Your search keyword '"Whitefly"' showing total 6,817 results

1. Cotton leaf curl Multan virus subverts the processing of hydroxyproline-rich systemin to suppress tobacco defenses against insect vectors.

Author

Chen, Na, Zou, Chi, Pan, Li-Long, Du, Hui, Yang, Jing-Jing, Liu, Shu-Sheng, and Wang, Xiao-Wei

Subjects

*INSECT viruses, *SWEETPOTATO whitefly, *INSECT populations, *JASMONIC acid, *PLANT viruses

Abstract

Insect vector–virus–plant interactions have important ecological and evolutionary implications. The constant struggle of plants against viruses and insect vectors has driven the evolution of multiple defense strategies in the host as well as counter-defense strategies in the viruses and insect vectors. Cotton leaf curl Multan virus (CLCuMuV) is a major causal agent of cotton leaf curl disease in Asia and is exclusively transmitted by the whitefly Bemisia tabaci. Here, we report that plants infected with CLCuMuV and its betasatellite CLCuMuB enhance the performance of the B. tabaci vector, and βC1 encoded by CLCuMuB plays an important role in begomovirus–whitefly–tobacco tripartite interactions. We showed that CLCuMuB βC1 suppresses the jasmonic acid signaling pathway by interacting with the subtilisin-like protease 1.7 (NtSBT1.7) protein, thereby enhancing whitefly performance on tobacco plants. Further studies revealed that in wild-type plants, NtSBT1.7 could process tobacco preprohydroxyproline-rich systemin B (NtpreproHypSysB). After CLCuMuB infection, CLCuMuB βC1 could interfere with the processing of NtpreproHypSysB by NtSBT1.7, thereby impairing plant defenses against whitefly. These results contribute to our understanding of tripartite interactions among virus, plant, and whitefly, thus offering ecological insights into the spread of vector insect populations and the prevalence of viral diseases. [ABSTRACT FROM AUTHOR]

Published

2024

2. Occurrence and Distribution of Major Cassava Pests and Diseases in Cultivated Cassava Varieties in Western Kenya.

Author

Wosula, Everlyne N., Shirima, Rudolph R., Amour, Massoud, Woyengo, Vincent W., Otunga, Bonface M., and Legg, James P.

Subjects

*PEST control, *MOSAIC diseases, *SWEETPOTATO whitefly, *FOOD crops, *CITRUS greening disease, *CASSAVA

Abstract

Cassava is an important food crop in western Kenya, yet its production is challenged by pests and diseases that require routine monitoring to guide development and deployment of control strategies. Field surveys were conducted in 2022 and 2023 to determine the prevalence, incidence and severity of cassava mosaic disease (CMD) and cassava brown streak disease (CBSD), whitefly numbers and incidence of cassava green mite (CGM) in six counties of western Kenya. Details of the encountered cassava varieties were carefully recorded to determine the adoption of improved varieties. A total of 29 varieties were recorded, out of which 13 were improved, although the improved varieties were predominant in 60% of fields and the most widely grown variety was MM96/4271. The CMD incidence was higher in 2022 (26.4%) compared to 2023 (10.1%), although the proportion of CMD attributable to whitefly infection was greater (50.6%) in 2023 than in 2022 (18.0%). The CBSD incidence in 2022 was 6.4%, while in 2023 it was 4.1%. The CMD incidence was significantly lower (5.9%) for the improved varieties than it was for the local varieties (35.9%), although the CBSD incidence did not differ significantly between the improved (2.3%) and local varieties (9.7%). Cassava brown streak virus (CBSV) and Ugandan cassava brown streak virus (UCBSV) were both detected. Most infections were single CBSV infections (82.9%), followed by single UCBSV (34.3%) and coinfection with both viruses (16.7%). Whiteflies were more abundant in 2023, in which 28% of the fields had super-abundant populations of >100/plant, compared to 5% in 2022. KASP SNP genotyping designated 92.8% of the specimens as SSA-ECA for 2022, while it was 94.4% for 2023. The cassava green mite incidence was 65.4% in 2022 compared to 79.9% in 2023. This study demonstrates that cassava viruses, whiteflies and cassava green mites continue to be important constraints to cassava production in western Kenya, although the widespread cultivation of improved varieties is reducing the impact of cassava viruses. The more widespread application of high-quality seed delivery mechanisms could further enhance the management of these pests/diseases, coupled with wider application of IPM measures for whiteflies and mites. [ABSTRACT FROM AUTHOR]

Published

2024

3. Coexistence of Pests and the Associated Predators Inhabiting Soybean, Glycine Max L. Merr. in Assiut City, Egypt.

Author

Hammam, G. H. A., Mahmoud, Asmaa H., and Fakeer, M.

Subjects

SOYBEAN as feed, MIRIDAE, INSECT pests, CHRYSOPERLA carnea, INTEGRATED pest control

Abstract

Copyright of Journal of Plant Protection & Pathology is the property of Egyptian National Agricultural Library (ENAL) 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

4. Genetic Variability and Heritability of Horticultural Traits, Impact on Susceptibility to Two Sap-Sucking Pests and Efficacy of Beauveria Bassiana and Lemongrass Oil as Biocontrol Agents in Six Inbred Lines of Summer Squash.

Author

Soliman, Abeer A. El. K., Haron, Entesar N. S., and Hassan, Dalia M. A.

Subjects

SPIDER mites, TWO-spotted spider mite, SWEETPOTATO whitefly, BEAUVERIA bassiana, ALEYRODIDAE

Abstract

Copyright of Journal of Plant Protection & Pathology is the property of Egyptian National Agricultural Library (ENAL) 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

5. Bioefficacy of Botanicals against Whitefly (Bemisia tabaci) in Blackgram (Vigna mungo)

Author

Sharma, Rakesh Kumar and Sharma, KK

Published

2024

6. Sucking insect-pests incidence in relation to weather parameters under Bt cotton in Northwestern region of Punjab, India

Author

Kaur, Navjot, Bajaj, Kavita, Kaur, Gurleen, and Kaur, Navdeep

Published

2024

7. Evaluation of Suitable IPM Module for Management of YMV Disease in Mungbean under West Central Table Land Zone of Odisha.

Author

Mandal, Dipankar, Pal, Rini, Seni, Atanu, and Mohanty, Ashok K.

Subjects

*PLANT canopies, *TRANSGENIC seeds, *MUNG bean, *ALEYRODIDAE, *SEED treatment

Abstract

Background: YMV disease in mungbean is one of the major disease causing heavy losses annually throughout the country. As the disease is transmitted by insect vector, management of vector is important to check the YMV disease that can minimise the losses. The present investigation was aimed to evaluate different IPM modules for management of YMV disease of mungbean. Methods: Field experiments were carried out during Rabi season of 2016-17 and 2017-18 at the Research Farm of Regional Research and Technology Transfer Station, Chiplima, Sambalpur, Odisha, India. Population of whitefly was recorded on three leaves selected from top, middle and bottom canopy of the plant. Disease severity was recorded by using 0-9 scale. Result: The IPM module i.e. seed treatment with Thiamethoxam 25 WG @ 5 gm kg-1 of seed, installation of yellow sticky trap @ 50 ha-1 and spraying of Acetamiprid 20 SP @ 0.3 gm l-1 of water was found as the most effective among all other modules. Pooled analysis of two years data revealed that 65.5% YMV disease control and 59.3% reduction of white fly population over control were performed by the said IPM module. A maximum increase in yield (84.8%) and highest cost benefit ratio (1.77) were also achieved with the module. [ABSTRACT FROM AUTHOR]

Published

2024

8. The Efficacy of Different Plant Extracts Against Whitefly Bemisia tabaci (Aleyrodidae: Hemiptera) on A Tomato Plant.

Author

Rehman, Hamid, Bukaro, Aslam, Lanjar, Abdul Ghani, Bashir, Lubna, and Kumar, Dileep

Subjects

*SWEETPOTATO whitefly, *PESTICIDE pollution, *PLANT extracts, *ALEYRODIDAE, *AGRICULTURAL pests

