccinellids, a significant negative correlation existed with maximum and minimum temperature, and rainfall and significant positive correlation with morning relative humidity. A significant positive correlation of aphids was also observed with coccinellids.

Unravelling the genomic landscape reveals the presence of six novel odorant-binding proteins in whitefly Bemisia tabaci Asia II-1

Genome wide analysis identified 14 OBPs in B. tabaci Asia II-1, of which six are new to science. Phylogenetic analysis traced their diversity and evolutionary lineage among Hemipteran insects. Comparative analysis reclassified the OBP gene families among B. tabaci cryptic species: Asia I, II-1, MEAM1, and MED. The 14 OBPs were clustered on four chromosomes of B. tabaci. RT-qPCR showed high expression of OBP3 and 8 across all body tissues and OBP10 in the abdomen. Molecular docking showed that OBP 3 and 10 had high affinity bonding with different candidate ligands, with binding energies ranging from −5.0 to −7.7 kcal/mol. Competitive fluorescence binding assays revealed that β-caryophyllene and limonene had high binding affinities for OBP3 and 10, with their IC50 values ranging from 9.16 to 14 μmol·L-1 and KD values around 7 to 9 μmol·L-1. Behavioural assays revealed that β-caryophyllene and carvacrol were attractants, β-ocimene and limonene were repellents, and γ-terpinene and β-ocimene were oviposition deterrents to B. tabaci. Functional validation by RNAi demonstrated that OBP3 and OBP10 modulated host recognition of B. tabaci. This study expands our understanding of the genomic landscape of OBPs in B. tabaci, offering scope for developing novel pest control strategies.

SCREENING OF COTTON (GOSSYPIUM HIRSUTUM L.) GERMPLASM AGAINST COTTON LEAF CURL VIRUS (CLCUV)

Cotton Leaf Curl Virus (CLCuV) is a devastating disease affecting cotton production worldwide, particularly in South Asia and Africa transmitted by the whitefly (Bemisia tabaci). CLCuV infection leads to severe symptoms, including leaf curling, vein thickening, stunted growth, and significant yield losses. Developing resistant cotton varieties is the most suitable strategy for managing CLCuV, given the limitations and environmental concerns associated with chemical controls. This study aimed to evaluate the resistance and susceptibility of different cotton varieties to CLCuV under natural field conditions and artificially infected condition using a disease severity scale ranging from 0 (highly resistant) to 5 (susceptible). A total of five cotton varieties, were assessed at three critical growth stages: vegetative, flowering, and boll formation. Disease severity, and yield components were recorded to determine extent of resistance of each variety. The results indicated that genotypes and treatments had significant variation in control compared to T1. According to DSI, NIAB-852 was scored as resistant with 10% infected leaves. FH-142 and CIM-496 were scored as tolerant according to DSI with 10-25% infection in leaves. NIAB Karishma and CIM-448 were scored as moderately susceptible with 50-75% infection. All genotypes had significant reduction in number of bolls, boll weight and seed cotton yield in T1 than control. These findings provide valuable insights into the effectiveness of existing cotton germplasm against CLCuV and highlight the need for continuous evaluation and development of resistant varieties. The study highlights the importance of generating resistant cultivars, thereby ensuring sustainable cotton production.

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.

