Your search keyword '"IPM"' showing total 5,241 results

1. Comparative biology of chlorantraniliprole selected and unselected Chrysoperla carnea (Stephens) populations: Stability of resistance, inheritance mode, and realized heritability

Author

Abubakar, Muhammad and Shad, Sarfraz Ali

Published

2025

2. High pesticide exposure and risk to bees in pollinator plantings adjacent to conventionally managed blueberry fields

Author

Graham, Kelsey K., McArt, Scott, and Isaacs, Rufus

Published

2024

3. Who eats the yellowmargined leaf beetle? Field observations and genetic surveillance to identify local predators of a novel invasive pest

Author

Golan, Jonathan E., Huss, Christiana P., Rodrigues, Pedro A.P., Gariepy, Tara D., Schmidt, Jason M., and Blubaugh, Carmen K.

Published

2023

4. An overview on possible management strategies for coffee white stem borer Xylotrechus quadripes Chevrolat (Coleoptera: Cerambycidae) in Nepal

Author

Pandey, Meena, Kayastha, Preeti, Khanal, Saugat, Shrestha, Suraj, Thakur, Gaurav, Adhikari, Khusbu, Shah, Kabita Kumari, Pant, Divya, and Khanal, Dipak

Published

2022

5. Green tea extract increases the quality and reduced DNA mutation of post-thawed Kacang buck sperm

Author

Mustofa, Imam, Susilowati, Suherni, Wurlina, Wurlina, Hernawati, Tatik, and Oktanella, Yudit

Published

2021

6. Tree Health Management in Rajasthan: Insects-Pests, Diseases and Protection Strategies for Some Important Tree Species

Author

Bhatnagar, Shiwani, Verma, Neelam, Kalia, Rajwant K., editor, and Pathak, Rakesh, editor

Published

2025

7. Differential Attraction of Summer and Winter Morphs of Spotted Wing Drosophila, Drosophila suzukii, to Yeasts.

Author

Jones, Rory, Goddard, Matthew R., Eady, Paul E., Hall, David R., Bray, Daniel P., Farman, Dudley I., and Fountain, Michelle T.

Abstract

Drosophila suzukii is a pest of soft and stone fruits that is attracted to yeast volatile metabolites. Drosophila suzukii has distinct summer and winter morphs which are found in different habitats. Complex communities of yeasts likely differ between habitats and thus we hypothesized morphs differ in their attraction to yeast volatiles from different species and combinations of species. We presented D. suzukii with yeast species in isolation and in combinations, as either post-culture mixes or co-cultured, and measured activity of the flies in laboratory choice tests with a Locomotor Activity Monitor as a proxy for attraction. Candida zemplinina was more attractive to winter than summer morphs when cultured in both sterile strawberry juice (SSJ) and artificial culture media (YPD). No significant correlations were found between principle component scores derived from single yeast volatile profiles and fly activity. There was also differential attraction of morphs to certain yeast mixes, most notably post SSJ culture mixes of Hanseniaspora uvarum and C. zemplinina were consistently more attractive to winter morphs. Mixtures of Metschnikowia pulcherrima + Pichia pijperi + H. uvarum in SSJ and M. pulcherrima + P. pijperi yeasts in YPD were also preferred by winter morphs, whilst summer morphs were attracted to SSJ co-cultures of M. pulcherrima + H. uvarum. However, co-culturing yeasts did not enhance attraction compared to post-culture mixes of constituent yeasts for either morph. Differential attraction of morphs to certain yeasts suggests options for new bait formulations in integrated pest management strategies may be tailored to better target morphs. [ABSTRACT FROM AUTHOR]

Published

2025

8. Evaluation of selected biorational and synthetic chemical insecticides for controlling Phenacoccus solenopsis (Hemiptera: Pseudococcidae) under field conditions.

Author

Rajabpour, Ali

Abstract

Phenacoccus solenopsis Tinsley, commonly known as the cotton mealybug, is a significant pest found in various regions worldwide. This polyphagous insect has become a serious problem on agricultural crops, ornamental plants, and certain trees in Khuzestan province. The primary method of controlling this pest is through the use of insecticides. However, applying insecticides, especially in urban green spaces, presents challenges due to direct exposure to the public and various restrictions. In this study, the effectiveness of six biorational and conventional synthetic chemical insecticides (azadirachtin, indoxacarb, flupyradifurone, spinosad, Lecanicillium muscarium as an entomopathogenic fungus, and imidacloprid) against this pest was evaluated under field conditions. The results showed that flupyradifurone had the greatest impact on reducing the population of P. solenopsis compared to the control (85.41% the insect abundance reduction comparing to control). The insecticides demonstrated a significantly higher efficacy when applied at the recommended field concentration of 100% compared to 50% of the recommended concentration. Furthermore, over time (from 1 to 14 days after application), there was a gradual decrease in pest density, indicating a progressive effect of the pesticides on the pests. Azadirachtin can be considered as an effective insecticide against this pest, but it requires a minimum two-week delay for optimal results. [ABSTRACT FROM AUTHOR]

Published

2025

9. Old strategies as modern solutions, shook swarming reduced Varroa destructor infestation rates of managed honey bee, Apis mellifera, colonies.

Author

Mortensen, Ashley N., Jochym, Mateusz, Dearden, Peter K., and Sainsbury, James P.

Abstract

Transferring adult honey bees from the combs of their hive to a new empty hive is a management strategy known as "shook swarming" that has been used by beekeepers in a variety of contexts since as early as 1796. Varroa destructor are dependent on mature brood to reproduce and shook swarming breaks the colony's brood cycle by separating the adult bees from the brood developing in the old combs. We investigated the efficacy and practicality of shook swarming to mitigate negative health effects of Varroa in honey bee colonies by reducing Varroa infestation rates. New colonies were founded via traditional splitting or the shook swarm technique either with or without comb in the new hive. All colonies were given ∼1 month to establish and then assessed for foraging activity, colony strength, and Varroa infestation rate. We observed a significant decrease in the Varroa infestation rates of colonies that experienced shook swarming compared with those that had not. Colonies established via shook swarming had lower colony strength scores but maintained similar relative foraging activity as traditional splits. Our findings indicate that shook swarming is a viable, non-chemical control strategy for managing Varroa infestations and should be considered in long-term management plans where colonies undergo shook swarming aligned with honey production and/or pollination service delivery. [ABSTRACT FROM AUTHOR]

Published

2025

10. Pesticidal plant extract effect against major lepidopteran insect pests and their natural enemies in rice Oryza sativa L.

Author

Seni, Atanu, Pal, Rini, Mohapatra, Sanjukta, Mandal, Dipankar, Bansude, Sushil Kumar, Seth, Pinki, Barla, Sarita, and Sahu, Jubuli

Subjects

*RICE diseases & pests, *NEEM, *BAEL (Tree), *LEMON, *INTEGRATED pest control, *GARLIC

Abstract

Extracts of plants have been used to manage various insect pests, but little information is available about how effective they are in reducing crop damage or how they affect crop yield and beneficial insects in rice. Extracts from Azadirachta indica leaves, Lantana camara leaves, Nerium oleander leaves, Aegle marmelos leaves, Allium sativum cloves, and Citrus limon fruits, known to have insecticidal properties, were compared with two checks, viz., Azadirachtin 1% EC and standard insecticide Acephate 95 SG, for their efficacy against yellow stem borer (YSB), Scirpophaga incertulas (Walk.), and rice leaf folder Cnaphalocrocis medinalis (Guenee) and natural enemies in cultivated rice in Sambalpur, Odisha, India. Untreated rice plants served as control. An adjuvant, Tween 20 at 1%, was added with all the botanical extracts except the commercial formulation. Plant damage, insect population numbers, and yield were monitored during two consecutive wet seasons from 2022 to 2023. Mean rice yield was significantly higher in the A. indica and Acephate 95 SG treatments, i.e., 4.68 t/ha and 4.66 t/ha, respectively, compared to the control (2.27 t/ha) and were significantly at par with each other. The L. camara and A. indica treatments were effective against both the major lepidopteran rice insect pests. The highest cost–benefit ratio of (1:4.65) was obtained from the Acephate treatment and was closely followed by the A. indica treatment (1:3.74). All the studied botanicals had less impact on natural enemies than synthetic chemicals. Among these botanicals, the maximum mean population of predators (like spiders and carabid beetles) and parasitoids (like Tetrastichus schoenobii , Telenomus dignus , and Trichogramma japonicum) were observed in the A. indica and A. marmelos treatments. Although all the studied botanicals were effective against both the major insect pests in rice, the A. indica , A. marmelos , A. sativum , and L. camara treatments showed the most promising against rice insect pests, so they may be incorporated into integrated pest management of rice. [ABSTRACT FROM AUTHOR]

Published

2025

11. Comparison of Pheromone Lures and Sticky Pad Color for Capturing Tuta absoluta (Lepidoptera: Gelechiidae).

Author

Sadique, Muhammad, Ishtiaq, Muhammad, Qayyum, Mirza Abdul, Alkherb, Wafa A. H., Abbasi, Asim, Arshad, Muhammad, Ullah, Unsar Naeem, Faried, Nazar, Akram, Muhammad Irfan, and Rebouh, Nazih Y.