Abstract

Whitefly (Bemisia tabaci) is a well known pest of many crops specially vegetables including tomato plant. Mostly tomato plant disorders are directly and indirectly related to the silver leaf whitefly (Bemisia tabaci) feeding. In this manner, most countries use lots of pesticides which are really threatening to the environment and ecosystem at an alarming position. Thus we aim to use different plant extracts to control whitefly efficiently and minimize the negative impact of pesticides on the environment. This experiment was conducted in a greenhouse and field as well to draw complete conclusion. In this experiment we used five different treatments, T1-NLE (neem leaves extracts), T2-TLE (tobacco leaves extracts), T3- combination (TLE+NLE+ neem kernels), T4-insecticide (Movento) and T5-un-treated. According to our findings in the greenhouse, adult whitefly population's lowest count is (0.66±0.248) in NLE treated tomato plants and highest whitefly numbers found were (5.84±1.04) in un-treated plants. For the nymph, the same result follows (0.23±0.20) in NLE treated plants and (5.62±1.20) in un-treated plants. In field's experiment lowest adult population of whitefly found in NLE (1.74±0.48) and highest numbers found in un-treated (9.64±1.23). This experiment proves that plants extracts are more effective, economical and eco-friendly. This study can be potentially extended to other pests and crops. Consolidated viewpoint of this investigation, we state that plants extricates all the more integral assets to control sucking complex or whitefly. [ABSTRACT FROM AUTHOR]

Published

2024

9. Population dynamics of whitefly, Bemisia tabaci (Gen.) and its natural enemies on cotton cultivars.

Author

Yadav, Manisha, Rolania, Krishna, Yadav, Ankit, and Kalkal, Deepika

Subjects

SWEETPOTATO whitefly, COTTON varieties, INSECT populations, PREDATORY insects, EFFECT of temperature on insects, PARASITISM, PARASITIC insects

Abstract

The article investigates the population dynamics of whitefly Bemisia tabaci and its natural enemies on cotton cultivars. The study examines the population of whitefly adults and maximum parasitization of whitefly nymphs in Desi, American and Bt cotton cultivars, as well as its natural enemies, predators like coccinellids and spiders. It evaluates the influence of weather patterns including maximum and minimum temperature and wind velocity on whitefly buildup.

Published

2024

10. Biological and physiological effects in Bemisia tabaci feeding on tomatoes endophytically colonized by Beauveria bassiana.

Author

Wang, Xian, Yuan, Qian, He, Liqiang, Wang, Zhou, Li, Guangyun, Wang, Ziying, and Liu, Huai

Subjects

SWEETPOTATO whitefly, BEAUVERIA bassiana, PLANT life cycles, TOMATOES, LIFE cycles (Biology), ANIMAL feeds

Abstract

BACKGROUND: Entomopathogenic fungi (EPF) treatment of plants may affect the survival and feeding preferences of herbivorous pests. However, comprehensive studies on the fitness across their entire life cycle, feeding behavior, and physiological changes in herbivores consuming EPF‐treated plants within the tripartite interactions of EPF, plants, and pests are still limited. In this study, we utilized life tables, electrical penetration graph (EPG), and metabolomics to uncover the biological and physiological characteristics of Bemisia tabaci on tomato plants inoculated with Beauveria bassiana through root irrigation. RESULTS: Our study indicated that Beauveria bassiana Bb252 can penetrate the entire tissue from the point of inoculation, primarily colonizing the intercellular spaces and vascular tissue. However, this colonization is temporary, lasting no more than 35 days. Moreover, the population fitness and feeding behavior of Bemisia tabaci on tomato plants treated with Beauveria bassiana via root irrigation were significantly affected, showing a substantial 41.4% decrease in net reproductive rate (R0), a notable reduction in watery salivation, and shortened phloem ingestion. Lastly, we observed a significant decrease in hormones and amino acids of whiteflies that fed on Beauveria bassiana‐treated tomato plants by root irrigation. CONCLUSIONS: Our results indicated that the endophyte, Beauveria bassiana Bb252, reduced demographic fitness of Bemisia tabaci by altering its hormones and amino acids levels. These findings enhance our understanding of multitrophic interactions in integrated pest management. © 2024 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2024

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

Author

Wei-Hua Li, Poovendhan, Sushanthi, De-Fen Mou, Wen-Shi Tsai, and Chi-Wei Tsai

Abstract

In agricultural fields where many viruses are prevalent, plants are commonly coinfected with multiple viruses. Whiteflies, vectors of plant viruses, can acquire two viruses by probing on two infected plants sequentially or on a coinfected plant. Although the coingestion of two viruses by a common vector is supposed to influence vector transmission and virus epidemiology, these effects still require more comprehensive research. In this study, we investigated the impact of coingesting two begomoviruses on virus infection in Bemisia tabaci Middle East-Asia Minor 1 (MEAM1). Whiteflies underwent two successive acquisition access periods through feeding on plants infected with tomato leaf curl Taiwan virus (ToLCTV), tomato yellow leaf curl Thailand virus (TYLCTHV), or both. The amounts of virus in the midgut, hemolymph, primary salivary glands (PSGs), and saliva of the whiteflies were determined through quantitative real-time polymerase chain reaction. Transmission assays were conducted to evaluate the impact of coingesting ToLCTV and TYLCTHV on the whitefly-mediated transmission of both viruses. Our results revealed that the preingestion of TYLCTHV was antagonistic to the infection of ToLCTV in the whitefly midgut. Regardless of the ingestion sequence, the amounts of TYLCTHV in the midgut, hemolymph, PSGs, and saliva of whitefly, as well as its transmission rate, were higher than those of ToLCTV. This study provides valuable insights into the intricate interactions between two tomato begomoviruses (ToLCTV and TYLCTHV) within B. tabaci and improves our understanding of the complex tripartite interplay involving virus-virus-vector relationships and the implications for plant virus transmission. [ABSTRACT FROM AUTHOR]

Published

2024

12. Evaluation of Plant Introduction Lines of Yellow Squash (Cucurbita pepo) for Resistance against Single Infection of Cucurbit Chlorotic Yellows Virus and Cucurbit Leaf Crumple Virus.

Author

Adeleke, Ismaila A., Kavalappara, Saritha R., Codod, Clarence B., Kharel, Prasanna, Luckew, Alex, McGregor, Cecilia, Simmons, Alvin M., and Srinivasan, Rajagopalbabu

Subjects

*CUCURBITA pepo, *PHYTOPLASMAS, *PLANT viruses, *ARBOVIRUSES, *MIXED infections, *CUCURBITACEAE

Abstract

Whitefly-transmitted viruses have emerged as a major threat to cucurbit production in the United States during the past several decades. Cucurbit chlorotic yellows virus (CCYV), Cucurbit yellow stunting disorder virus (CYSDV), and Cucurbit leaf crumple virus (CuLCrV) are the main arthropod-borne plant viruses in cucurbit crops, including yellow squash (Cucurbita pepo). Symptoms of these viruses include interveinal chlorosis, chlorotic spots, yellowing, and curling of the leaves. The evaluation of specific viruses affecting a plant is challenging because of the prevalence of mixed infections in naturally infected fields. To devise an efficient breeding-based management approach, two PI lines (PI 171625 and PI 171627) were screened in a greenhouse to assess their resistance to individual infections of CCYV and CuLCrV. These lines were compared against a susceptible cultivar Gentry in two separate trials. PI 171627 displayed delayed symptoms, a reduced virus load, and a smaller area under the disease progress curve (AUDPC) compared with PI 171625 and susceptible cultivar Gentry when the plants were infected with CCYV. However, the AUDPC for CuLCrV was the same for both genotypes and the commercial line. Accession PI 171627, which displayed delayed and milder symptoms, could potentially provide a source for resistance against CCYV for breeding program. Future research is needed to comprehend the underlaying mechanism to understand this response. [ABSTRACT FROM AUTHOR]

Published

2024

13. Designing of an Innovative Multiplex Model to Control Insects/Pests (Whitefly) in Okra Crop Fields and Assessment for its Efficacy in Control Viral Diseases.

Author

Priyanka, Hussain, Anas, Anwar, Md Tanveer, Sharma, Monica, and Saxena, Sangeeta

Abstract

Whitefly (Bemisia tabaci) destroys a great proportion of crops in India. Whitefly is the carrier of begomovirus which causes okra yellow vein mosaic viral disease. Preventing the pest infestation without the use of chemical fertilizers and pesticides is the need of the hour. Integrated Pest Management (IPM) involves strategies that maintain pest population below Economic Injury Level (EIL). In the present study a multiplex insect catching trap was constructed with the aim of controlling pest infestation in a sustainable and eco-friendly manner. The multiplex trap was prepared using yellow sticky papers and Methyl Eugenol pheromone as an insect/pest attractant. The traps were placed in field and thereafter plants were tested for the presence of viral DNA using PCR. The fields in which traps were placed showed negligible or few instances of viral infection while the fields in which no traps were placed showed considerable virus infection. Additionally, the fields with the trap showed a higher yield percentage of crop compared to the field with no trap. [ABSTRACT FROM AUTHOR]

Published

2024

14. SEASONAL INCIDENCE OF SUCKING PESTS AND THEIR CORRELATION WITH WEATHER PARAMETERS IN Bt COTTON.

Author

Rabari, P. H., Patel, P. S., Jaiman, R. S., Muralidharan, C. M., and Chaudhary, F. K.