Benefits of remating of a hyperparasitoid acting as a biocontrol agent

Encarsia sophia is the dominant parasitoid of invasive whitefly pest such as Bemisia tabaci. This heteronomous hyperparasitoid species lays fertilised diploid eggs in whitefly nymphs, which serve as primary hosts. Larvae develop as female progeny by consuming whitefly hosts, providing direct biocontrol benefits. However, male progeny originate from unfertilised eggs laid on secondary hosts (primary parasitoids within whitefly nymphs) and develop by consuming primary parasitoid larvae rather than whitefly hosts. Therefore, it is crucial for indoor rearing and field release of the hyperparasitoid to determine whether a female with single-mating experience can parasitise primary hosts and produce female progeny for a whole lifetime and, if not, whether it is remating events and prolong the period of female production, thereby increasing the amount of parasitism on whiteflies. Our fecundity experiments of females with single-mating experience, equally provided with primary and secondary hosts, showed that single mating was insufficient for E. sophia females to lay fertilised eggs in whitefly nymphs for their whole lifetime. In multiple mating experiments, 76.7 % of male adults completed their second mating 2 h after the first, whereas female adults accepted the second mating only if primary hosts were available thereafter. Remating was beneficial for female adults as it prolonged the ovipositional period of fertilised eggs (from 13.3 ± 0.6 days for single to 17.1 ± 0.7 days for twice mating) and increased parasitism on B. tabaci primary host (from 53.1 ± 3.8 for single to 76.4 ± 5.9 for twice mating respectively). The mating experience of males increased their copulation success, whereas that of females decreased it. In conclusion, recommendations are provided for large-scale indoor rearing and field release of E. sophia. Firstly, sufficient time for providing males can be shortened to within 2 h, and a single male can engage in 2–3 mating sessions. Following the 15-day peak oviposition period, the addition of newly emerged males is advised. Secondly, for field release of adult parasitoids, it is recommended to concentrate on releasing females after completing mating indoors. For the release of pupae cards, ensure a balanced ratio of males and females on each card to facilitate mating upon emergence. Additionally, release extra males and females 2 weeks after the initial batch of releases.

Comparative transcriptome analysis of whiteflies raised on cotton leaf curl Multan virus-infected cotton plants.

Cotton leaf curl Multan virus (CLCuMuV), a serious viral disease causative agent in cotton plants in South Asia, is transmitted by the Bemisia tabaci cryptic species complex in a persistent circulative manner. A previous study indicated that Asia II-7 whiteflies could transmit CLCuMuV, while Mediterranean (MED) whiteflies failed to transmit CLCuMuV. However, little is known about the genes involved in this process. In this study, Asia II-7 and MED B. tabaci were utilized to determine transcriptomic responses after 48 h of acquisition access periods (AAPs). Result of Illumina sequencing revealed that, 14,213 and 8,986 differentially expressed genes (DEGs) were identified. Furthermore, DEGs related to the immune system and metabolism of Asia II-7 and MED in response to CLCuMuV-infected plants were identified and analyzed using Gene Ontologies (GO) and the Kyoto Encyclopedia of Genes and Genomes (KEGG), and the number of related DEGs in MED was lower than that of Asia II-7. The most abundant groups of DEGs between both viruliferous and aviruliferous whitefly species were the zf-C2H2 family of transcription factors (TFs). Notably, in comparison to viruliferous MED, Asia II-7 exhibited more DEGs related to cathepsin biosynthesis. Overall, this study provides the basic information for investigating the molecular mechanism of how begomoviruses affect B. tabaci metabolism and immune response either as vector cryptic species or non-vector species.

Bioactivity of andiroba oil on whitefly, Bemisia tabaci (Gennadius, 1889) (Hemiptera: Aleyrodidae)

The whitefly, Bemisia tabaci (Gennadius, 1889) (Hemiptera: Aleyrodidae) is a phytophagous insect that is difficult to control and can cause great damage to several crops of economic importance, as it can use more than 600 botanical species as hosts. This study aimed to evaluate the insecticidal and deterrent effect of andiroba (Carapa guianensis Aubl., Meliaceae) fixed oil on B. tabaci biotype B in kale (Brassica oleracea var. acephala). The andiroba oil samples, Manaus and Silves were diluted in acetone P.A. at concentrations of 0.5%, 1%, and 1.5%, and compared with the commercial insecticide Evidence® 700WG (imidacloprid). For the deterrence test, the concentrations were applied on healthy seedlings and placed in a cage with adult insects. Then the oviposition of whiteflies on the leaves was counted. For the mortality test, applications were performed on seedlings with leaves infested with B. tabaci nymphs to evaluate the nymphicidal effect. Analysis of variance was performed using the F test, and comparison of means using the Tukey test (p<0.05), using the statistical program R®. Concentrations of 1% and 1.5% reached a deterrent effect of 82.13% and 88.55%, respectively. All concentrations caused mortality greater than 60%. These results attest to the potential of andiroba oil as an alternative control for the whitefly.

First report of squash vein yellowing virus naturally infecting cucumber, squash and melon in Jordan.