Subjects

*INTEGRATED pest control, *LEAFMINERS, *PHEROMONE traps, *PEST control, *GELECHIIDAE, *PHEROMONES

Abstract

Simple Summary: Tomato leaf miner Tuta absoluta (Meyrick) (Lepidoptera: Gelechiidae) has emerged as a significant pest worldwide, necessitating effective pest management strategies. This study, conducted in Khyber Pakhtunkhwa, Pakistan, over two consecutive years (2020–2021), aimed to evaluate the efficacy of various pheromone-based traps and sticky pads in capturing male T. absoluta adults. The results demonstrated that Delta traps equipped with rubber septum pheromone lures were significantly more attractive, with mean captures of 76.0 and 86.17 adults in 2020 and 2021, compared to polymer wax (32.83 and 28.2) and polymer vial (10.37 and 11.77) lures. Additionally, among sticky traps without pheromone lures, black-colored pads proved most effective, capturing an average of 17.93 and 21.73 adults per year, while yellow pads were least effective, with captures of 1.33 and 1.47 adults. Significant differences were observed in both pheromone lure types and sticky pad colors. The findings suggest that Delta traps with rubber septum pheromones and black sticky pads offer a more effective approach for integrated management of T. absoluta. Tomato leaf miner Tuta absoluta (Meyrick) (Lepidoptera: Gelechiidae) has gained the status of major pest globally. Integrated pest management (IPM) consists of different control methods. This field study was conducted to evaluate the influence of different pheromone-based traps to attract the male population and the potential of sticky pads of four different colors in capturing the adults in the absence of pheromone lures. The trials were conducted in Khyber Pakhtunkhwa (Pakistan) for two consecutive years, 2020 and 2021. The Delta trap with rubber septum type lure was significantly more attractive in both years, with mean number of capturing 76.0 and 86.17, as compared to polymer wax (32.83 and 28.2) and polymer vial (10.37 and 11.77), lures. The highest mean number of capturing of T. absoluta adults were noted as 17.93 and 21.73 with black color sticky trap without pheromone, whereas the lowest number of adults, i.e., 1.33 and 1.47, were captured during the first and second year of the study, respectively, with yellow color sticky traps. However, a significant difference was found in pheromone lures and among black, red, green, and yellow color sticky pads. Hence, Delta traps equipped with rubber septum pheromones lures and black colored sticky pads were more useful for the control of T. absoluta than any other colored sticky pads and pheromone lures alone. These findings could be helpful for the integrated management of T. absoluta. [ABSTRACT FROM AUTHOR]

Published

2025

12. Navigating pesticide overuse in vegetable farming in Assam, India: a comprehensive analysis of underlying factors.

Author

Mamun, Abdullah Al and Goswami, Kishor

Subjects

*VEGETABLE farming, *PEST control, *AGRICULTURAL chemicals, *AGRICULTURAL productivity, *FACTOR analysis

Abstract

Pesticides are a critical aspect of contemporary agriculture and a significant driver of agricultural intensification and productivity. However, the overuse of chemical pesticides in agricultural activities continues to be a significant concern worldwide. The study is based on qualitative and quantitative approaches, using personal interviews with 390 vegetable farmers in Assam, India. A total amount of 2573 kg of pesticide-active ingredients was applied by the farmers per season, and it was observed that 68% of the farmers exceeded the recommended pesticide usage, with an average overuse rate of 0.88 kg per season. According to the toxicity classification of the World Health Organization, about 16% of the active ingredients reported by farmers were highly hazardous, while 25% were moderately hazardous. The study used a binary logistic regression where factors like education level, Integrated Pest Management, and cultivation of separate plots for self-consumption reduced pesticide overuse. In contrast, factors like farmers' experience of health symptoms, information sources, access to credit, and off-farm income were found to promote pesticide overuse. This study provides valuable insights for policymakers in the design of effective policies to address the problem of pesticide overuse in developing countries in general and in India in particular. [ABSTRACT FROM AUTHOR]

Published

2025

13. Light‐emitting diode traps in commercial greenhouses: A field study report on Encarsia formosa bycatch.

Author

Grupe, Björn and Meyhöfer, Rainer

Subjects

*GREENHOUSE whitefly, *INSECT pests, *BIOLOGICAL pest control, *PEST control, *GREENHOUSE plants

Abstract

Yellow sticky traps (YSTs) are a standard tool for insect monitoring in greenhouses. These traps have been further developed by using them in combination with green light‐emitting diodes (LEDs) to increase their attractiveness towards pest insects such as aphids and whiteflies. However, also natural enemies, such as the whitefly parasitoid Encarsia formosa Gahan (Hymenoptera: Aphelinidae), are attracted to these traps. This may cause problems with biological control of the pest or may be used for indirect monitoring purposes. Therefore, we compared the attractiveness of YSTs and green (521 nm) LED traps towards E. formosa under practical growing conditions in tomato, Solanum lycopersicum L. (Solanaceae) and cucumber, Cucumis sativus L. (Cucurbitaceae), crops in the greenhouse. The aim of the study was to investigate the compatibility of LED traps with this parasitoid frequently used against the greenhouse whitefly, Trialeurodes vaporariorum Westwood (Hemiptera: Aleyrodidae). The results show LED traps catching less E. formosa than standard YSTs. Moreover, LED traps also showed compatibility with other beneficial insects. The results are discussed in the context of the parasitoid's behaviour towards various green light spectra and in the context of pest and beneficial insect monitoring using different trap types. Our study will help implementing green LED traps in future insect monitoring programmes and developing new pest control strategies without affecting natural enemies. [ABSTRACT FROM AUTHOR]

Published

2025

14. Side effects of semi‐synthetic insecticide spinetoram on the whitefly parasitoid Encarsia formosa.

Author

Drobnjaković, Tanja, Prijović, Mirjana, Dervišević, Marina, Brkić, Dragica, Ricupero, Michele, and Marčić, Dejan

Subjects

LIFE history theory, INTEGRATED pest control, BIOLOGICAL pest control agents, AGRICULTURE, GREENHOUSE whitefly

Abstract

BACKGROUND: Insecticide risk assessment for biological control agents is essential for implementing integrated pest management (IPM) programs. Spinetoram is a naturally derived insecticide used to control a variety of agricultural sap‐sucking insect pests, and Encarsia formosa Gahan (Hymenoptera: Aphelinidae) plays a key role in the biocontrol of greenhouse whiteflies. Despite its presumed safe ecotoxicological profile, the side effects of spinetoram on E. formosa are partially unknown, especially at sublethal doses. In the laboratory, we estimated the lethal concentrations (LC) of spinetoram on E. formosa by topical exposure of pupae and 48 h residual contact exposure of emerged adults. Afterwards, we assessed the impact of spinetoram LCs on the life history traits (juvenile development, adult longevity, parasitism, adult emergence) and population growth parameter (the instantaneous rate of increase, ri) of the parasitoid. RESULTS: Probit analysis allowed the estimation of LC10 = 0.10 mg/L, LC50 = 0.56 mg/L, and LC90 = 3.28 mg/L. Spinetoram at LC10 had no impact on the observed parameters of E. formosa. Conversely, spinetoram at LC50 and LC90 significantly reduced adult longevity by 19.2% and 40.6%, total parasitism by 33.4% and 38.7%, and total adult emergence by 29.6% and 39.1%, respectively. Also, the ri of E. formosa was significantly affected by spinetoram LC50 and LC90 with a reduction of 8.17 and 29.83%, respectively. CONCLUSION: Our results suggested that spinetoram significantly threatens the effectiveness of E. formosa when applied at the field recommended rate. However, further validation of spinetoram under greenhouse conditions is required for a comprehensive risk assessment for E. formosa in IPM programs. © 2024 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2025

15. Selected Botanicals and Sticky Traps for the Management of Thrips tabaci in Onions (Allium cepa L.) as Good Agricultural Practices.

Author

Rind, S. H., Gilal, A. A., Rajput, L. B., and Nizamani, I. A.

Subjects

CROP losses, THRIPS, PROFIT margins, HUMAN ecology, MARIGOLDS, ALOE vera

Abstract

Purpose: Thrips tabaci (Lindeman, 1889) is a polyphagous and severe sucking pest of onions causing huge economic losses. Although widely used, synthetic pesticides are less effective against it along with additional concerns to humans and the environment. Therefore, various good agricultural practices (GAP) were evaluated against it under field conditions. Research Method: Treatments used were GAP1= Marigold (trap crop) and Blue sticky trap; GAP2= Marigold and Aloe vera (botanical pesticide); GAP3= Blue sticky trap and Aloe vera; GAP4= Marigold, Aloe vera, and Blue sticky trap and Control (conventional farmer's plot). Phulkara onion variety was used in the study. The plantation of marigolds and installation of blue sticky traps were done with the transplanting of onions. Aloe vera and synthetic pesticide i.e., Pirate 360 G/L (Chlorfenapyre) were applied depending on the threshold of T. tabaci. Findings: All the GAPs used effectively managed the T. tabaci population on onions. Overall, the lowest T. tabaci population was observed in GAP4- Marigold, Aloe vera, and Blue sticky trap (12.6±0.3 thrips per plant), not significantly different from GAP3- Blue sticky trap and Aloe vera (12.9±0.4 thrips per plant) and control (13.6±0.5 thrips per plant). The GAP1- Marigold and Blue sticky trap treatment suffered the highest T. tabaci population (34.1±1.1 thrips per plant). Maximum onion yield was recorded in control (2597.6±73.8 kegs per ha) but not significantly different from GAP4 (2484.2±59.2 kegs per ha), whereas the lowest yield was recorded in GAP1 (1933.6±46.0 kegs per ha). The cost-benefit ratio of the two best treatments (GAP4 and control) was recorded as 3.05 and 2.53, respectively. Originality: GAP4 should be adopted for better T. tabaci management in onions to get a higher profit margin. [ABSTRACT FROM AUTHOR]

Published

2025

16. Vibrational communication in Scolypopa australis: characterising spontaneous and intrasexual calls in an invasive orchard pest.

Author

MacDougall, Mark S., Stringer, Lloyd D., Borthwick‐Taylor, Greer, and Nelson, Ximena J.