Subjects

BT cotton, INSECT pests, COTTON, THRIPS, PESTS, AGRICULTURAL colleges, SEASONAL variations of diseases

Abstract

In cotton ecosystem, number of insect pests simultaneously occur and cause enormous damage to crop. Hence, investigation on succession of sucking pests in Bt cotton cultivar was carried out during 2022 and 2023 at S. D. Agricultural University, Sardarkrushinagar, Gujarat, India. The order of sequential occurrence of pests in Bt cotton was jassid > thrips > whitefly > aphid. Maximum incidence of aphid was observed during 46th standard meteorological week (SMW) (32.30 aphids/3 leaves), while maximum jassids (18.90 jassids/3 leaves) were observed during 42nd SMW. The incidence of whitefly reached to peak level (4.56 whiteflies/3 leaves) during 43rd SMW, however the peak activity of thrips was noticed during 41st SMW (19.72 thrips/3 leaves). The relationship obtained clearly showed that aphid and jassid population exhibited negative and significant correlation with morning and evening relative humidity. The whitefly exhibited negative and significant correlation with morning relative humidity. Highly significant and positive influence on whitefly, thrips and jassid population was noticed with maximum temperature during the study period. [ABSTRACT FROM AUTHOR]

Published

2024

15. Analysis of PM-RNAi Construct Stability and CLCuD Resistance in Transgenic Cotton Progenies.

Author

Shabnam, Sultana, Naziya, Khan, Masnad, Sardar, Meryam, and Khan, Jawaid A.

Subjects

EXPRESSED sequence tag (Genetics), SWEETPOTATO whitefly, ALEYRODIDAE, BEGOMOVIRUSES, INSECTS, PHENOTYPES, COTTON

Abstract

Whitefly (Bemisia tabaci) population poses significant threat to cotton production in tropical and subtropical countries, and act as a vector for plenty of viruses predominantly begomoviruses and associated satellite molecules. Plant mediated RNAi (PM-RNAi) based approach carrying in silico identified miR166b of Gossypium hirsutum cv. HS6 targeting ESTs (Expressed Sequence Tags) of B. tabaci has been effective against whitefly insect and also providing tolerance from cotton leaf curl disease (CLCuD) as reported earlier. Current study focuses on stability of transgene in subsequent generations of transgenic cotton lines and its effectiveness in providing protection against CLCuD. Subsequent generations showed reduced diseased symptoms and no phenotypic abnormality from exogenous construct. Overall findings demonstrate effectiveness of RNAi based construct against insect vector whitefly and its stable inheritance across subsequent generations underscore the potential of this approach for sustainable protection. [ABSTRACT FROM AUTHOR]

Published

2024

16. Tomato yellow leaf curl virus manipulates Bemisia tabaci, MEAM1 both directly and indirectly through changes in visual and volatile cues.

Author

Paris, Thomson M., Johnston, Nicholas, Strzyzewski, Iris, Griesheimer, Jessica L., Reimer, Benjamin, Malfa, Kathi, Allan, Sandra A., and Martini, Xavier

Subjects

SWEETPOTATO whitefly, GAS chromatography/Mass spectrometry (GC-MS), VOLATILE organic compounds, ALEYRODIDAE, SURFACE area

Abstract

The sweetpotato whitefly, Bemisia tabaci MEAM1, is one of the most devastating pests of row-crop vegetables worldwide, damaging crops directly through feeding and indirectly through the transmission of many different viruses, including the geminivirus Tomato yellow leaf curl virus (TYLCV). Y-tube olfactometer tests were conducted at different stages of TYLCV infection in tomatoes to understand how TYLCV affects B. tabaci behavior. We also recorded changes in tomato hosts' color and volatile profiles using color spectrophotometry and gas chromatography-mass spectrometry (GC-MS). We found that the infection status of B. tabaci and the infection stage of TYLCV influenced host selection, with uninfected whiteflies showing a preference for TYLCV-infected hosts, especially during the late stages of infection. Viruliferous B. tabaci attraction to visual targets significantly differed from non-viruliferous B. tabaci. Late-stage infected hosts had larger surface areas reflecting yellow-green wavelengths and higher emissions of methyl salicylate in their volatile profiles. These findings shed new light on several critical mechanisms involved in the viral manipulation of an insect vector and its economically important host. [ABSTRACT FROM AUTHOR]

Published

2024

17. Investigating the second whitefly population outbreak within a decade in the cotton growing zone of North India.

Author

Kumar, Rishi, Sain, Satish Kumar, Singh, Satnam, Pandher, Suneet, Meena, Roop Singh, Jakhar, Anil, Kaur, Jasjinder, Pathania, Mandeep, Paul, Debashis, A.H., Prakash, and Y.G., Prasad

Subjects

COTTON growing, SWEETPOTATO whitefly, ALEYRODIDAE, CLIMATE change, ADULTS

Abstract

The whitefly, Bemisia tabaci (Gennadius), is a polyphagous and major pest of cotton worldwide. Both adults and nymphs of B. tabaci affect the crop by causing direct and indirect damage. A severe whitefly outbreak was experienced during 2015 on cotton in North India and this was followed by a profound infestation during 2022. The present research rigorously examined whether the proliferation in the whitefly population was an outbreak or the result of a multi factor resurgence. During 2015, whitefly counts remained above the economic threshold level (ETL) between 28th and 35th Standard Meteorological Week (SMW). However, during 2022 above ETL population was observed in 27th SMW and it persisted until 36th SMW. The peak incidence of the whitefly was noticed during 31st and 29th SMW in 2015 and 2022, respectively. The early pest build up in 2022 and longer persistence (≥10 weeks) over the cotton season resulted in more damage to cotton crop. Additionally, pest survillence across the zone on the farmers' fields during 2022 revealed 44.4 per cent spots (585 out of 1,317 locations) above ETL while the corresponding locations in 2015 was 57% (620 out of 1,089). Thus, in 2022 infestation was not uniform in the entire zone wherein only few blocks of Punjab, Haryana and Rajasthan states of India experienced severe infestations of the whitefly. This study reports the complex of factors including weather, delayed sowing, use of tank mixtures/ subleathal doses of insecticides, pest resurgence etc. that might have possibly contributed to these upsurges in whitefly on cotton in north India. [ABSTRACT FROM AUTHOR]

Published

2024

18. A phenomenological inquiry into farmers' experiences growing cotton in Punjab, Pakistan.

Author

Ashraf, Saleem, Ch, Khalid Mahmood, Ashraf, Ijaz, and Akbar, Nadeem

Subjects

*COTTON, *COTTON growing, *COTTON farmers, *ALTERNATIVE crops, *FARMERS' attitudes, *CROP yields, *THEMATIC analysis

Abstract

Sustainability in cotton production is inevitable because producing more cotton means more employment, economic acceleration, and industrial expansion. India, China, the United States, Brazil, and Pakistan contribute 74% of worldwide cotton production. Pakistan is contributing only 5%, despite the high potential of cotton. The average yield of cotton in Pakistan is stagnant at 570.99 kg hm−2, whereas it entails the highest cost of production among all other crops. The yield obtained in Pakistan is less than the potential, profitability is drastically lessening, and farmers are abandoning cotton for alternative kharif crops. Some traditional quantitative studies have unveiled different factors that affect cotton production. However, an in-depth qualitative study has never been conducted in Pakistan to explore the root causes of growing cotton crop failure. Following Moustakas's traditional phenomenological guidelines, this phenomenological study was conducted in the district of Rahim Yar Khan in the core cotton zone of Punjab province. A total of 10 interviews were conducted with purposively selected cotton growers based on a criterion: (i) having more than 10 years of cotton growing experience, (ii) being a cotton grower, and (iii) having at least 10 years of formal schooling. Interviews were conducted face to face on an interview guide. One interview lasted 45–50 min, and responses were recorded and analyzed using a thematic analysis approach. A total of 6 themes emerged from the collected data, including (i) climate change, (ii) varietal problems, (iii) pesticide usage, (iv) sense of institutional services, (v) attitude of farmers and (vi) soil health and environment. These six merging themes contributed to cotton crop failure and yield decline. The deep exploration further summarized that researchers, extensionists, and farmers need to seriously consider variety, sowing time, and the environment to revive cotton crops. The detailed recommendations and policy guidelines are presented in this paper, highlighting the cotton sector's research, development and investment areas. [ABSTRACT FROM AUTHOR]

Published

2024

19. Temporal changes in the levels of virus and betasatellite DNA in B. tabaci feeding on CLCuD affected cotton during the growing season.