Plant viruses are major restrictive pathogens to cucurbits production in Jordan. During field surveys conducted in September 2022 in the main cucurbit growing areas (desert area, Jordan Valley, and highlands), virus-like symptoms such as vein clearing, mosaic patterns, interveinal chlorosis, and fruit malformation were observed, in the presence of high whitefly populations (Bemisia tabaci MEAM1, Mdanat et al., 2022). A total of 80 leaf samples from different species [48 cucumber (Cucumis sativus), 11 squash (Cucurbita pepo), 14 melon (Cucumis melo) and 7 watermelon (Citrullus lanatus)], including 70 symptomatic and 10 asymptomatic samples, were collected for further investigations. Total RNA and DNA were extracted using RNeasy and DNeasy plant mini kit (QIAGEN), respectively, and molecular detection against an array of cucurbit-infecting viruses was conducted using protocols available in the literature (Suppl. Table). Squash vein yellowing virus (SqVYV; Potyviridae, Ipomovirus) was detected in combination with other cucurbit-infecting viruses, in 10 of 70 symptomatic samples with primers (SqYVV-v4762; SqYVV-c5512) targeting a portion of the cylindrical inclusion (CI) gene (Hernandez et al., 2021), including 3 cucumber, 4 squash and 3 melon samples, however, it was not detected in watermelon. Among other RNA viruses, cucumber green mottle mosaic virus, cucurbit yellow stunting disorder virus, cucurbit aphid-borne yellows virus, cucumber vein yellowing virus, and cucurbit chlorotic yellows virus were detected in 9, 34, 7, 18, and 23 samples, respectively. The DNA viruses, squash leaf curl virus and watermelon chlorotic stunt virus, were detected in 36 and 30 samples. None of the detected viruses were present in asymptomatic samples. All 80 samples were negative for watermelon mosaic virus and tomato leaf curl New Delhi virus. Cloning (pGEM T-Easy Vector; Promega), sequencing, and BLASTn analysis of 4 CI-specific cloned amplicons (~ 0.75 kb, GenBank Acc no. PP908660-PP908663) confirmed the identification of SqVYV, with highest BLASTn identity of ~91% and ~99% to isolates ESF3 from USA (MW584342) and SqVYV-IL from Israel (KT721735), respectively. To reconstruct the complete genome sequence of the SqVYV isolate from Jordan, total RNA from a pool of squash and melon plants was used to construct a cDNA library with the Illumina DNA Prep kit, which was sequenced on a NextSeq2000 instrument as paired reads (2x150 bp) at Leibniz Institute DSMZ, to generate 18,723,252 total reads. Bioinformatic analysis in Geneious (Biomatters) resulted in the assembly of a single genome sequence of 9,831 nt (GenBank Acc. no. PP916052), covered by 83,995 reads, with mean coverage of 1,197 (Geneious mapper, 10% maximum mismatches per read). The complete genome sequence and the deduced polyprotein sequence shared over 99% identity with SqVYV-IL from Israel. Mechanical inoculation of 10 cucumber (cv. Giant Global) and 10 squash (cv. Lebanese) plants with inoculum from infected cucumber, resulted in vein clearing and mosaic symptoms, after three weeks from inoculation, while no symptoms were observed in the six negative controls. Symptomatic plants were confirmed by PCR to be infected by SqVYV as described earlier. In this study, we report the occurrence of SqVYV for the first time in cucurbit crops in Jordan. SqVYV has been reported to cause large economic losses in cucurbits in USA and Israel, posing a major threat to watermelon growers (Adkins et al., 2007; 2008 a & b; 2013; Reingold et al., 2016; Webster et al., 2013). Our findings should encourage further studies on the incidence and prevalence of SqVYV in cucurbit and non-cucurbit crops, including weeds, to understand its epidemiology in Jordan, including its natural host range.

Seasonal Incidence of Whitefly, Bemisia tabaci (Gennadius) on Tomato in Gird Region of Madhya Pradesh

Seasonal Incidence of Whitefly, Bemisia tabaci (Gennadius) on Tomato in Gird Region of Madhya Pradesh

Exploring Bemisia tabaci Middle East-Asia Minor I and Mediterranean Cryptic Species Relationship with Cowpea Mild Mottle Virus and Their Dynamics in Soybean Fields.