Subjects

*INTEGRATED pest control, *AGRICULTURAL pests, *PEST control, *HOMOPTERA, *CLUSTER analysis (Statistics)

Abstract

Vibrational communication in the Auchenorrhyncha is an avenue of growing interest, with many pesticide‐free vibrational pest control programmes against auchenorrhynchan agricultural pests continuing to be developed around the world. Passion vine hoppers (PVH), Scolypopa australis (Walker) (Hemiptera: Ricaniidae), are an economically damaging pest species in New Zealand, where they facilitate the growth of sooty mould in kiwifruit orchards. Scolypopa australis is already known to use vibrational signals, therefore a further understanding of the spectral and temporal characteristics of its calls will be an essential next step to developing vibration‐based pest management strategies. Here, we aimed to characterise the properties of spontaneous S. australis calls in solitary and intrasexual communication contexts. We used laser Doppler vibrometry to record vibrational signals produced by male and female S. australis (separately), when in groups of three or individually. We sorted calls and call sub‐units (syllables) into groups based on cluster analyses of various spatio‐temporal parameters. We define four male calls and three female calls, and newly describe a 'two‐syllable' calling structure that may be involved in male intrasexual competition. Certain syllables were more prevalent at the beginning or end of calls for males, and were more homogenously distributed throughout calls for females. The types of calls used differed between single males and groups, with more energetically intense call types observed in the group settings. Additional studies on the behavioural context of S. australis vibrational calls and their responses to playback of such calls will be necessary to assess the viability of vibration‐based pest management for this species. [ABSTRACT FROM AUTHOR]

Published

2024

17. Diel vibrational activity of Halyomorpha halys and its implications for enhancing bimodal traps.

Author

Fouani, Jalal M., Bonet, Mattia, Zaffaroni‐Caorsi, Valentina, Nieri, Rachele, Verrastro, Vincenzo, Anfora, Gianfranco, and Mazzoni, Valerio

Subjects

*BROWN marmorated stink bug, *INTRODUCED insects, *INSECT pests, *INTEGRATED pest control, *CROPS

Abstract

The brown marmorated stink bug, Halyomorpha halys (Stål) (Hemiptera: Pentatomidae) is an invasive insect pest that has caused significant economic losses in a myriad of agricultural crops in Europe and the USA. The communication as well as the control of this pest largely rely on semiochemicals (e.g., pheromones) and semiophysicals (e.g., substrate‐borne vibrations). Nevertheless, the nocturnal activity of H. halys is still largely unknown. In the present study, the diel vibrational communication of H. halys was investigated in controlled laboratory and semi‐field conditions. Moreover, the relevance of this ecological trait for integrated pest management (IPM) strategies was assessed by extending playback periods of bimodal (i.e., pheromones + vibrational playbacks) traps to 24 h, and comparing it to the current trap model (solar panel, about 12 h of playback) and a control (no playback, only pheromone). We found that H. halys did not exhibit discernible differences of vibrational activity between photophase and scotophase, with the exception of signal type 2 that in laboratory conditions was predominately emitted within nocturnal and morning hours (i.e., 20:00–12:00). Additionally, the calling activity was negatively affected by warmer (>32 °C) and windier (>7 m s−1) conditions in semi‐field settings. Bimodal traps that were power‐supplied for 24 h captured significantly more males than the other groups, and more females than the control group. Results suggest that the nocturnal vibrational activity of H. halys should be accounted for within IPM strategies by activating the bimodal traps also during the scotophase. [ABSTRACT FROM AUTHOR]

Published

2024

18. The role of substrate‐borne vibrational signals in the sexual communication of the painted bug, Bagrada hilaris.

Author

Scala, Marica, Peccerillo, Chiara, Fouani, Jalal M., Nieri, Rachele, Baser, Nuray, Verrastro, Vincenzo, Cristofaro, Massimo, Anfora, Gianfranco, and Mazzoni, Valerio

Subjects

*LASER Doppler vibrometer, *STINKBUGS, *ANIMAL sexual behavior, *AGRICULTURAL pests, *SEARCHING behavior

Abstract

The invasive alien stink bug Bagrada hilaris (Burmeister) (Hemiptera: Pentatomidae), native to eastern‐southern Africa and central‐southern Asia, poses significant economic threats to agroecosystems due to its polyphagous diet with a preference for brassicaceous crops. Current control methods using broad‐spectrum insecticides are expensive and often result in significant negative ecological impacts, as well as posing a health risk to consumers. This study provides a detailed description of the mating behavior of B. hilaris, with the aim to ascertain whether substrate‐borne vibrations have a role in premating phases. Such knowledge may contribute to the development of alternative biorational control techniques employing vibrational strategies. Virgin adults were tested individually or in pairs on different substrates, that is, a loudspeaker membrane and a bean plant. Vibrations emitted by males and females were recorded using a laser Doppler vibrometer, and the following spectral and temporal parameters were analyzed: fundamental frequency, emission time, repetition time, and signal modulation. Three distinct types of vibration emitted by males and females were identified: a male vibrotype (MV‐1), a female vibrotype (FV), and a copula signal exclusively emitted by males (MS‐2). MV‐1 and FV were emitted prior to genitalia contact, whereas MS‐2 was emitted within the mounting and engagement phases. Statistical analysis revealed significant transitions in behavioral phases for couples that achieved mating. By analyzing the walking behavior, there was an inverse relationship between motility and signal emission when comparing the two sexes, which suggests that males might engage in a form of searching behavior. These findings provide insight into the crucial role of vibrational communication to achieve mating in B. hilaris. [ABSTRACT FROM AUTHOR]

Published

2024

19. Arthropod Pests, Nematodes, and Microbial Pathogens of Okra (Abelmoschus esculentus) and Their Management—A Review.

Author

Ounis, Samara, Turóczi, György, and Kiss, József

Subjects

*LEAF spots, *TWO-spotted spider mite, *CROPS, *MOSAIC diseases, *VERTICILLIUM wilt diseases, *ARTHROPOD pests, *TOMATO yellow leaf curl virus

Abstract

Okra (Abelmoschus esculentus) is an important agricultural crop of the Malvaceae family, cultivated across tropical, subtropical, and warm temperate regions. However, okra production faces numerous challenges from diverse pest species, including insects, nematodes, arachnids, and mites, that significantly reduce its yield. Major economic pests include the cotton aphid, cotton spotted bollworm, Egyptian bollworm, cotton mealybug, whitefly, cotton leafhopper, cotton bollworm, two-spotted spider mite, root-knot nematode, reniform nematode, cotton leaf roller, and flea beetle. Additionally, less prevalent pests such as the blister beetle, okra stem fly, red cotton bug, cotton seed bug, cotton looper, onion thrips, green plant bug, and lesion nematode are also described. This review also addresses fungal and oomycete diseases that present high risks to okra production, including damping-off, powdery mildew, Cercospora leaf spot, gray mold, Alternaria leaf spot and pod rot, Phyllosticta leaf spot, Fusarium wilt, Verticillium wilt, collar rot, stem canker, anthracnose, and fruit rot. In addition to these fungal diseases, okra is also severely affected by several viral diseases, with the most important being okra yellow vein mosaic disease, okra enation leaf curl disease, and okra mosaic disease, which can cause significant yield losses. Moreover, okra may also suffer from bacterial diseases, with bacterial leaf spot and blight, caused primarily by Pseudomonas syringae, being the most significant. This manuscript synthesizes the current knowledge on these pests. It outlines various management techniques and strategies to expand the knowledge base of farmers and researchers, highlighting the key role of integrated pest management (IPM). [ABSTRACT FROM AUTHOR]

Published

2024

20. Harmonizing pest control and beneficial organism conservation in sunflower ecosystems through integrated pest management.

Author

Mukhtar, Yousra and Shankar, Uma

Subjects

*INSECT pests, *PEST control, *SPODOPTERA littoralis, *EMAMECTIN benzoate, *INTEGRATED pest control, *PHEROMONE traps

Abstract

Sunflower, a highly cross-pollinated crop, relies significantly on both Apis and non-Apis bees for pollination. However, insect pests often necessitate pest management practices, which, while targeting pests, inadvertently disrupt pollinator foraging and visitation, resulting in reduced yields. Recognizing this, the impact of pest management modules on sunflower cultivation was studied, focusing on major insect pests, pollinators, and natural enemies. Over a two-year study, conducted at Sher-e-Kashmir University of Agricultural Sciences and Technology of Jammu (SKUAST-J), two major insect pests, Helicoverpa armigera, and Spodoptera litura (Noctuidae: Lepidoptera), alongside twenty-five pollinating bee species and five natural enemies were recorded within the sunflower ecosystem. Four pest management modules (M-I: deep plowing + hand picking + pheromone traps @ 4/acre + bird perches @ 10/acre + alternative spray of Bacillus thuringiensis @2 ml/lit and Spinosad 45 SC @0.2 ml/lit; M-II: deep plowing + hand picking + pheromone traps @ 4/acre + bird perches @ 10/acre + blanket spray of Neem oil @5 ml/lit and Beauvaria bassiana @ 2 ml/lit; M-III: deep plowing + hand picking + pheromone traps @ 4/acre + bird perches @ 10/acre + alternative spray of emamectin benzoate 5 SG @ 0.4 g/lit + chlorantraniliprole 18.5 SC @0.3 ml/lit; M-IV: control) were evaluated for their efficacy against major insect pests, bee visitation, and natural enemy populations. Module-III emerged as the most effective, reducing larval counts of H. armigera and S. litura by 81.05% and 82.98% over the control, respectively, comparable to Module-I. However, bee visitation varied among modules, with Module-III consistently exhibiting the lowest mean values and substantial reductions compared to the control (56.73%). Dynamics of natural enemies revealed significantly higher predator populations and parasitization rates in modules using non-synthetic chemical insecticides, namely Module-IV (control), Module-I, and Module-II, compared to Module-III. Seed yield analysis highlighted Module-I as the most influential, showcasing a 215.95% increase over the control, underscoring its agronomic and economic superiority (cost–benefit ratio: 1:1.89). These findings emphasize the importance of integrating non-synthetic chemical insecticides into pest management strategies to effectively combat major insect pests, yielding higher returns while maintaining harmony among pollinator and natural enemy populations. [ABSTRACT FROM AUTHOR]

Published

2024

21. Identification of Aggregation Pheromone as an Attractant for Odontothrips loti, A Serious Thrips Pest on Alfalfa.

Author

Li, Xiaowei, Cheng, Jianghui, Han, Haibin, Kirk, William D.J., O'Brien, Matthew, Wang, Likun, Chen, Limin, Zhang, Haixia, Zhang, Zhijun, Ullah, Farman, Desneux, Nicolas, and Lu, Yaobin

Subjects

*GAS chromatography/Mass spectrometry (GC-MS), *PLANT viruses, *PRODUCTION losses, *SEMIOCHEMICALS, *THRIPS

Abstract

Odontothrips loti (Haliday) (Thysanoptera: Thripidae) is one of the most serious pests on alfalfa, causing direct damage by feeding and indirect damage by transmitting plant viruses. This damage causes significant loss in alfalfa production. Semiochemicals offer opportunities to develop new approaches to thrips management. In this study, behavioral responses of female and male adults of O. loti to headspace volatiles from live female and male conspecifics were tested in a Y-tube olfactometer. The results showed that both male and female adults of O. loti were attracted to the odors released by conspecific males but not those released by females. Headspace volatiles released by female and male adults were collected using headspace solid-phase microextraction (HS-SPME). The active compound in the volatiles was identified by gas chromatography-mass spectrometry (GC-MS). The analysis showed that there was one major compound, (R)-lavandulyl (R)-2-methylbutanoate. The attractive activity of the synthetic aggregation pheromone compound was tested under laboratory and field conditions. In an olfactometer, both male and female adults showed significant preference for synthetic (R)-lavandulyl (R)-2-methylbutanoate at certain doses. Lures with synthetic (R)-lavandulyl (R)-2-methylbutanoate significantly increased the trap catches of sticky white traps at doses of 40–80 µg in the field. This study confirmed the production of aggregation pheromone by O. loti male adults and identified its active compound as (R)-lavandulyl (R)-2-methylbutanoate, providing a basis for population monitoring and mass trapping of this pest. [ABSTRACT FROM AUTHOR]

Published

2024

22. Biological and Chemical Management of Aspergillus carbonarius and Ochratoxin A in Vineyards.

Author

Iliadi, Maria K., Varveri, Maria, and Tsitsigiannis, Dimitrios I.