Author

Iqbal, Zafar, Masood, Mariyam, Shafiq, Muhammad, and Briddon, Rob W.

Subjects

GROWING season, DNA viruses, SATELLITE DNA, INSECT viruses, SWEETPOTATO whitefly, COTTON growing, TOMATO yellow leaf curl virus

Abstract

Cotton, a key source of income for Pakistan, has suffered significantly by cotton leaf curl disease (CLCuD) since 1990. This disease is caused by a complex of phylogenetically-related begomovirus (genus Begomovirus, family Geminiviridae) species and a specific betasatellite (genus Betasatellite, family Tolecusatellitidae), cotton leaf curl Multan betasatellite. Additionally, another DNA satellite called alphasatellite (family Alphasatellitidae), is also frequently associated. All these virus components are vectored by a single species of whitefly (Bemisia tabaci). While many factors affect cotton productivity, including cotton variety, sowing time, and environmental cues such as temperature, humidity, and rainfall, CLCuD is a major biotic constraint. Although the understanding of begomoviruses transmission by whiteflies has advanced significantly over the past three decades, however, the in-field seasonal dynamics of the viruses in the insect vector remained an enigma. This study aimed to assess the levels of virus and betasatellite in whiteflies collected from cotton plants throughout the cotton growing season from 2014 to 2016. Notably, begomovirus levels showed no consistent pattern, with minimal variations, ranging from 0.0017 to 0.0074 ng.μg-1 of the genomic DNA in 2014, 0.0356 to 0.113 ng.μg-1 of the genomic DNA in 2015, and 0.0517 to 0.0791 ng.μg-1 of the genomic DNA in 2016. However, betasatellite levels exhibited a distinct pattern. During 2014 and 2015, it steadily increased throughout the sampling period (May to September). While 2016 showed a similar trend from the start of sampling (July) to September but a decline in October (end of sampling). Such a study has not been conducted previously, and could potentially provide valuable insights about the epidemiology of the virus complex causing CLCuD and possible means of controlling losses due to it. [ABSTRACT FROM AUTHOR]

Published

2024

20. Role of aminopeptidase N‐like in the acquisition of begomoviruses by Bemisia tabaci, the whitefly vector.

Author

Fan, Yun‐Yun, Chi, Yao, Chen, Na, Cuellar, Wilmer J., and Wang, Xiao‐Wei

Subjects

*TOMATO yellow leaf curl virus, *SWEETPOTATO whitefly, *ALEYRODIDAE, *BEGOMOVIRUSES, *MOSAIC diseases, *GLUTATHIONE transferase, *GLUTATHIONE

Abstract

Sri Lankan cassava mosaic virus (SLCMV) is a prominent causative agent of cassava mosaic disease in Asia and relies on the whitefly Bemisia tabaci cryptic complex for its transmission. However, the molecular mechanisms involved in SLCMV transmission by B. tabaci have yet to be understood. In this study, we identified an aminopeptidase N‐like protein (BtAPN) in B. tabaci Asia II 1, an efficient vector of SLCMV, which is involved in the SLCMV transmission process. Through the use of glutathione S‐transferase pull‐down assay and LC‐MS/MS analysis, we demonstrated the interaction between BtAPN and the coat protein (CP) of SLCMV. This interaction was further confirmed in vitro, and we observed an induction of BtAPN gene expression following SLCMV infection. By interfering with the function of BtAPN, the quantities of SLCMV were significantly reduced in various parts of B. tabaci Asia II 1, including the whole body, midgut, hemolymph, and primary salivary gland. Furthermore, we discovered that BtAPN is conserved in B. tabaci Middle East‐Asia Minor 1 (MEAM1) and interacts with the CP of tomato yellow leaf curl virus (TYLCV), a begomovirus known to cause severe damage to tomato production. Blocking BtAPN with antibody led to a significant reduction in the quantities of TYLCV in whitefly whole body and organs/tissues. These results demonstrate that BtAPN plays a generic role in interacting with the CP of begomoviruses and positively regulates their acquisition by the whitefly. [ABSTRACT FROM AUTHOR]

Published

2024

21. Impact of viral diseases and whiteflies on the yield and quality of cassava.

Author

Mkamilo, Geoffrey, Kimata, Bernadetta, Masinde, Emily A., Masisila, Festo F., Menya, Rahim O., Matondo, Dwasi, and Maruthi, Midatharahally N.

Subjects

*CASSAVA, *VIRUS diseases, *ALEYRODIDAE, *MOSAIC diseases, *SWEETPOTATO whitefly, *INSECT pests

Abstract

Here we investigated the effect of the insect pest whitefly (Bemisia tabaci), cassava mosaic disease (CMD) and cassava brown streak disease (CBSD) on cassava root yield and quality in two cropping seasons 2014–2015 and 2015–2016 on ten cassava varieties in Tanzania. ANOVA (sum of squares or SS) revealed that the time of planting (42.7%) and cassava variety (29.5%) had the largest effect on whitefly population. Not surprisingly, cassava varieties also had the highest effect (SS 39.8 to 70.4%) on both diseases and yield. An increase in whitefly population led to higher disease incidences and severity in 2015–2016 compared to 2014–2015. Some CBSD-resistant and tolerant cassava varieties like Namikonga and Kiroba, respectively, harboured high whitefly populations. The CMD, CBSD and whitefly-susceptible variety, Mreteta, showed highest yield losses of up to 60%, while the resistant variety NDL 2005/1471 had approximately 1% loss. Deployment of varieties resistant to both diseases and whitefly is thus necessary to safeguard cassava production and food security of vulnerable communities in the affected African countries. [ABSTRACT FROM AUTHOR]

Published

2024

22. Optimizing sucking pest control in okra: an analysis of flupyradifurone 200 SL effectiveness, phytotoxicity, safety to natural enemies, pollinators and cost-efficiency.

Author

Kodandaram, M. H., Divekar, Pratap A., Wangi, Nagaratna, Mohite, Nikhil R., and Rai, Awadhesh Bahadur

Subjects

*OKRA, *PEST control, *PHYTOTOXICITY, *STAPHYLINIDAE, *POLLINATORS, *SWEETPOTATO whitefly

Abstract

Whitefly, Bemisia tabaci (Gennadius), and leafhopper, Amrasca biguttulla biguttulla, Ishida, are the major biotic constraints in cultivation of okra, causing considerable economic damage. The present study aims to evaluate the laboratory and field efficacy of butenolide insecticide, flupyradifurone 200 SL against these key sucking pests, its phytotoxicity, safety to natural enemies as well as pollinators and cost-efficiency in okra. Dose probit mortality assays indicated flupyradifurone to be the most toxic and thiamethoxam least toxic to leafhopper and whitefly. Based on the LC50 values for whitefly and leafhopper, flupyradifurone exhibited 11.07 and 2.98-fold difference, respectively, when compared to thiamethoxam. Laboratory bioassays confirmed that the maximum dose of flupyradifurone (250 g a.i. ha−1) had a high level of toxicity to whitefly adults and leafhopper nymphs. Of the three field rates (150, 200, 250 g a.i. ha−1) of flupyradifurone evaluated under open field conditions, application at 250 g a.i. ha−1 was most effective for the control of whitefly and leafhopper population with a high marketable fruit yield in okra. Flupyradifurone reduced the population of whitefly by 71.80 & 76.68 per cent and leafhopper by 82.19 and 80.21 per cent during first and second season, respectively, as compared to untreated control. Furthermore, it was superior and more economical, giving the highest benefit: cost ratio (2.77) than other test insecticides included for comparison. Flupyradifurone application showed no phytotoxic symptoms on the okra crop. Additionally, it was found to be safer to natural enemies i.e. spiders and rove beetles that are prevalent in the okra ecosystem. The Kaplan–Meier survival analysis showed that flupyradifurone was apparently less toxic to honey bees in short-term and long-term exposure assays. These findings will aid in utilizing the flupyradifurone in insecticide window spray schedules and IPM programs for the management of sucking pests in okra. [ABSTRACT FROM AUTHOR]

Published

2024

23. Susceptibility of Yellow Squash and Zucchini Cultivars to the Sweetpotato Whitefly, Bemisia tabaci Gennadius (MEAM1), in the Southeastern United States.

Author

Mbata, George N., Li, Yinping, Warsi, Sanower, and Simmons, Alvin M.