Cowpea mild mottle virus (CPMMV, genus Carlavirus, family Betaflexividae) is an economically important virus infecting soybeans in Brazil, where it was initially identified in 1983. CPMMV is transmitted by the whitefly, Bemisia tabaci, and occasionally by seeds. Over the last three decades, the most invasive B. tabaci Middle East-Asia Minor 1 (MEAM1), and lately the Mediterranean (MED) cryptic species, have replaced the indigenous species in Brazil, with MEAM1 being predominant. In this study, we investigated the transmission properties of CPMMV by MEAM1 and MED, and their distribution in major soybean-growing areas in São Paulo State. Our results from transmission assays with a single insect revealed that MED is a more efficient vector compared to MEAM1, transmitting the virus within a two-minute inoculation access period. B. tabaci MEAM1 is still the predominant whitefly species in São Paulo State, but MED was also identified in different places, mainly in mixed infestations with MEAM1. Some areas transitioned to a predominance of MED over the three years, while others, where MED had previously been detected, showed a reduction in the insects during the same period. Understanding the transmission dynamics of CPMMV and the distribution of its vectors is crucial for implementing effective management strategies to control the virus spread and protect soybean crops. Further research into the mechanisms driving the shifts in whitefly species dominance and CPMMV distribution will be essential for sustaining soybean production in Brazil.

Cucurbit Leaf Crumple Virus (CuLCrV) is Seed Transmitted in Yellow Squash (Cucurbita pepo L.).

The traditional understanding of begomovirus transmission exclusively through the whitefly Bemisia tabaci (Gennadius) has shifted with findings of seed transmission in some begomoviruses over the last decade. We investigated the seed transmissibility of cucurbit leaf crumple virus (CuLCrV), a bipartite begomovirus that has recently emerged as a severe constraint for yellow squash (Cucurbita pepo L.) production in the southeastern United States. We found high concentration of CuLCrV in male and female flower tissues of infected squash, including pollen and ovules. The virus infiltrated the fruit tissues including the endocarp and funiculus, which are anatomically positioned adjacent to the seeds. In seeds, CuLCrV was detected in the endosperm and embryo where there are no vascular connections, in addition to the seed coat. The virus was detected in the radicle, plumule, cotyledonary leaves, and true leaves of seedlings grown from seeds collected from infected fruits. In the grow-out test conducted, CuLCrV infections ranged from 17-56% of the progeny plants. To ensure that partial viral genome fragments were not being mistaken for replicative forms of the virus, we performed RCA ̶ PCR and amplified complete DNA-A and DNA-B of CuLCrV from seed tissues, seedlings, progeny plants of CuLCrV infected squash. Near complete DNA-A and DNA-B sequences of CuLCrV were recovered from a progeny plant, further validating our findings. Our results demonstrate that CuLCrV can translocate from vegetative to reproductive tissues of yellow squash, persist within the seeds, and subsequently induce infection in progeny plants, confirming its capacity for seed transmission.

Biochemical and molecular characterization of pyrifluquinazon resistance in Bemisia tabaci Asia I

One of the most devastating polyphagous pests in the world, Bemisia tabaci (Gennadius), causes significant damage to a variety of crops and has demonstrated the ability to develop resistance to different classes of insecticides rapidly. A novel pyridine azomethine derivative pyrifluquinazon exhibits exceptional insecticidal toxicity against B. tabaci by interrupting the function of chordotonal receptor neurons. Formulating resistance management strategies is crucial to ensure the long-term use of this insecticide for whitefly control; however, the characteristics and possible mechanisms of pyrifluquinazon resistance in B. tabaci remain unclear. By employing pyrifluquinazon selection for 22 successive generations, the pyrifluquinazon-resistant strain (PQZ-R) was generated from a laboratory-susceptible population of B. tabaci Asia I (Lab-WB) and exhibited 39.65-fold resistance to pyrifluquinazon. When the realized heritability (h2) of B. tabaci to pyrifluquinazon was assumed to be the laboratory-estimated value (h2 = 0.181) and the mortality was 70–90%, only 12.3–22.6 generations were expected to be required to obtain a 10-fold increase in pyrifluquinazon resistance. While there was no significant cross-resistance to cyantraniliprole, dinotefuran, flonicamid, flupyradifurone, pymetrozine, sulfoxaflor, or thiamethoxam, the PQZ-R strain displayed slight cross-resistance to afidopyropen (3.14-fold). Synergism tests indicated that piperonyl butoxide (PBO) inhibits (4.36-fold) pyrifluquinazon resistance in the PQZ-R strain. This impact may be attributed to enhanced detoxification (elevated 3.91-fold) mediated by cytochrome P450 monooxygenase (P450). Compared to Lab-WB, the PQZ-R strain exhibited no significant overexpression of the 13 published detoxification-related P450 genes from CYP303, CYP4, and CYP6 families in B. tabaci. The combined knowledge gained from this study will enable further investigations into the function of qualitative and quantitative variations in P450-encoded genes, leading to innovative approaches for efficiently managing B. tabaci.