Subjects

*FUNGICIDE resistance, *BIOLOGICAL pest control agents, *PLANT products, *DISEASE management, *COMMERCIAL agents, *GRAPE harvesting

Abstract

Ochratoxin A (OTA) is a widely distributed mycotoxin and potent carcinogen produced by several fungal genera, but mainly by Aspergillus carbonarius. Grape contamination occurs in vineyards during the period between veraison and pre-harvest, and it is the main cause of OTA's presence in wine. The aim of the current study was the evaluation of 6 chemical and 11 biological plant protection products (PPPs) and biocontrol agents in commercial vineyards of the two important Greek white wine varieties cv. Malagousia and cv. Savatiano. The PPPs were applied in a 4-year vineyard study as single treatments or/and in combinations as part of IPM systems. Subsequently, nine strains of Aspergillus carbonarius were investigated for their sensitivity against seven active compounds of synthetic fungicides. During the multi-year field trials, various novel management systems, including consortia of biocontrol agents, were revealed to be effective against Aspergillus sour rot and OTA production. However, expected variability was observed in the experimental results, indicating the dynamic character of biological systems and highlighting the possible inconsistency of PPPs' efficacy in a changing environment. Furthermore, the IPM systems developed effectuated an optimized control of A. carbonarius, leading to 100% inhibition of OTA contamination, showing the importance of using both chemical and biological PPPs for disease management and prevention of fungal fungicide resistance. Finally, the majority of A. carbonarius tested strains were found to be sensitive against the pure active compounds used (fludioxonil, azoxystrobin, chlorothalonil, tebuconazole, cyprodinil, pyrimethanil and boscalid), with only a few exceptions of developed resistance towards boscalid. [ABSTRACT FROM AUTHOR]

Published

2024

23. Indigenous pest management practices in rice ecosystem of Assam, India.

Author

Barman, Indrajit, Sarma, Arup Kumar, and Bora, Budha

Abstract

The indigenous pest management practices (IPMPs) adopted in rice farming in Assam were identified along with the farmers' perception levels on their efficacy and the scientific rationality as judged by the agricultural scientists. Data were collected from 120 farmers of Nalbari district and validated by 25 scientists of Assam Agricultural University, Jorhat. The result reveals that out of 33 identified practices, - 6 are highly effective and 10 are moderately effective as perceived by the farmers. A total of 21 practices have been rated to be rational by most of the scientists. Out of the 8 plant-origin IPMPs, all were rational with high and medium efficacy score, whereas out of 16 cultural IPMPs, only 6 (37.5%) were rational with only 2 practices with high and medium efficacy. No botanical practice was judged as irrelevant by any scientist. The effective and rational practices may be validated further in other agro-climatic regions in order to popularize them as a part of Integrated Pest Management module. The rational IPMPs can also be screened to assess its efficacy against the recently invaded crop-pests in Assam. [ABSTRACT FROM AUTHOR]

Published

2024

24. Evaluation of Fulgoraecia melanoleuca (Fletcher) (Lepidoptera: Epipyropidae) Releases for the Management of Pyrilla perpusilla (Walker) (Hemiptera: Lophopidae) on Sugarcane in Punjab, India.

Author

Augustine, Neethu Maria, Shera, P. S., Kumar, Rajinder, and Sharma, Sudhendu

Abstract

Fulgoraecia melanoleuca (Fletcher) is an important ecto-parasitoid of Pyrilla perpusilla (Walker) nymphs and adults. The study aimed to standardize the augmentative releases of F. melanoleuca life stages (eggs and cocoons) for eco-friendly management of P. perpusilla in sugarcane crop. The releases of F. melanoleuca cocoons (2000, 4000, and 6000 cocoons ha−1) and eggs (0.2, 0.4, and 0.6 million eggs ha−1) were compared with chemical control (chlorpyriphos 20 EC @1500 ml ha−1) and untreated control. Two releases were carried out at monthly interval during 1st week of August and 1st week of September. The pyrilla population decreased progressively with increase in released cocoons (2000, 4000, and 6000 ha−1) and eggs (0.2, 0.4, and 0.6 million ha−1). The augmentative releases play a noteworthy role in increasing the parasitoid count (egg masses, cocoons and adults) in the released plots. Overall, the parasitism (nymph + adult) increased with increase in doses and it was significantly higher when parasitoids were released at higher doses, i.e. 0.6 million eggs ha−1 (52.80%) and 6000 cocoons ha−1 (50.60%). However, chlorpyriphos 20 EC (1500 ml ha−1) was found to be highly detrimental to the parasitoid as no parasitism was observed in insecticide-sprayed plots. In conclusion, two releases of F. melanoleuca parasitoid (0.6 million eggs ha−1 or 6000 cocoons ha−1) at monthly interval (1st week of August and 1st week of September) proved better due to higher parasitism rate, increase in parasitoid population, and reduction in pyrilla population and also rendered higher cane yield and better juice quality. The findings will help in the eco-friendly management of P. perpusilla in sugarcane. [ABSTRACT FROM AUTHOR]

Published

2024

25. New Methods and Challenges for IPM in Archives, Modern and Historic Libraries.

Author

Querner, Pascal and Biebl, Stephan

Subjects

EXTREME weather, INSECT larvae, TECHNOLOGICAL innovations, WAREHOUSES, INSECT pests

Abstract

Copyright of Journal of Paper Conservation is the property of Taylor & Francis Ltd and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

26. Effects of Biorational Approaches and Synthetic Pesticides on Fall Armyworm Management and Arthropod Diversity in Maize.

Author

Jalali, Ahmad Ibrahim, Ali, Mudssar, Hammad, Hafiz Mohkum, and Ahmad Khan, Fawad Zafar

Abstract

Fall armyworm has emerged as a major pest of maize in Pakistan. Multiple fall armyworm management options exist, but their consequences for non-target arthropods in Pakistan have been underreported. Keeping in view this gap, current experiments, using the randomized complete block design, compared the effectiveness of synthetic pesticides and biorational options (including dried plant powders and sand mixtures, and eucalyptus based biopesticides) on fall armyworm control, as well as their effects on non-target fauna. The results showed that fall armyworm damage was lowest in synthetic pesticide treatment, followed equally by eucalyptus-based biopesticide, sand mixtures of neem, red pepper, ash and turmeric, while the highest damage was recorded where no management was done. For the occurrence of the non-target arthropods during live observations, ants and whiteflies were significantly higher as compared to other groups. Overall, live observations showed higher arthropod abundance in biorational treatments as compared to synthetic insecticide treatment. The pitfall trapping differences showed significant differences in the insect orders captured. Moreover, the maize yield at the end of the trial was higher in synthetic pesticide treatments (field recommended doses) as compared to the plots managed using biorational approaches. Among biorational options, the yield of sand and mango wood ash mix showed a higher yield. The current evidence is useful for integrating biorational options into fall armyworm management, especially for smallholders. [ABSTRACT FROM AUTHOR]

Published

2024

27. Feeding performance of Brumoides suturalis (Fabricius) (Coleoptera: Coccinellidae) on cotton mealybug, Phenacoccus solenopsis Tinsley under laboratory conditions.

Author

Sharma, Ramnik and Sharma, Pushpendra K.

Subjects

FIRE ants, BEETLES, ADULTS, INSECTS, STARVATION, LADYBUGS

Abstract

This study aims to determine the feeding performance of grubs and adults of Brumoides suturalis (Fabricius) on the cotton mealybug, Phenacoccus solenopsis Tinsley. The experiments were conducted in the laboratory at 25.0±1.0°C temperature, 65±5% R.H., and a 14L:10D photoperiod with ten replicates under unstarved and starved conditions. When unstarved, the first instar grub, second instar grub, third instar grub, fourth instar grub, adult male, and adult female ingested at an average of 8.5±0.26, 12.6±0.33, 19.1±0.48, 38.2±0.60, 28.0±0.29, and 33.4±0.74 mealybugs/insect/day, respectively. When exposed to starvation for 2 hours prior to the experiment, the mean consumption of the first instar grub, second instar grub, third instar grub, fourth instar grub, adult male, and adult female was recorded to be 9.2±0.09, 13.3±0.31, 20.1±0.42, 40.5±0.34, 30.0±0.50, and 34.3±0.25 mealybugs/insect/day, respectively. The study subsequently revealed that the fourth instar grub of B. suturalis is a voracious feeder of cotton mealybug, exhibiting the highest feeding potential among all the developmental stages. An adult female indicated higher feeding performance over the adult male. The starved grubs and adults consumed a higher number of mealybugs than unstarved or well-fed grubs and adults of B. suturalis. [ABSTRACT FROM AUTHOR]

Published

2024

28. Effect of various plant extracts against major insect pests and natural enemies in rice Oryza sativa L.

Author

Seni, Atanu and Ahmed, Absar

Subjects

PEST control, NEEM, BAEL (Tree), NILAPARVATA lugens, OLEANDER

Abstract

Extracts from Azadirachta indica , Lantana camara , Nerium oleander , Aegle marmelos , Allium sativum , Citrus limon were compared with two checks viz. Azadirachtin 1 EC and Acephate 95 SG for their efficacy against Nilaparvata lugens , Orseolia oryzae and natural enemies in cultivated rice during two consecutive wet seasons from 2022 to 2023. It was revealed that, mean rice yield was significantly higher in the A. indica and Acephate 95 SG treatments compared to the control. The A. indica treatment emerged as the best treatment against O. oryzae whereas, the A. marmelos treatment was found most promising against N. lugens. All the studied botanicals had less impact on natural enemies than synthetic chemical. The cost economics of major insect pests' management in rice revealed that Acephate 95 SG treatment recorded the highest Incremental Cost Benefit Ratio (1: 4.65) followed by A. indica (1: 3.74) and A. marmelos (1: 3.41). [ABSTRACT FROM AUTHOR]

Published

2024

29. Multi-year evaluation of an attract-and-kill strategy for apple maggot fly (Diptera: Tephritidae) in New England commercial apple orchards.