Subjects

*SWEETPOTATO whitefly, *ZUCCHINI, *SQUASHES, *PLANT viruses, *CUCURBITA pepo, *DISEASE resistance of plants, *CULTIVARS

Abstract

Simple Summary: The sweetpotato whitefly, Bemisia tabaci Gennadius Middle East–Asia Minor 1 (MEAM1), is an economically important vegetable worldwide. This study evaluated the susceptibilities of yellow squash and zucchini cultivars to MEAM1 across three growing seasons in the southeastern United States: summer 2021, fall 2021, and fall 2022. Commercially available cultivars squash and zucchini were examined for resistance to MEAM1 infestations and yield performance. Weekly MEAM1 adult, egg, and nymph counts were conducted over 5 (fall 2022) or 6 (summer and fall 2021) weeks beginning after the third week of planting in each season. In general, MEAM1 adult populations were high at the first week of sampling but decreased in the subsequent weeks. The Zucchini cultivar 'Black Beauty' had the highest number of MEAM1 adults, and 'Green Eclipse Zucchini' had the lowest adult counts in summer 2021. For yellow squash, 'Early Summer' and 'Amberpic 8455' were identified as the cultivars that harbored the highest populations of adults in 2021, whereas 'Golden Goose Hybrid' harbored the least number of adult infestations in fall 2022. Generally, MEAM1 egg counts trailed adult peak populations. For yield performance, 'Gourmet Gold Hybrid', 'Lioness', 'Fortune', and 'Golden Glory' achieved the highest yields. These results provide valuable information for whitefly management in yellow squash and zucchini based on host plant resistance and yield. The sweetpotato whitefly, Bemisia tabaci (Gennadius) Middle East–Asia Minor 1 (MEAM1), causes significant losses to vegetable crops directly by sap-feeding, inducing plant physiological disorders, and elevating the build-up of sooty mold, and indirectly by transmitting plant viruses. In this study, we evaluated the susceptibility of 20 yellow squash and zucchini (Cucurbita pepo) cultivars to MEAM1, across three growing seasons in the southeastern United States. Weekly sampling of the numbers of MEAM1 adults, nymphs, and eggs were conducted from the fourth week after seed sowing and across 6 weeks during the summer and fall of 2021 and five weeks during the fall of 2022. In general, adult whitefly populations were high during the first week of sampling but decreased as the seasons progressed. The zucchini cultivar 'Black Beauty' harbored the most adults, while 'Green Eclipse Zucchini' was the least attractive zucchini cultivar to the adults in fall 2022. For yellow squash, 'Early Summer' (summer 2021) and 'Amberpic 8455' (summer 2021 and fall 2022) were the cultivars with the highest adult populations, while 'Lioness' (summer 2021) and 'Gourmet Gold Hybrid' (fall 2022) harbored the lowest adult counts. The whitefly egg counts across both vegetables trailed those of adults and peaked in the second week of sampling. The counts of nymphs increased as the seasons progressed, but there was a decline after the second week during fall 2021. For the yellow squash cultivars, 'Gourmet Gold Hybrid', (summer 2021 and fall 2022), 'Lioness', and 'Fortune' (summer 2021) recorded the highest yields. For zucchini, 'Golden Glory' (summer 2021) was the top performer. These results provide valuable information for whitefly management in yellow squash and zucchini based on host plant susceptibility and yield. [ABSTRACT FROM AUTHOR]

Published

2024

24. Passionfruit severe leaf distortion virus: Expanded host range, response of Passiflora spp. plants to infection and transmission by Bemisia tabaciMEAM1.

Author

Chinelato, Gressa Amanda, Favara, Gabriel Madoglio, Ferro, Camila Geovana, Bello, Vinicius Henrique, de Oliveira, Felipe Franco, Kraide, Heron Delgado, Spadotti, David Marques de Almeida, Junqueira, Nilton Tadeu Vilela, and Rezende, Jorge Alberto Marques

Subjects

*PASSIFLORA, *INFECTIOUS disease transmission, *DATURA stramonium, *SWEETPOTATO whitefly, *TOMATOES, *RF values (Chromatography)

Abstract

Passionfruit severe leaf distortion virus (PSLDV) is a begomovirus transmitted by Bemisia tabaci Middle East‐Asia Minor 1 (MEAM1), associated with severe disease in passion flowers. This study aimed to evaluate the reaction of plants of different species of Passiflora to infection with PSLDV, expand the known host range of the virus and determine the minimum virus acquisition and inoculation access periods and the time of virus retention by B. tabaci MEAM1. Plants of Passiflora cincinnata, P. mucronata and P. malacophylla were not infected with PSLDV through transmission with B. tabaci MEAM1. When healthy plants of these species were fork grafted onto PSLDV‐infected plants of P. edulis, only plants of P. malacophylla remained uninfected and the virus was not detected by PCR, suggesting immunity to this begomovirus. Plants of Datura stramonium, Nicotiana benthamiana, N. clevelandii, N. tabacum 'Xanthi', Solanum lycopersicum (tomato cv. Compack) and several varieties of Manihot esculenta (cassava cvs IAC 118‐96, IAC 6‐01, Paranavaí, IAC 576, IAC 90 and IAC 14) were susceptible to infection with PSLDV through transmission with B. tabaci MEAM1. Adults of B. tabaci MEAM1 acquired PSLDV after 1 h of feeding on PSLDV‐infected plants of D. stramonium. They transmitted the virus to healthy plants after feeding on these plants for 1 h, although with low transmission rates. The retention time of PSLDV in the vector was 14 days. [ABSTRACT FROM AUTHOR]

Published

2024

25. Botanical Compositions for the Management of Sucking and Lepidopteran Pests of Groundnut (Arachis hypogaea L.) Under Field Conditions.

Author

SINGH, S., DAVE, P. P., and CHOUDHARY, H.

Subjects

NEEM oil, ARACHIS, PLANT extracts, PESTS, NEEM, PEANUTS, THRIPS

Abstract

The efficacy of two botanical formulations, an oil-based (OF) and aqueous (AqF), was determined against sucking and lepidopteran pests of groundnut. The experiment was laid out in a randomized block design with seven treatments and three replicates for each. The treatments were botanical formulations at 10 and 20 mL/L concentrations, along with a standard chemical (Chlorpyriphos 20EC at the rate of 2.5 mL/L) and a botanical (neem oil at 3 mL/L) and a negative control. The results revealed that the whitefly population reduction was 92.8% in chlorpyriphos treatment, followed by 80.0% in AqF at 20 mL, 74.2% in OF at 20 mL, 71.1% in AqF at 10 mL, and 67.3% in neem oil applications 10 days post spray. In the case of leafhoppers, the highest efficacy of 90.3% population reduction was recorded in chemical control, which was closely followed by AqF at 20 mL (83.1%), neem oil (76.4%), and OF at 20 mL (68.3%). A similar trend in efficacy was observed against thrips, namely chlorpyriphos (84.7%) >AqF at 20 mL and OF at 20 mL (76.9%) >OF at 10 mL (61.5%) > neem oil (53.8%). In the case of red hairy caterpillars, the reduction recorded was chlorpyriphos (82.9%) >AqF at 20 mL (80.8%) >AqF at 10 mL (78.5%) and OF at 20 mL (69.2%) > neem oil (55.1%). Among all the botanicals tested, oil-based (OF) and aqueous (AqF) formulations at 20 mL concentration were superior or at par with neem oil applications. The synergistic effects of diverse plant extracts in the formulations could have contributed to their enhanced efficacy. These botanical formulations stood out for managing sucking and lepidopteran pests without adverse environmental and health effects. [ABSTRACT FROM AUTHOR]

Published

2024

26. Transcriptome data reveal beneficial effects of Rickettsia (Rickettsiales: Rickettsiaceae) on Bemisia tabaci(Hemiptera: Aleyrodidae) through nutritional factors and defense mechanisms.