β-Caryophyllene wrapped by nanoliposomes efficiently increases the control effect on Bemisia tabaci MED

Bemisia tabaci poses a severe threat to plants, and the control of B. tabaci mainly relies on pesticides, which causes more and more rapidly increasing resistance. β-Caryophyllene is a promising ingredient for agricultural pest control, but its feature of poor water solubility need to be improved in practical applications. Nanotechnology can enhance the effectiveness and dispersion of volatile organic compounds (VOCs). In this study, a nanoliposome carrier was constructed by ethanol injection and ultrasonic dispersion method, and β-caryophyllene was wrapped inside it, thus solving the defect of poor solubility of β-caryophyllene. The size of the β-caryophyllene nanoliposomes (C-BT-NPs) was around 200 nm, with the absolute value of the zeta potential exceeding 30 mV and a PDI below 0.5. The stability was also maintained over a 14-d storage period. C-BT-NPs showed effective insecticidal activity against B. tabaci, with an LC50 of 1.51 g/L, outperforming thiamethoxam and offering efficient agricultural pest control. Furthermore, C-BT-NPs had minimal short-term impact on the growth of tomato plants, indicating that they are safety on plants. Therefore, the VOCs using nanoliposome preparation technology show promise in reducing reliance on conventional pesticides and present new approaches to managing agricultural pests.

Impacts of coingesting two tomato-infecting begomoviruses on virus infection in Bemisia tabaci and vector transmission

Impacts of coingesting two tomato-infecting begomoviruses on virus infection in Bemisia tabaci and vector transmission

Lethal and Sublethal Effects of Afidopyropen and Flonicamid on Life Parameters and Physiological Responses of the Tobacco Whitefly, Bemisia tabaci MEAM1

Lethal and Sublethal Effects of Afidopyropen and Flonicamid on Life Parameters and Physiological Responses of the Tobacco Whitefly, Bemisia tabaci MEAM1

A plant virus differentially alters DNA methylation in two cryptic species of a hemipteran vector

Epigenetic patterns including DNA methylation are known to vary between distantly related species, but it is not clear how these patterns differ at an intraspecific level. The sweetpotato whitefly, Bemisia tabaci (Gennadius) (Aleyrodidae; Hemiptera), encompasses several cryptic species. These cryptic species possess highly similar genomes but exhibit substantial biological and physiological differences. B. tabaci cryptic species are invasive, highly polyphagous, and transmit an array of plant infecting single stranded DNA viruses (ssDNA) –begomoviruses. In this study, DNA methylation patterns around genes and genomic features of two prominent B. tabaci cryptic species were investigated following acquisition of a monopartite ssDNA virus –tomato yellow curl virus. The cryptic species investigated included: B (also known as Middle East Asia Minor 1) and Q (also known as Mediterranean). Genomic features, such as promoters, gene bodies, and transposable elements were assessed for methylation levels in both B and Q cryptic species. Despite overall similar trends, both cryptic species showed differences in methylation levels between these genomic features. Virus induced differentially methylated regions were associated with predominantly distinct genes in B and Q cryptic species. All differentially methylated regions were assessed for differential gene expression and alternative splicing events with and without virus acquisition. DNA methylation levels were found to have a negative correlation with differential gene expression in both B and Q cryptic species. The differentially expressed genes were further grouped into hyper- and hypomethylated clusters. These clusters included genes with implications for virus-vector interactions including immune functions and xenobiotics’ detoxification. The observed DNA methylation pattern differences within each cryptic species could, in part, explain some of the biological and physiological differences between them.

Effect of Weather Change and Plant Age on the Whitefly Bemisia tabaci (Gennadius) (Hemiptera: Aleyrodidae) on Tomato Plants and its Control in Dakhlia Region, Egypt

Effect of Weather Change and Plant Age on the Whitefly Bemisia tabaci (Gennadius) (Hemiptera: Aleyrodidae) on Tomato Plants and its Control in Dakhlia Region, Egypt

Herbivore-induced volatiles reduce the susceptibility of neighboring tomato plants to transmission of a whitefly-borne begomovirus.