Author

Piñero, Jaime C, Godoy-Hernandez, Heriberto, and Leskey, Tracy C

Subjects

INSECTICIDE application, APPLE growing, TREE diseases & pests, CONTROL (Psychology), MAGGOTS, APPLE orchards, INSECTICIDES

Abstract

Previously developed behavioral approaches for controlling the apple maggot fly, Rhagoletis pomonella (Walsh) (Diptera: Tephritidae), include attract-and-kill (AK) systems such as perimeter trapping using either, odor-baited red sticky spheres or odor-baited, sticky-free attracticidal spheres with contoured tops that ensure the sustained release of both insecticide and feeding stimulant. Here, over a 3-year span in 26 commercial apple orchards across Massachusetts, New Hampshire, and Maine, we evaluated the effectiveness of a novel AK strategy for R. pomonella management. Synthetic apple blend lures were deployed on perimeter-row trees to attract the pest, while perimeter-row insecticide sprays blended with 2% sugar, a known phagostimulant, served as the lethal component. Comparatively, grower standard (GS) blocks received full-block insecticide sprays devoid of sugar and lures. Monitoring revealed that red sticky spheres in AK blocks captured significantly more R. pomonella adults than unbaited monitoring spheres in GS blocks. Penetration of R. pomonella into block interiors remained consistently low and statistically similar for both AK and GS blocks. Whole-block infestation levels showed no significant difference between the 2 management approaches. Notably, insecticide application in AK blocks was reduced by 75%, 64.7%, and 64.2% in 2019, 2020, and 2021, respectively, compared with GS blocks. This grower-friendly AK approach could be integral to a reduced insecticide spray-based strategy for apple cultivation in the northeastern United States. [ABSTRACT FROM AUTHOR]

Published

2024

30. Specialized predatory strategies by Phytoseiulus macropilis and Neoseiulus californicus: implications for optimal biological control of Tetranychus urticae.

Author

Siebert, João Carlos, Schneider, Julia Renata, Wurlitzer, Wesley Borges, Granich, Juliana, Rodighero, Luana Fabrina, Lambert, Gustavo Henrique, Ferla, Noeli Juarez, and Lobo, Eduardo Alcayaga

Abstract

Tetranychus urticae Koch (Acari: Tetranychidae) is a key pest in various crops. Biological control with Neoseiulus californicus (McGregor) and Phytoseiulus macropilis Banks (Acari: Phytoseiidae) is promising, but predator–prey interactions need to be better understood. The present study was designed to compare the consumption rate and functional responses (FRs) of N. californicus and P. macropilis at low densities of T. urticae. To compare the FRs of N. californicus vs. P. macropilis on T. urticae, five densities (3, 5, 10, 15, 20 individuals per trial) of this prey were offered at adult stage. The prey was added to the experimental arena containing a single predatory mite that was allowed four days (i.e., 96 h) to consume prey without replacement of consumed individuals. Observations were carried out once a day (24 h, 48 h, 72 h and 96 h). The numbers of prey consumed, and eggs laid were counted every 24 h. Results indicate that both predator curves align with a Type II FR. P. macropilis was faster at attacking T. urticae but slower at handling it. Lower egg production by T. urticae indicates that P. macropilis seems to be more effective in controlling this prey compared to N. californicus. Conversely, N. californicus was faster at handling prey and performed comparably to P. macropilis at higher prey densities. Therefore, depending on the specific circumstances of pest infestation, both predators present viable options for the biological control of T. urticae, with P. macropilis excelling in low-density scenarios and N. californicus offering effectiveness at slightly higher densities. [ABSTRACT FROM AUTHOR]

Published

2025

31. Sustainable farming practices and soil health: a pathway to achieving SDGs and future prospects

Author

Pooja Sharma, Parul Sharma, and Nitika Thakur

Subjects

Sustainable farming, Sustainable development goals (SDG’s), Soil health, Precision agriculture, Carbon farming, IPM, Environmental sciences, GE1-350

Abstract

Abstract Sustainable farming practices aim to produce agricultural products at a low environmental cost, ensuring food availability for future generations. These approaches combine the production of agricultural crops and livestock for site-specific uses, with an emphasis on long-term objectives including satisfying the food supply worldwide, improving the environment, making the most efficient use of resources and boosting the welfare of farmers and society as a whole. Sustainability in farming is mostly dependent on soil health, which is the soil’s capacity to function within ecological and land-use boundaries. It enhances general wellness, maintains the purity of the air and water, and supports biological productivity. The depletion of soil functions brought about by modern agricultural intensification has an impact on ecosystem services and long-term productivity. The goal of sustainable farming is to raise fertility and organic matter in the soil. Key practices include carbon farming, conservation agriculture, integrated pest management (IPM), and precision farming. In order to support sustainable crop production, these techniques improve soil fertility, structure, and biodiversity. Going forward, research should concentrate on developing novel approaches to tackle the issues of climate change and global food security.

Published

2024

32. A Low-Cost Remotely Configurable Electronic Trap for Insect Pest Dataset Generation.

Author

León-García, Fernando, Palomares, Jose M., Yousef-Yousef, Meelad, Quesada-Moraga, Enrique, and Martínez-Ruedas, Cristina

Subjects

IMAGE quality analysis, TRANSFER functions, INSECT pests, INTEGRATED pest control, INSECT populations

Abstract

The precise monitoring of insect pest populations is the foundation of Integrated Pest Management (IPM) for pests of plants, humans, and animals. Digital technologies can be employed to address one of the main challenges, such as reducing the IPM workload and enhancing decision-making accuracy. In this study, digital technologies are used to deploy an automated trap for capturing images of insects and generating centralized repositories on a server. Subsequently, advanced computational models can be applied to analyze the collected data. The study provides a detailed description of the prototype, designed with a particular focus on its remote reconfigurability to optimize repository quality; and the server, accessible via an API interface to enhance system interoperability and scalability. Quality metrics are presented through an experimental study conducted on the constructed demonstrator, emphasizing trap reliability, stability, performance, and energy consumption, along with an objective analysis of image quality using metrics such as RMS contrast, Image Entropy, Image sharpness metric, Natural Image Quality Evaluator (NIQE), and Modulation Transfer Function (MFT). This study contributes to the optimization of the current knowledge regarding automated insect pest monitoring techniques and offers advanced solutions for the current systems. [ABSTRACT FROM AUTHOR]

Published

2024

33. Advancing Sustainable Agriculture: Potential of Life Story Strategies of Solitary and Gregarious Microgastrinae Parasitoids (Hymenoptera: Braconidae) to Enhance Biological Control.

Author

Žikić, Vladimir, Fernández-Triana, José L., Trajković, Aleksandra, and Lazarević, Maja

Abstract

The life history strategies of solitary and gregarious Microgastrinae parasitoids are both valued for their potential in biological control, but they have rarely been directly compared to fully understand their roles in integrated pest management (IPM) programs. This paper provides a detailed comparison of these two strategies, focusing on critical traits, such as host specialisation, mating behaviour, and the mechanisms used to overcome host immune defences. Instead of treating these strategies holistically, the study isolates and examines each trait while also identifying synergistic interactions and their underlying causes. Key IPM success factors, including parasitism efficiency, host acceptance, and susceptibility to natural enemies, are defined to assess the effectiveness of each strategy. The results show that while gregarious parasitoids tend to have broader host ranges and higher fecundity, solitary parasitoids offer greater host specificity and reduced vulnerability to predators. Despite both strategies receiving similar overall performance scores, this study identifies monophagy as a particularly significant factor, offering insight into why some IPM programs succeed more effectively than others under seemingly identical environmental conditions. This study highlights host specificity and ecological adaptability as essential for effective, sustainable pest management, supporting the integration of both parasitoid types to enhance IPM efficacy. [ABSTRACT FROM AUTHOR]

Published

2024

34. Prohydrojasmon treatment of Brassica juncea alters the performance and behavioural responses of the cabbage aphid, Brevicoryne brassicae.

Author

Ali, Jamin, Xiao, Feng, Alam, Aleena, Li, Liu Jia, Ji, YunLiang, Chao, Wu Hai, Weibo, Qin, Xie, Aocong, Zengyi, Bi, M. Abdel Hafez, Mogeda, Ghramh, Hamed A., Khan, Khalid Ali, Tonğa, Adil, and Chen, Rizhao

Subjects

*SUSTAINABLE agriculture, *INSECT pests, *BRASSICA juncea, *PEST control, *PLANT life cycles

Abstract

Plants encounter a myriad of biotic and abiotic stresses throughout their life cycle, among which aphids pose a significant challenge as herbivorous insect pests. Aphids cause both direct damage through feeding and indirect damage by transmitting viruses. Given the growing concerns about insecticide resistance and the non‐target effects of synthetic insecticides, there is an urgent need to develop novel pest control strategies that are dependent on plant defence strategies. In this study, we assessed the effects of exogenous prohydrojasmon (PDJ), a derivative of jasmonic acid, at 24 h (PDJ24) and 48 h (PDJ48) post‐treatment on the cabbage aphid, Brevicoryne brassicae L. (Hemiptera: Aphididae), feeding on Brassica juncea L. (Brassicaceae). The impact of PDJ treatments was assessed by conducting performance bioassays (survival and fecundity) and behavioural bioassays (settlement and attraction to volatiles in an olfactometer). Our findings reveal that the exogenous application of PDJ did not significantly affect on the performance and behaviour of B. brassicae at 24‐h post‐treatment. However, PDJ treatment significantly reduced the performance of B. brassicae at 48‐h post‐treatment, and affected the behaviour in terms of reduced settlement on and attraction to volatiles of PDJ‐treated plants. These results suggest that PDJ has the potential to effectively induce defences in Brassica against sucking pests. This study provides valuable insights into possibility of employing PDJ as an alternative approach for sustainable pest management in agriculture. [ABSTRACT FROM AUTHOR]

Published

2024

35. Occurrence of Bemisia tabaci (Gennadius) (Hemiptera: Aleyrodidae) Middle East–Asia Minor 1 (MEAM1) and Mediterranean (MED) in Commercial Fields of Solanum lycopersicum in Brazil.