Author

Li, Yi-Han, Peng, Jing, Wu, Qing-Jun, Sun, Jing-Chen, Zhang, Peng-Jun, and Qiu, Bao-Li

Abstract

Whitefly Bemisia tabaci (Hemiptera: Aleyrodidae) is a destructive insect pest of many crops. Rickettsia infection in different cryptic species of B. tabaci has been observed worldwide. Understanding the interactions between these 2 organisms is critical to developing Rickettsia -based strategies to control B. tabaci and thereby reduce the transmission of related vector-borne viruses. In this study, we investigated the effects of Rickettsia infection on the biological characteristics of the Middle East Asia Minor 1 (MEAM1) strain of B. tabaci through biological analysis of infected and uninfected individuals. The results of this study suggest that Rickettsia may confer fitness benefits. These benefits include increased fertility, improved survival rates, accelerated development, and resulted in female bias. We also investigated the transcriptomics impact of Rickettsia infection on B. tabaci by performing a comparative RNA-seq analysis of nymphs and adult females, both with and without the infection. Our analysis revealed 218 significant differentially expressed genes (DEGs) in infected nymphs compared to uninfected ones and 748 significant DEGs in infected female adults compared to their uninfected whiteflies. Pathway analysis further revealed that Rickettsia can affect many important metabolic pathways in whiteflies. The results suggest that Rickettsia plays an essential role in energy metabolism, and nutrient synthesis in the B. tabaci MEAM1, and depends on metabolites obtained from the host to ensure its survival. Overall, our findings suggest that Rickettsia has beneficial effects on B. tabaci and offered insights into the potential molecular mechanisms governing the interactions between Rickettsia and B. tabaci MEAM1. [ABSTRACT FROM AUTHOR]

Published

2024

27. بررسی کارایی چند حشره کش گیاهی و شیمیایی روی آفات مکنده اول فصل در مزارع پنبه.

Author

مجید محمودی and غلامرضا گل محمدی

Abstract

The purpose of the current research is treatment of cotton seeds with appropriate pesticides and foliar application with plant compounds in a way that be effective in control of first-season sap sucking pests in cotton fields. This experiment was designed to study the effect of several treatments including: 1-seed treatment with Thiamethoxam (Cruiser®), 2-seed treatment with Thiodicarb (Larvin®), 3-seed treatment with Imidacloprid (Gaucho®), 4-foliar application of insecticidal soap containing coconut oil (Palizin®), 5-foliar application of botanical insecticide containing pepper extract (Tondexir®), 6-foliar application of imidacloprid (Confidor®), and 7-control for control of firstseason sap sucking pests in cotton fields. This research was carried out in a randomized complete block design with five replications at Darab Agricultural Research Station during two years (2020 and 2021). Seed treatments with Larvin® and Gaucho® were applied only in the second year of experiment. The results of the first year of the experiment showed that the cotton seed treatment with Cruser® kept the cotton seedlings free from the cotton aphid (Aphis gossypii Glover) until one month after the sowing date compared to other treatments that were applied as foliar spraying. The results of statistical analysis 41 days after sowing date showed that the most effective control method of onion thrips (Thrips tabaci Lindeman) is seed treatment with Cruiser®. The results of the second year of the experiment showed that Cruzer®, Larvin®, and Gaucho®, which were impregnated with cotton seeds, caused a significant decrease in the population density of cotton whitefly nymph [Bemisia tabaci (Gennadius)] until the end of the sampling period (41 days after sowing date). Foliar spraying of seedlings with herbal compounds (Palizin® and Tondexir®) in both years initially had a significant effect on reducing the population of aphids and whiteflies, but with increase of the time, their effect was less than other treatments. Based on the results of the present research, seed treatment with Cruzer® not only offers more control against cotton seedling sucking pests (onion thrips, cotton aphid and cotton whitefly), but also can be a better option in terms of economy, user's health and environmental effects. [ABSTRACT FROM AUTHOR]

Published

2024

28. Omics approaches to unravel insecticide resistance mechanism in Bemisia tabaci (Gennadius) (Hemiptera: Aleyrodidae)

Author

Muhammad Aqil Fitri Rosli, Sharifah Nabihah Syed Jaafar, Kamalrul Azlan Azizan, Salmah Yaakop, and Wan Mohd Aizat

Subjects

Whitefly, Pesticide resistance, Detoxification systems, Systems biology, Multi-omics, Gene silencing, Medicine, Biology (General), QH301-705.5

Abstract

Bemisia tabaci (Gennadius) whitefly (BtWf) is an invasive pest that has already spread worldwide and caused major crop losses. Numerous strategies have been implemented to control their infestation, including the use of insecticides. However, prolonged insecticide exposures have evolved BtWf to resist these chemicals. Such resistance mechanism is known to be regulated at the molecular level and systems biology omics approaches could shed some light on understanding this regulation wholistically. In this review, we discuss the use of various omics techniques (genomics, transcriptomics, proteomics, and metabolomics) to unravel the mechanism of insecticide resistance in BtWf. We summarize key genes, enzymes, and metabolic regulation that are associated with the resistance mechanism and review their impact on BtWf resistance. Evidently, key enzymes involved in the detoxification system such as cytochrome P450 (CYP), glutathione S-transferases (GST), carboxylesterases (COE), UDP-glucuronosyltransferases (UGT), and ATP binding cassette transporters (ABC) family played key roles in the resistance. These genes/proteins can then serve as the foundation for other targeted techniques, such as gene silencing techniques using RNA interference and CRISPR. In the future, such techniques will be useful to knock down detoxifying genes and crucial neutralizing enzymes involved in the resistance mechanism, which could lead to solutions for coping against BtWf infestation.

Published

2024

29. Emerging Threats of Exotic Viruses to the Oman Agriculture: Diversity and Management Strategies

Author

Al-Risi, Shahira, Al-Subhi, Ali, Al-Hinai, Husam, Zaki, Haitham E. M., Shahid, Muhammad, Shahid, Muhammad, editor, and Gaur, Rajarshi, editor

Published

2024

30. Seasonal incidence of insect pests and predatory Fauna in black gram

Author

Sreedhar, B K, Thumar, R K, Sisodiya, D B, and Senthilraja, N

Published

2024

31. Preference and performance of Bemisia tabaci (Gennadius) on different host plants

Author

Singh, Gurmail and Aggarwal, Naveen

Published

2024

32. Evaluation of integrated pest management practices against the incidence of white fly and bean yellow mosaic virus (BYMV) in Rajmash (Phaseolus vulgaris L.)

Author

Seetharamu, P., Sekhar, D., Rameshnaik, N., Jogarao, P., Sanddepnaik, B. N., Srinivasarao, M., Ramarao, G., and Sureshkumar, M.

Published

2024

33. The impact of abiotic variables on the dynamics of insect pest population in green gram, Vigna radiata

Author

Kumari, Sonu, Singh, Balbir, and Dumra, Neeru

Published

2024

34. Biochemical and morphological basis of resistance in okra (Abelmoschus esculentus (L.)) against whitefly and jassid

Author

Barman, Mritunjoy, Samanta, Snigdha, Atta, Kousik, Dutta, Subham, Dey, Soumik, Samanta, Arunava, Tarafdar, Jayanta, and Ahmed, Bulbul

Published

2024

35. Insecticidal crude protein from Citrullus colocynthis L. (Cucurbitaceae) against whitefly, Bemisia tabaci mitotype Asia II-1

Author

Hameed, Owais, Qayyum, Mirza Abdul, Saeed, Shafqat, Losey, John E., Ugine, Todd A., Naeem-Ullah, Unsar, and Ali, Muqarrab

Published

2024

36. Epidemics of Begomoviruses Transmitted by Bemisia tabaci in Habanero Peppers and the Efficacy of Botanical Insecticides

Author

Ruiz-Jiménez, Ana L., Chan-May, Yomara J., Ruiz-Sánchez, Esaú, Moreno-Valenzuela, Oscar A., Minero-García, Yereni, Samaniego-Gámez, Blancka Y., Latournerie-Moreno, Luis, and Pierre, Jacques Fils

Published

2024

37. Vibrations as a new tool for pest management – a review.

Author

Yanagisawa, Ryuhei, Tatsuta, Haruki, Sekine, Takayuki, Oe, Takaho, Mukai, Hiromi, Uechi, Nami, Koike, Takuji, Onodera, Ryuichi, Suwa, Ryuichi, and Takanashi, Takuma

Abstract

Sensory stimuli are essential for arthropod survival and reproduction. Given the widespread use of vibrational communication among diverse taxa, exploiting vibrational senses has great potential for successful pest management. In this review, we summarize our recent findings on vibration‐based pest management and future perspectives in the context of integrated pest management. We first examine the management of whiteflies – the tobacco whitefly, Bemisia tabaci (Gennadius) and the greenhouse whitefly, Trialeurodes vaporariorum (Westwood) (Hemiptera: Aleyrodidae) – in various facilities where tomatoes are cultivated. We then explore the recent application of vibration for the control of fungus gnats of the genus Neoempheria (Diptera: Mycetophilidae) infesting shiitake mushrooms. Finally, we discuss the control of the brown‐winged green stink bug, Plautia stali Scott (Hemiptera: Pentatomidae), a pest of fruit trees in Japan. Notably, our trials have demonstrated that vibrational treatments are profitable not only for reducing pest populations but also for indirect benefits such as increased crop yields or the enhancement of pest control effectiveness. [ABSTRACT FROM AUTHOR]

Published

2024

38. Discovery of Aleuroclava canangae (Corbett) (Hemiptera: Aleyrodidae) on Coleus in India and the establishment and review of the Aleuroclava canangae species group.