Plant viruses exist in a broader ecological community, with key components include non-vector herbivores that can impact vector abundance, behavior, and virus transmission within shared host plants. However, little is known about the effects of non-vector herbivores infestation on the virus transmission by vector insects on the neighboring plants through inter-plant airborne chemicals. In this study, we investigated how volatiles emitted from tomato plants infested with the two-spotted spider mite (Tetranychus urticae) affect the infection of Tomato yellow leaf curl virus (TYLCV) transmitted by the whitefly (Bemisia tabaci) in the neighboring plants. Exposure of neighboring tomato plants to volatiles released from T. urticae-infested tomato plants reduced subsequent herbivory as well as TYLCV transmission and infection, and JA signaling pathway was essential for generation of the inter-plant defense signals. We also demonstrated that (E)-β-Ocimene and MeSA were two volatiles induced by T. urticae that synergistically attenuated TYLCV transmission and infection in tomato. Thus, our findings suggest that plant-plant communication via volatiles likely represents a widespread defensive mechanism that substantially contributes to plant fitness. Understanding such phenomena may help us to predict the occurrence and epidemic of multiple herbivores and viruses in the agroecosystem, ultimately to manage pest and virus outbreaks.

Effects of injudicious use of spirotetramat on Encarsia formosa's ability to control Bemisia tabaci

The excessive and frequent use of insecticides has led to serious problems with insecticide residues, impacting nontarget organisms such as the parasitoid Encarsia formosa. This study examined the growth, development, and enzyme activity of E. formosa exposed to spirotetramat at LC10, LC30, and LC50. The regression equation for the toxicity of spirotetramat toward E. formosa was Y = 5.25X–11.07. After exposure to spirotetramat, the survival rates of E. formosa sharply decreased, which occurred earlier than those in the control batch. Although the maximum daily parasitism quantity of E. formosa increased and the average parasitism number, enumerated from the 1st to the 5th day, was 53.97 after being exposed to spirotetramat at LC10, the life span of its F1 generation adults was only 8.47 days, which was significantly shorter than that in the control batch. After being exposed to spirotetramat at LC50, the average parasitism number of E. formosa was 63.30, and the developmental time of its F1 generation, enumerated from the 1st to the 5th day after exposure to spirotetramat, was significantly longer than that of the control batch. The activities of mixed function oxidase, acetylcholinesterase, carboxylesterase, and catalase increased significantly, and the rate of increase in enzyme activity was directly proportional to the increase in the concentration of spirotetramat. These results revealed that the parasitic ability of E. formosa decreased after exposure to spirotetramat at LC10, LC30, and LC50. This leads to a change in parasitoid control of pests, revealing the potential environmental threat of insecticide residues to nontarget organisms.

Toxic effects of cadmium on the growth and predation capacity of the predator Orius sauteri

The heavy metal cadmium (Cd) leads to significant bottom-up effects on food chains of plants, herbivores, and predators in agroecosystems. Through the transfer and accumulation of Cd. In addition to the indirect effects of this cascading effects, predators Orius sauteri fed with artificial diets containing Cd also have a direct effect. We found that O. sauteri fed with sucrose solutions containing Cd at high concentrations of 125 mg/L and 625 mg/L significantly decreased the survival of the 3rd and 5th instar, female, and male adults (except 125 mg/L) of O. sauteri. However, the survival of O. sauteri nymphs was significantly increased when they fed with low concentrations of 1 mg/L, 5 mg/L and 25 mg/L Cd sucrose solutions. Cd stress has differing effects on the LC50 of each age of O. sauteri, the lowest LC50 for male adults (153 mg/L), followed by 3rd instar nymphs (192 mg/L), 5th instar nymphs (289 mg/L) and female adults (383 mg/L). It is interesting that 1 mg/L, 5 mg/L, and 25 mg/L of sucrose solutions containing Cd significantly improved the predation capacity of the nymphs of O. sauteri to the Bemisia tabaci pupa. The predation ability of the male adults of O. sauteri on B. tabaci pupa were significantly improved, but significantly decreased in the female adults when they fed with 125 mg/L and 625 mg/L sucrose solutions containing Cd. This difference needs to be studied in depth in the future, controlling Cd contamination and protecting natural enemies to enhance the biological control of pests.Graphical