Author

de Lima Alvarez, Daniel, Santos, Daniel Mariano, Ikuno, Pedro Hiroshi Passos, da Cruz Martines, Caroline, Benvenga, Sérgio Roberto, Müller, Cristiane, Krause-Sakate, Renate, and de Oliveira, Regiane Cristina

Subjects

*SWEETPOTATO whitefly, *POPULATION dynamics, *HEMIPTERA, *INSECT collection & preservation, *CITIES & towns, *TOMATOES

Abstract

The tomato (Solanum lycopersicum) is an important crop to the economy of Brazil, and the whitefly Bemisia tabaci (Gennadius) (Hemiptera: Aleyrodidae) is one of the limiting factors responsible for reducing its yields. These insects are part of a cryptic species group present across almost the entire globe. The most relevant cryptic species in the world are B. tabaci MEAM1 and MED due to their capability to adapt and cause damage to vegetables, grain, and ornamental crops. The arrival of MED in Brazil through the state of São Paulo represents risks to farmers in the region due to the difficulty in managing these insects. This study assessed the occurrence of both species in tomato crops in the southeastern region of Brazil in 2020 and 2021. An amount of 79 samples containing 767 insects were collected throughout the study period, and in the cities of Sumaré (SP) and Monte Mor (SP), several samples were collected from the same location throughout the year. The insects were stored and sent for molecular analysis. The results showed an increase in MED compared to MEAM1. The presence of MED in the Minas Gerais samples was not recorded. However, a higher percentage of MED was observed in the state of São Paulo, which was detected in the municipalities of Sumaré and Monte Mor. These results possibly indicate that MED could be starting to stabilize in open tomato fields in Brazil. [ABSTRACT FROM AUTHOR]

Published

2024

36. PLANT ESSENTIAL OILS TO THE RESCUE-AN EPIC BATTLE WITH BIOPESTICIDES FOR PEST CONTROL IN AGRICULTURE.

Author

RUBIKA, R., PRABHU, T., SHENBAGAVALLI, S., RAJANGAM, J., ANITHA, T., RAMAR, A., and VASANTHKUMAR, S. S.

Subjects

SUSTAINABLE agriculture, VEGETABLE oils, PLANT extracts, ESSENTIAL oils, BIOLOGICAL insecticides, BIOPESTICIDES

Abstract

Overuse of synthetic pesticides can harm the ecosystem, develop insect resistance, and endanger a variety of non-target species, such as humans, animals, and plants, if they are not applied based on the safety instructions. The agricultural and public health sectors have begun to advocate bioinsecticides as a substitute for synthetic insecticides. Plant-based biopesticides are becoming more and more popular due to their selective targeting, low environmental impact, biodegradability, and safety for non-target species. This article summarizes recent research examining the application of essential oils as biopesticides and discusses the challenges associated with their use. Prospects for bioinsecticides application in modern agriculture are available in low number of commercial biopesticides based on plant essential oils. They are effective against a wide range of insects due to their diverse mechanisms of action and points of action. Many problems, such as declining stability and efficacy of essential oils in different environmental settings, need to be managed before plant essential oils are extensively employed as commercial biopesticides. Plant-based alternatives are thus already beginning to replace xenobiotics; these bioproduct-based companies will broaden their product offerings and replace xenobiotic usage with plant-based biopesticides. [ABSTRACT FROM AUTHOR]

Published

2024

37. Spatial distribution and fixedprecision sequential sampling plans for Popillia japonica (Coleoptera: Scarabaeidae) adults in primocane raspberry: influence of foliar insecticides.

Author

Toninato, Adam G., Burkness, Eric C., and Hutchison, William D.

Subjects

*INSECTICIDE application, *INTEGRATED pest control, *FRUIT growers, *FARMERS, *SCARABAEIDAE

Abstract

The Japanese beetle, Popillia japonica Newman (Coleoptera: Scarabaeidae), an invasive species from northern Japan, was first detected in Minnesota in 1968. According to fruit growers and theMinnesota Department of Agriculture, population size and feeding damage has been an increasing concern since 2010. Based on trapcatch data, populations have recently exceeded 4,000 beetles/trap/week during July-August near raspberry fields, and can increase by an order of magnitude within 7-10 days. The primary goals of this study were to assess the spatial distribution of P. japonica adults in raspberry, and to develop and validate a practical fixed-precision sequential sampling plan for grower use. Taylor's Power Law (TPL) regression was used to characterize the beetle's spatial pattern in research plots and commercial fields, either with or without insecticide applications. We then used Green's plan to develop an enumerative sequential sampling plan to estimate P. japonica density in primocane raspberry. Beetle population data were collected at two locations in southern Minnesota, including the Rosemount Research andOutreach Center, and a commercial field near Forest Lake. The TPL results, via slope comparisons, indicated no significant differences in P. japonica spatial pattern between insecticide treated plots versus untreated plots, or among 4 different insecticides (P>0.05). Utilizing all spatial pattern data, we characterized the distribution of P. japonica beetles to be highly aggregated in raspberry, with TPL slopes ranging from b = 1.38 to 1.55; all slopes were found to be >1.0. Although the slopeswere not significantly different, we accounted for variability in spatial pattern by using 33 independent data sets, and the Resampling for Validation of Sampling Plans (RVSP) model to validate a sampling plan with a final average precision level of 0.25 (SEM/mean), recommended for integrated pest management (IPM) purposes. The final sampling plan required an average sample number of only 15, 1-m-row samples, while providing high relative net precision (RNP), and thus a cost-effective, efficient sample plan for growers. [ABSTRACT FROM AUTHOR]

Published

2024

38. Spatial distribution and fixed-precision sequential sampling plans for Popillia japonica (Coleoptera: Scarabaeidae) adults in primocane raspberry: influence of foliar insecticides.

Author

Toninato, Adam G., Burkness, Eric C., and Hutchison, William D.

Subjects

INSECTICIDE application, INTEGRATED pest control, FRUIT growers, FARMERS, SCARABAEIDAE

Abstract

The Japanese beetle, Popillia japonica Newman (Coleoptera: Scarabaeidae), an invasive species from northern Japan, was first detected in Minnesota in 1968. According to fruit growers and theMinnesota Department of Agriculture, population size and feeding damage has been an increasing concern since 2010. Based on trapcatch data, populations have recently exceeded 4,000 beetles/trap/week during July-August near raspberry fields, and can increase by an order of magnitude within 7-10 days. The primary goals of this study were to assess the spatial distribution of P. japonica adults in raspberry, and to develop and validate a practical fixed-precision sequential sampling plan for grower use. Taylor's Power Law (TPL) regression was used to characterize the beetle's spatial pattern in research plots and commercial fields, either with or without insecticide applications. We then used Green's plan to develop an enumerative sequential sampling plan to estimate P. japonica density in primocane raspberry. Beetle population data were collected at two locations in southern Minnesota, including the Rosemount Research andOutreach Center, and a commercial field near Forest Lake. The TPL results, via slope comparisons, indicated no significant differences in P. japonica spatial pattern between insecticide treated plots versus untreated plots, or among 4 different insecticides (P>0.05). Utilizing all spatial pattern data, we characterized the distribution of P. japonica beetles to be highly aggregated in raspberry, with TPL slopes ranging from b = 1.38 to 1.55; all slopes were found to be >1.0. Although the slopeswere not significantly different, we accounted for variability in spatial pattern by using 33 independent data sets, and the Resampling for Validation of Sampling Plans (RVSP) model to validate a sampling plan with a final average precision level of 0.25 (SEM/mean), recommended for integrated pest management (IPM) purposes. The final sampling plan required an average sample number of only 15, 1-m-row samples, while providing high relative net precision (RNP), and thus a cost-effective, efficient sample plan for growers. [ABSTRACT FROM AUTHOR]

Published

2024

39. Pest control strategies for Leucinodes orbonalis Guene-a review.

Author

Saraswathi, S., Sowrabha, R., Tannavi, K., and Manjulakumari, D.

Subjects

*TRANSGENIC plants, *RNA interference, *PEST control, *SMALL interfering RNA, *EGGPLANT

Abstract

Leucinodes orbonalis is a monophagous pest on brinjal. However, it is also being reported that it may switch to other Solanaceae plants under the stress of the non-availability of the host for feeding. The larvae feed inside the fruit and reduce its nutritive value, and yield loss may reach up to 90%. The pest has discouraged farmers from growing brinjal, which is a profitable crop labelling it as a devastating pest of brinjal. The management methods use biological means such as the use of natural enemies, and other approaches such as sex pheromones, neuropeptides, improvement of genetically modified crops, and RNA interference tools. Though these methods have faced some challenges in implementation, are harmless, supportable, and also species-specific. In the current review, we have discussed the cultural practices, chemical control, and biological methods that have been used in the past or are currently in practice for pest management. Apart from this, we have also discussed a few of the quite recent but hopeful technologies, that can be thought for a tool for the control of L. orbonalis. [ABSTRACT FROM AUTHOR]

Published

2024

40. Major Insect Pests of Sweet Potatoes in Brazil and the United States, with Information on Crop Production and Regulatory Pest Management.