Author

Josephrajkumar, Arulappan, Evans, Gregory, Babu, Merin, Anes, Kakkanattu Meerasahib, Sajan, Jilu V., and Hegde, Vinayaka

Subjects

*ALEYRODIDAE, *SWEETPOTATO whitefly, *DNA analysis, *HEMIPTERA, *HOST plants, *SPECIES, *PLANT species

Abstract

Aleuroclava canangae (Corbett, 1935) was discovered on an ornamental Coleus species in Kerala, India, and represents the first occurrence of this species in India and on this plant host. The species is redescribed and illustrations of the puparium and adult males and females are provided along with morphometric data. A molecular analysis of the species using the COI gene was conducted to characterise it, determine its genetic lineage and compare it to seven other species of Aleuroclava Singh, 1931 and those of other whitefly genera. Results of the DNA analysis indicate that A. canangae forms a clade with Aleuroclava indica (Singh, 1932) which also has two pairs of very elongate, tuberculate setae which appear two-jointed because they have a wider basal part separated from a long slender apical part by a fine suture. The Aleuroclava canangae species group is established and an illustrated key is provided for the 12 species in the group, all of which were once placed in the genus Martiniella Jesudasan and David, 1990, now a synonym of Aleuroclava. The molecular analysis indicates that A. psidii (Singh, 1931), A. guyavae (Takahashi, 1932), A. montanus (Takahashi, 1939) and A. gordoniae (Takahashi, 1932) form a clade within the genus Aleuroclava and share similar morphological characters. Based on the results of the molecular and morphological analyses, Aleurothrixus trachoides (Back, 1912) is transferred back to Aleurotrachelus trachoides (Back, 1912) based on its morphology and the results of the DNA analysis. [ABSTRACT FROM AUTHOR]

Published

2024

39. Low-cost water boiling method successfully employed to extract DNA from a single whitefly to detect yellow mosaic disease-causing viruses in PCR.

Author

Kumar, Deepender, Akram, Mohammad, and Kamaal, Naimuddin

Subjects

*ALEYRODIDAE, *MOSAIC diseases, *MOSAIC viruses, *PLANT viruses, *HOST plants, *CROP losses

Abstract

A cost-effective DNA extraction approach was developed and applied to PCR-based identification of yellow mosaic disease (YMD) causing viruses in individual whiteflies. Whiteflies were collected from urdbean and eggplant, representing host and non-host plants of target viruses, respectively. DNA from whiteflies was successfully extracted using the nuclease-free water boiling method and optimised template concentration for PCR assays. An average nucleic acid content of 3.844 ± 0.14 ng/µl was extracted from individual whiteflies in 50 µl nuclease-free water. PCR assays revealed Mungbean yellow mosaic India virus (MYMIV) presence in 90% of the whiteflies collected from urdbean. Conversely, YMD-causing viruses were not present in whiteflies collected from eggplant or in the eggplant plants themselves. The use of this low-cost approach for detecting YMD-causing viruses in whiteflies is very effective for the surveillance and monitoring of viruses. Early detection facilitates the deployment of appropriate management strategies, reducing both crop losses and the potential for outbreaks. [ABSTRACT FROM AUTHOR]

Published

2024

40. Viral complexity of tomatoes yellow mosaic and leaf curl diseases in lowland and highland areas.

Author

Hermanto, Rudy, Murti, Rudi Hari, Hartono, Sedyo, Purwantoro, Azis, Wijonarko, Arman, Mulyantoro, Nahampun, Hartinio Natalia, and Afifuddin, Ahmad

Subjects

*TOMATO diseases & pests, *MOSAIC viruses, *TOMATOES, *GREENHOUSE whitefly, *UPLANDS, *SWEETPOTATO whitefly, *DISEASE incidence, *PLANT diseases

Abstract

Yellow mosaic and leaf curl diseases caused by whitefly‐transmitted begomo virus genera are important problems in tomato (Solanum lycopersicon L.) production in Indonesia, particularly on Java Island. The aims of this survey are to assess the percentages of disease incidence (DI) and disease severity index (DSI), evaluate the spread and complexity of begomovirus and crinivirus infections responsible for yellow mosaic and leaf curl diseases in tomato plants, and identify the species of whitefly insect vectors and their cryptic biotypes in tomato production centers located on Java Island, Indonesia. A total of 43 locations in East, Central, and West Java were surveyed during the dry season from July 2022 to September 2022. Disease incidence and severity were determined by observing 200 samples of tomato plants from five points at each location, with 40 plants per point of land. A total of 116 whitefly samples in microtubes and 215 symptomatic leaf samples were collected. The genus begomovirus and crinivirus infecting tomato were identified by PCR and RT‐PCR using genus‐specific primers. Similarly, whitefly species and their cryptic biotypes were identified by PCR using MCoI gene‐specific primers. Results showed that DI and DSI remarkably differed between the lowlands (66%–89%) and highlands (33%–62%) in the provinces of Central Java and West Java. Furthermore, PCR analysis of 215 infected tomato showing the symptoms of yellow mosaic and curly leaf revealed that three begomoviruses, one crinivirus and their mixed combination both begomoviruses, one crinivirus has been detected in all the samples. Similarly, the whitefly insect vector Bemisia tabaci biotype Q was identified in all areas, whereas Trialeurodes vaporariorum was found only in the East Java and Java highlands, respectively. [ABSTRACT FROM AUTHOR]

Published

2024

41. Influence of Alternative Prey on the Functional Response of a Predator in Two Contexts: With and without Intraguild Predation.

Author

Cicero, Lizette, Chavarín-Gómez, Luis Enrique, Pérez-Ascencio, Daniela, Barreto-Barriga, Ornella, Guevara, Roger, Desneux, Nicolas, and Ramírez-Romero, Ricardo

Subjects

*PREDATION, *APHIDS, *GREEN peach aphid, *GREENHOUSE whitefly, *PREDATORY animals, *ALEYRODIDAE, *PEST control, *CONSUMPTION (Economics)

Abstract

Simple Summary: The present study explores the impact of alternative prey on predator–prey dynamics in two contexts, without and with intraguild predation (IGP). It was found that without IGP, G. punctipes displayed a generalized functional response regardless of the alternative prey. However, under IGP conditions, the predator's functional response shifted to Type II, but the alternative prey did affect this response and it turned to a generalized type. In both contexts, handling times increased and consumption of the focal prey decreased as the density of the alternative prey increased. The presence of parasitized whitefly nymphs notably affected predator–prey dynamics, probably due to changes in prey characteristics. In biological control, joint releases of predators and parasitoids are standard. However, intraguild predation (IGP) can occur when a predator attacks a parasitoid, potentially affecting pest control dynamics. In addition to the focal prey (FP), Trialeurodes vaporariorum, the intraguild predator (IG-predator) Geocoris punctipes can consume the parasitoid Eretmocerus eremicus (IG-prey). In this IGP context with multiple prey, an alternative prey (AP), like the aphid Myzus persicae, may influence interactions. Theory predicts that, in simple interactions, a predator's functional response (FR) to the FP changes with the presence of an AP. However, whether this holds in an IGP context is unknown. In this study, we empirically tested that prediction. Our results show that without IGP, G. punctipes exhibits a generalized FR with and without AP. Nevertheless, with IGP, the predator exhibited a Type II FR at low and high AP densities, increasing pressure on the FP and potentially favoring short-term biological control strategies. However, when 25 AP were offered, the predator's response shifted, underscoring the importance of monitoring AP densities to prevent potential disruptions in FP control. In both contexts, the increase in AP produced a handling time increase and a decrease in consumption rate. These results indicate that the theoretical prediction of the effect of AP on the FR is met only under specific conditions, and the complexity of multitrophic interactions must be considered. [ABSTRACT FROM AUTHOR]

Published

2024

42. The Synergistic Effect of Lemongrass Essential Oil and Flometoquin, Flonicamid, and Sulfoxaflor on Bemisia tabaci (Genn.) (Hemiptera: Aleyrodidae): Insights into Toxicity, Biochemical Impact, and Molecular Docking.