Author

Cabral, Maria J. S., Haseeb, Muhammad, and Soares, Marcus A.

Subjects

*NUTRITIONAL value, *PEST control, *RURAL development, *FOOD crops, *SWEET potatoes, *AGRICULTURAL productivity

Abstract

Simple Summary: The sweet potato is an important food crop grown and traded in many regions of the world, especially in tropical, subtropical, and temperate regions. Several insect pests feed on sweet potatoes in open fields and storage. As a result, the yield and quality are generally impacted. In addition, some of the insect pests are of regulatory importance. Indeed, the United States and Brazil are subject to stringent pest and quarantine regulations concerning sweet potatoes, encompassing the plant's roots and aerial parts. This review describes the current status of sweet potato regulations and management options in the United States and Brazil. We also describe research on sweet potato production, monitoring, biological control, and regulatory pest management information that may relieve these problems. This can help small and large farmers produce sweet potatoes in the United States and Brazil. The sweet potato [Ipomoea batatas (L.) Lam] is considered one of the most important crops in the world as food, fodder, and raw material for starch and alcohol production. Sweet potato consumption and demand for its value-added products have increased significantly over the past two decades, leading to new cultivars, expansion in acreage, and increased demand in the United States and its export markets. Due to its health benefits, sweet potato production has multiplied over the past decade in Brazil, promoting food security and economic development in rural areas. Their adaptability and nutritional value make them a food of great importance for Brazil. As pest attacks and disease infection are the main limiting aspects that often cause yield loss and quality degradation in sweet potatoes, there is a great demand to develop effective defense strategies to maintain productivity. There is a critical need for research into non-pesticide control approaches that can provide safe, cost-effective, sustainable, and environmentally friendly pest and disease management techniques. Pests which feed on roots have trade implications worldwide. For example, sweet potato tuber shipments infested with the sweet potato weevil are generally not allowed for trade in North and South America. [ABSTRACT FROM AUTHOR]

Published

2024

41. Insights into Notonecta maculata biology and its consumptive and non‐consumptive effects on Aedes albopictus.

Author

Farina, Priscilla, Bedini, Stefano, Abenaim, Linda, and Conti, Barbara

Subjects

*BIOLOGICAL rhythms, *MOSQUITOES, *DIPTERA, *HEMIPTERA, *TRANSITION to adulthood, *PREDATION

Abstract

Notonecta species (Hemiptera: Notonectidae) are generalist true predators with a strong impact on the size, structure, and richness of the aquatic communities, particularly on mosquito populations. Juvenile and adult backswimmers not only prey on mosquito larvae (consumptive effect) but their presence can also deter the oviposition of gravid mosquito females (non‐consumptive effect). In this study, we selected a Western Palearctic backswimmer, Notonecta maculata Fabricius, as a predator and deterrent of the highly invasive and health‐threatening Asian tiger mosquito, Aedes albopictus (Skuse) (Diptera: Culicidae). In central Italy, N. maculata is univoltine and overwinters in the adult stage. Females lay eggs from February to the end of May, and the first new adults will emerge in late June; the complete nymphal development requires 44.5 ± 3.1 days. The number of Ae. albopictus larvae preyed on by N. maculata during its growth increases while developing, going from 0.03 ± 0.02 larvae per day for first instar nymphs to 21.38 ± 2.90 for mature adults. Furthermore, the presence of a single N. maculata adult in a mosquito ovitrap is enough to discourage the Ae. albopictus oviposition for up to 5 days. Limiting mosquito populations and, consequently, the transmission of viruses and parasites should be our main goal. Therefore, the integrated management of Ae. albopictus by the use of insecticides and a predator (such as backswimmer juveniles and adults), even if only in specific situations, may be promising and feasible. A more in‐depth knowledge of the biological cycle of N. maculata could help, consequently, to optimize its mass rearing. [ABSTRACT FROM AUTHOR]

Published

2024

42. Effects of Storage Conditions, Cultivars, and Production Systems on Fruit Decay Incidence of Sour Cherry (Prunus cerasus L.) Fruit after Shelf-Life Conditions.

Author

Sándor, Erzsébet, Mihály, Kata, Nagy, Antal, Pál, Károly, Peles, Ferenc, Zabiák, Andrea, Kovács, Csilla, Takács, Ferenc, Romanazzi, Gianfranco, and Holb, Imre J.

Subjects

*SOUR cherry, *CONTROLLED atmosphere packaging, *PEST control, *COLD storage, *FRUIT quality

Abstract

Sour cherry is a non-climacteric fruit that quickly loses its quality after harvest, so effective storage and packaging are essential to minimize postharvest decay. Our study aimed to (i) evaluate fruit decay incidence during shelf-life for both freshly harvested and six-week-cold-stored sour cherry fruits, comparing normal atmospheric conditions with modified atmosphere packaging across three sour cherry cultivars ('Érdi bőtermő', 'Újfehértói fürtös', and 'Petri'); and (ii) assess postharvest fruit decay incidence across the following three production systems: conventional, integrated pest management (IPM), and reduced IPM, for the cultivar 'Érdi bőtermő'. The results showed that modified atmosphere packaging effectively preserved or slightly increased fruit firmness (ranging from 27.1 to 46%) compared to control fruits across all cultivars. Fruit weight loss (ranging from 1.18 to 26.1%) was also significantly reduced under modified atmosphere packaging compared to normal atmospheric storage. Over a 14-day period, the decay incidence of harvested fruits consistently increased, with major losses from day 6 onward (ranging from 17.7 to 77.0% at shelf-life day 14) across all cultivars and years. After six weeks of normal atmospheric cold storage, decay incidence remained low (ranging from 0 to 9.4%) and was comparable across all cultivars. Both normal atmospheric and modified atmosphere packaging storage maintained sour cherry quality during cold storage, but the shelf-life of the fruits was significantly shorter at room temperature, regardless of the storage methods. Fruit decay incidence at harvest was highest in the reduced IPM system (ranging from 3.2 to 6.4%), significantly exceeding those observed in the conventional and IPM systems. In post-MAP cold storage, decay incidence followed the following order: conventional < IPM < reduced IPM, with significant differences observed only between the conventional and reduced IPM systems. In conclusion, our results suggest that sour cherries produced under conventional or IPM systems and stored in modified atmosphere packaging offer an effective postharvest strategy for preserving fruit quality. [ABSTRACT FROM AUTHOR]

Published

2024

43. A triple 3-phase fault-tolerant fractional slot concentric winding interior permanent-magnet machine with low space harmonics.

Author

Wang, Bo, Wei, Zihan, Yu, Haoyuan, Chen, Xiao, Cheng, Ming, and Hua, Wei

Subjects

*FAULT currents, *FINITE element method, *FAULT tolerance (Engineering), *TORQUE, *ROTORS

Abstract

Fractional slot concentric winding (FSCW) machine features with short end winding, high torque density and good fault tolerance. However, this type of machine suffers from abundant MMF harmonics which causes high iron loss and partial saturation, etc. Hence, majority of the FSCW adopts surface-mounted PM (SPM) rotor which have large effective airgap to minimize the influence of the MMF harmonics while the interior PM (IPM) rotor is rarely used. The SPM rotor tends to induce high PM flux linkage and cause large fault current when experiencing a short-circuit failure. As a result, this paper presents a triple 3-phase FSCW-IPM for fault-tolerant applications. The triple 3-phase windings facilitate the uninterrupted fault tolerant operation, the more even distributed windings also induce a more sinusoidal MMF which enables the application of IPM rotor. The IPM rotor reduces the PM usage while reluctance torque can be explored to compensate the PM torque reduction which improves the machine fault tolerance. As a result, the proposed machine owns good performance and excellent fault tolerance. The machine is investigated by electromagnetic and thermal finite element analysis and prototyping tests. Both findings confirm that the proposed triple 3-phase FSCW-IPM is a competitive solution for high reliability application. [ABSTRACT FROM AUTHOR]

Published

2024

44. Assessment of non‐target toxicity of insecticides on Ganaspis brasiliensis (Ihering) in laboratory and field conditions.

Author

Fellin, Lorenzo, Dal Zotto, Giovanni, Lisi, Fabrizio, Chiesa, Serena Giorgia, Saddi, Alberto, Fusillo, Matteo, Anfora, Gianfranco, Biondi, Antonio, Mori, Nicola, and Rossi Stacconi, Marco Valerio

Subjects

DROSOPHILA suzukii, PEST control, INTEGRATED pest control, TOPICAL drug administration, BIOLOGICAL pest control agents, INSECTICIDES

Abstract

Background: G1 strain Ganaspis brasiliensis (Ihering) has been recently released in both Europe and America as a biological control agent of the spotted wing drosophila, Drosophila suzukii (Matsumura). In initial phases of classical biological control programs, it becomes imperative to evaluate the susceptibility of parasitoids to insecticides, to identify the best alternatives to adopt in an integrated pest management and organic perspective. In this study, we evaluated lethal and sublethal effects of topical application of five different insecticides classes: neonicotinoids, diamides, pyrethroids, organophosphates and spinosyns. Additionally, we tested residual toxicity in field trials in vineyards and sweet cherry orchards. Results: Adult wasps' susceptibility to different insecticides' classes were consistent between laboratory and field. Spinosad exhibited the highest toxicity, with a median lethal concentration (LC50) of 0.00372 of the maximum field dose, and the highest knock‐down effect in field trials, causing 92.5 ± 5% of mortality at T0. λ‐cyhalothrin showed sublethal effects on both male and female insects' longevity when applied at LC30. In field trials, deltamethrin showed the highest persistence, causing significant parasitoid mortality up to 14 days after treatment. Conversely, cyantraniliprole was the least toxic active ingredient according to both topical and residual bioassays, even though its residues caused mortality up to 7 days after the treatment in the field. Conclusion: Our results indicate that spinosad and λ‐cyhalothrin are highly toxic to G. brasiliensis, making them incompatible with classical biological control programs. Cyantraniliprole exhibited lower toxicity, and may be considered a selective pesticide for the integrated management of D. suzukii. © 2024 The Author(s). Pest Management Science published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2024

45. Harvest sustainability assessments need rethinking under climate change: A ringed seal case study from Svalbard, Norway.

Author

Nater, Chloé R., Lydersen, Christian, Andersen, Magnus, and Kovacs, Kit M.

Subjects

POPULATION viability analysis, MARINE mammal populations, DEMOGRAPHIC surveys, RINGED seal, SEA ice

Abstract

Throughout the Arctic, ice‐affiliated marine mammals constitute local subsistence resources but detrimental effects of declines in their sea ice habitats create a need for harvest sustainability assessments in light of climate change. At the same time, empirical data required for thorough population analysis of these species are often sparse at best, as illustrated by the focal species in this study, ringed seals in Svalbard: the last population survey took place two decades ago (2002–2003), demographic data are limited to age, sex, and reproductive status of a small subset of shot individuals, and harvest reporting is patchy and incomplete. Data sparsity is one of the main reasons why potential biological removal (PBR) became a commonly used tool for assessing sustainability of marine mammal harvests. Herein, we calculated PBR for Svalbard ringed seals using both recommended default parameters and population‐specific parameters obtained from an integrated population model (IPM). PBR estimates were highly uncertain, suggesting the number of sustainably harvestable individuals could lie anywhere between 0 and 91, with a substantial chance of any harvest being unsustainable under current environmental conditions and trends. Subsequent population viability analyses (PVAs) further confirmed that the current harvest was likely unsustainable, even in a scenario in which sea ice conditions would not deteriorate (and therefore lower pup survival) further. However, uncertainty in population projections was high, and forecasts thus not ideal for formulating management advice. Better forecasts will require more frequent population surveys and obtaining more knowledge regarding the links between vital rates and environmental conditions, both of which may be facilitated by the adoption of novel technology (e.g., drone monitoring, genetic studies). The modeling framework created in this study can be readily updated with new data as they become available, and can serve as a tool for adaptive management of this and other marine mammal populations. [ABSTRACT FROM AUTHOR]

Published

2024

46. Sustainable farming practices and soil health: a pathway to achieving SDGs and future prospects.

Author

Sharma, Pooja, Sharma, Parul, and Thakur, Nitika

Subjects

AGRICULTURAL conservation, SUSTAINABLE agriculture, SUSTAINABILITY, CROPS, FOOD supply

Abstract

Sustainable farming practices aim to produce agricultural products at a low environmental cost, ensuring food availability for future generations. These approaches combine the production of agricultural crops and livestock for site-specific uses, with an emphasis on long-term objectives including satisfying the food supply worldwide, improving the environment, making the most efficient use of resources and boosting the welfare of farmers and society as a whole. Sustainability in farming is mostly dependent on soil health, which is the soil's capacity to function within ecological and land-use boundaries. It enhances general wellness, maintains the purity of the air and water, and supports biological productivity. The depletion of soil functions brought about by modern agricultural intensification has an impact on ecosystem services and long-term productivity. The goal of sustainable farming is to raise fertility and organic matter in the soil. Key practices include carbon farming, conservation agriculture, integrated pest management (IPM), and precision farming. In order to support sustainable crop production, these techniques improve soil fertility, structure, and biodiversity. Going forward, research should concentrate on developing novel approaches to tackle the issues of climate change and global food security. [ABSTRACT FROM AUTHOR]

Published

2024

47. Disease Management in Regenerative Cropping in the Context of Climate Change and Regulatory Restrictions.

Author

Newton, A.C., Creissen, H.E., Erreguerena, I.A., and Havis, N.D.

Abstract

Regenerative agriculture as a term and concept has gained much traction over recent years. Many farmers are convinced that by adopting these principles they will be able to address the triple crisis of biodiversity loss, climate change, and food security. However, the impact of regenerative agriculture practices on crop pathogens and their management has received little attention from the scientific community. Significant changes to cropping systems may result in certain diseases presenting more or less of a threat. Shifts in major diseases may have significant implications regarding optimal integrated pest management (IPM) strategies that aim to improve profitability and productivity in an environmentally sensitive manner. In particular, many aspects of regenerative agriculture change risk levels and risk management in ways that are central to effective IPM. This review outlines some of the challenges, gaps, and opportunities in our understanding of appropriate approaches for managing crop diseases in regenerative cropping systems. [ABSTRACT FROM AUTHOR]

Published

2024

48. Reproductive compatibility of two lines of Delia platura.

Author

Bush‐Beaupré, Allen, Savage, Jade, Fortier, Anne‐Marie, Fournier, François, MacDonald, Andrew, and Bélisle, Marc

Subjects

*INTEGRATED pest control, *AGRICULTURAL pests, *PEST control, *SEX ratio, *MAGGOTS, REPRODUCTIVE isolation

Abstract

Accurate identification of agricultural pests is a major component of integrated pest management. The seedcorn maggot, Delia platura (Meigen) (Diptera: Anthomyiidae), is a cosmopolitan polyphagous pest species that may be found in high numbers in numerous crops. Two morphologically identical genetic lines of D. platura (H and N) with distinct distributions were recently identified. To date, no study has investigated the reproductive compatibility of the two lines and thus the possibility that they may actually be two unique biological entities. A previous study described the reproductive traits of the two lines and suggested that H‐line females are highly selective toward the male with which they mate, pointing to a possible pre‐mating isolation mechanism between the lines. Using laboratory‐reared colonies originating from the Montérégie region in Québec, Canada, this study investigates the reproductive compatibility of the two D. platura lines. We found that only one of 30 H‐line females was inseminated by an N‐line male, further suggesting mate choice as a pre‐mating isolation mechanism between the lines. However, N‐line females were readily inseminated by H‐line males, suggesting a lack of pre‐mating isolation in this type of cross. The eggs laid by N‐line females mated with H‐line males had a lower hatching rate than the ones laid by females of intraline crosses, suggesting either post‐mating pre‐zygotic or post‐zygotic partial isolation. However, the larvae that did hatch had a comparable developmental success to those from intraline crosses in terms of survival and developmental time from larval hatching to adult emergence, pupal mass, and adult sex ratio, suggesting a lack of post‐zygotic isolation for these life stages. Considering the different biological traits of the two lines, we suggest the use of the 'biotype' terminology to designate the two biological entities and discuss their implications for integrated pest management. [ABSTRACT FROM AUTHOR]

Published

2024

49. Effect of Pelargonium graveolens essential oil and cyantraniliprole on the feeding behavior of Bemisia tabaciMED.

Author

dos Santos, Maria Clezia, Lima, Ana Paula, Farias, Adriano Pimentel, Santana, Alisson Silva, Prado Maluta, Nathalie, Lourenção, André Luiz, Antônio Bernardes, Wagner, Baldin, Edson Luiz Lopes, and Lopes, João Roberto Spotti

Subjects

*BOTANICAL insecticides, *PEST control, *INSECT pests, *SWEETPOTATO whitefly, *ESSENTIAL oils, *INSECTICIDES

Abstract

The sweet potato whitefly, Bemisia tabaci MED (Gennadius) (Hemiptera: Aleyrodidae), is highly harmful to solanaceous crops. The use of essential oils (EOs) is promising for the management of several insect pests, promoting both lethal and sublethal effects. This study aimed to evaluate the effects of sublethal concentrations of Pelargonium graveolens L'Her (Geraniaceae) EO on the feeding behavior of B. tabaci MED on tomato plants (Solanum lycopersicum L., Solanaceae). For this research, the electrical penetration graph (EPG) technique was used to monitor whitefly stylet activities on their host plants. Two sets of plants were previously sprayed with two concentrations of EO (the LC25 and LC50, which were determined in a mortality test), a third set was treated with the insecticide cyantraniliprole, and a fourth set received a control treatment. Our results indicate that the insecticide cyantraniliprole and the EO could both reduce the stylet feeding activity of B. tabaci MED, as well as reduce the number and duration of phloem sap ingestion events (waveform E2), which could avoid or reduce the transmission of viruses. Thus, the application of sublethal concentrations of P. graveolens EO, as well as exposure to cyantraniliprole, negatively affected the feeding behavior of B. tabaci MED. This information may contribute to the management of this pest and the reduction of the incidence of viruses in tomato production. [ABSTRACT FROM AUTHOR]

Published

2024

50. Naturally Abscised Fruitlets as a Potential Breeding Resource for Early Spring Buildup of Medfly Populations in Temperate Regions.

Author

Colacci, Marco, Sciarretta, Andrea, Lolletti, Daniele, Bernabei, Guido, Moraiti, Cleopatra A., Papadogiorgou, Georgia D., Rodovitis, Vasilis G., Papachristos, Dimitrios P., Milonas, Panagiotis, Antonatos, Spyridon, Papadopoulos, Nikos T., and Lux, Slawomir A.

Subjects

*MEDITERRANEAN fruit-fly, *INTEGRATED pest control, *SPRING, *NECTARINE, *PRESERVATION of fruit

Abstract

The Mediterranean fruit fly (medfly), Ceratitis capitata, is considered one of the most destructive fruit pests worldwide. Female medflies prefer to lay eggs in ripening, ripe, or overripe fruits. In deciduous orchards of temperate regions, fruitlets (juvenile fruits) of early cultivars could represent the earliest spring resource with a potential host function for medflies. However, little is known about the medfly female's ability to ovipositing and complete breeding in fruitlets. To clarify the possible role of fruitlets, the suitability of key-host fruitlets for the oviposition of medflies and the further development of immature stages were examined in laboratory conditions and an attempt was made to assess the degree of infection of fruitlets collected in the field. Additionally, the development of the overwintering medfly population and the putative use of fruitlets as a resource for early population growth were simulated using the PESTonFARM model optimized to reflect specific features of medfly biology and behavior. Our laboratory data demonstrate that nectarine and pear fruitlets can support the full development of medfly offspring. However, no medfly pupae were obtained from a sample of 14,000 fruitlets collected at the farm. The simulation showed that the sample number needed to detect with at least 95% certainty rare cases of medfly pupae or adults emerging from infected fruitlets is several tens of thousands, which is several times more than the actual number of fruitlets used in our study. Our research suggests that the fruitlets of some cultivated fruit species can potentially constitute a viable food resource for the development of the earliest generation of spring medflies, with implications for medfly Integrated Pest Management (IPM). [ABSTRACT FROM AUTHOR]

Published

2024