Author

Moustafa, Moataz A. M., Ahmed, Fatma S., Alfuhaid, Nawal Abdulaziz, El-Said, Nourhan A., Ibrahim, El-Desoky S., and Awad, Mona

Subjects

*SWEETPOTATO whitefly, *ESSENTIAL oils, *MOLECULAR docking, *LEMONGRASS, *ALEYRODIDAE, *BINARY mixtures, *CYTOCHROME c, *TERPENES

Abstract

Simple Summary: As whiteflies, Bemisia tabaci (Genn.), are continually developing resistance to conventional insecticides, it is crucial and pressing to seek new approaches to management. In this study, the synergistic effect of lemongrass essential oil and flometoquin, flonicamid, and sulfoxaflor on B. tabaci was studied. Based on the found LC values, the decreasing order of toxicity to B. tabaci was as follows: sulfoxaflor > flonicamid > flometoquin > lemongrass EO. Sulfoxaflor and flonicamid exhibited significant inhibition of AchE activity, while only flonicamid demonstrated a significant impact on α-esterase. However, none of the tested compounds affected cytochrome P450 or GST. Additionally, lemongrass EO and the tested insecticides exhibited significant binding affinity to AchE. The whitefly, Bemisia tabaci (Genn.), is one of the most dangerous polyphagous pests in the world. Eco-friendly compounds and new chemical insecticides have gained recognition for whitefly control. In this study, the toxicity and biochemical impact of flometoquin, flonicamid, and sulfoxaflor, alone or combined with lemongrass essential oil (EO), against B. tabaci was studied. In addition, a molecular docking study was conducted to assess the binding affinity of the tested compounds to AchE. Based on the LC values, the descending order of the toxicity of the tested compounds to B. tabaci adults was as follows: sulfoxaflor > flonicamid > flometoquin > lemongrass EO. The binary mixtures of each of the tested compounds with lemongrass EO exhibited synergism in all combinations, with observed mortalities ranging from 15.09 to 22.94% higher than expected for an additive effect. Sulfoxaflor and flonicamid, alone or in combination with lemongrass EO, significantly inhibited AchE activity while only flonicamid demonstrated a significant impact on α-esterase, and none of the tested compounds affected cytochrome P450 or GST. However, the specific activity of P450 was significantly inhibited by the lemongrass/sulfoxaflor mixture while α-esterase activity was significantly inhibited by the lemongrass/flometoquin mixture. Moreover, the lemongrass EO and all the tested insecticides exhibited significant binding affinity to AchE with energy scores ranging from −4.69 to −7.06 kcal/mol. The current findings provide a foundation for utilizing combinations of essential oils and insecticides in the integrated pest management (IPM) of B. tabaci. [ABSTRACT FROM AUTHOR]

Published

2024

43. Tracking Sweet Potato Leaf Curl Virus through Field Production: Implications for Sustainable Sweetpotato Production and Breeding Practices.

Author

Andreason, Sharon A., McKenzie-Reynolds, Petrina, Whitley, Kaitlyn M., Coffey, John, Simmons, Alvin M., and Wadl, Phillip A.

Subjects

SUSTAINABILITY, SWEET potatoes, VEGETATIVE propagation, CONVOLVULACEAE, DATA scrubbing, GERMPLASM

Abstract

Sweet potato leaf curl virus (SPLCV) is a whitefly-transmitted begomovirus infecting sweetpotato and other morning glory (Convolvulaceae) species worldwide. The virus is widespread at the USDA, ARS, U.S. Vegetable Laboratory (USVL), and testing of germplasm maintained in the breeding program indicates nearly 100% infection in storage roots of materials propagated for at least four years. Prior to the public release of new germplasm, viruses must be eliminated via laborious and time-consuming meristem-tip culture. The identification of virus-free seedlings early in the selection process can offer an alternative to meristem-tip culture. In this study, we investigated the transmission of SPLCV over two years of consecutive field plantings (early and late) of sweetpotato. While SPLCV is endemic at the USVL, virus transmission pressure over the typical cultivation season is unknown, and avoidance of virus transmission paired with the selection and maintenance of clean material may be a viable alternative to virus elimination. In 2022, the storage roots of 39 first-year seedling (FYS) selections were tested for SPLCV after early-season cultivation, revealing a single selection (2.6%) with a positive test. Similar testing was conducted in 2023 with no SPLCV-positive FYS selections detected. To further assess SPLCV acquisition in the field, replicated late-season plantings of each selected FYS (n = 37) were monitored from planting to harvest. Testing was conducted at 60 and 120 days after planting (DAP). Approximately 35% of the bulk samples were infected at 60 DAP, and infection increased to 52.3% by 120 DAP. Testing of individuals within selected positive bulked samples did not support 100% infection at harvest. Altogether, these results demonstrate that SPLCV transmission during early planting is sufficiently low to facilitate the maintenance of virus-free selections, offering an alternative to virus cleaning and a cultivation strategy that may be leveraged for production. [ABSTRACT FROM AUTHOR]

Published

2024

44. Efficacy of Amblyseius swirskii, Neoseiulus californicus (Acari: Phytoseiidae), and acaricides in controlling some pests on sweet pepper in greenhouses.

Author

Elhalawany, Ashraf S., Ibrahim, Noha A., Amer, Ahmad I., and Abdel-Khalik, Asmaa R.

Subjects

*ACARICIDES, *SWEET peppers, *PEST control, *BIOLOGICAL pest control agents, *PHYTOSEIIDAE, *TWO-spotted spider mite

Abstract

In Egypt, serious piercing-sucking pests such as the western flower thrips, Frankliniella occidentalis, white fly, Bemisia tabaci, the broad mite, Polyphagotarsonemus latus, and the two-spotted spider mite, Tetranychus urticae cause significant yield losses in sweet pepper crop grown in greenhouses. The purpose of this research is to assess the effectiveness of two phytoseiid mites, Amblyseius swirskii and Neoseiulus californicus, as biological control agents for piercing-sucking pests on sweet pepper in greenhouses, compared with chemical acaricides. Three release rates were assessed: 10 adults of A. swirskii/plant, 10 adults of N. californicus/plant, and 7 adults of A. swirskii + 7 adults of N. californicus combined. The highest population density of B. tabaci and F. occidentalis was on yellow 'Qiuda' followed by significant damage with T. urticae. Red 'Grand bell', on the contrary, was consistently more susceptible to T. urticae and moderately prone to whitefly infestation. Both biological and chemical pest control were efficient in reducing pest populations on sweet pepper in greenhouses. The results indicated that A. swirskii, alone or in combination with N. californicus, was more effective against F. occidentalis, B. tabaci, and P. latus on both pepper cultivars than acaricides sprayed under the same conditions. Moreover, the predatory mite, N. californicus, outperformed A. swirskii and acaricides against T. urticae. Together, the predatory mites, A. swirskii and N. californicus can improve biological control of piercing-sucking pests. The yield increased by 37.4 to 40.0% over the control treatment using the biological control candidates. Furthermore, biological control program resulted in the highest cost reductions for sweet pepper production (35.7-40.7 and 16.2-27.2%) compared to the control and acaricides treatments, as well as a safe yield free of chemical residues. [ABSTRACT FROM AUTHOR]

Published

2024

45. Impact Analysis of Biorational Insecticides under Weeded and Non Weeded Habitat on Whitefly, Bemisia tabaci Management in Cotton Agroecosystem.

Author

Kumar, Amit, Kumar, Dalip, Rolania, Krishna, Kalkal, Deepika, Yadav, Naresh Kumar, and Saini, Vivek Kumar

Abstract

Transgenic Bt cotton is effective to a high degree of, with respect to target lepidoptran bollworms, however sucking pests especially whitefly posed a serious issues in absence of bollworm in genetically modified (GM) crops. Therefore, to understand the efficacy of various biorational compounds against whitefly under non-weedy as well as weedy field conditions, studies on whitefly carried out during kharif 2018, to know the changes in number of whitefly adults as well as nymphs. Transgenic hybrid cotton variety RCH 650 was sown with a spacing of 100x45 cm and replicated four times in both non-weedy and weedy habitat. Although, standard check Dimethoate 30 EC proved it's efficacy after first and second spray in cotton crop against whitefly. Not with standing, after the application of biorational first time as spray in 29th Standard Meteoroloical Week (SMW), Nimbecidine 300 ppm was admitted as most effective in non-weedy (66.76 and 60.65% mean mortality in whitefly adult and nymph, respectively) as well as in weedy habitat that caused 56.77 and 55.54% mean mortality in adult and nymph, respectively over a period of seven days after application. Entomopathogenic fungi Verticillium lecanii found better to control whitefly adults (42.06 and 40.63%), while Metarhizium anisopliae (42.39 and 36.01%) found more effective for nymphal mortality in non-weedy as well as in weedy habitat. One and same pattern of efficacy of biorational was reconstructed against whitefly again after second application of biorational in all the treatment selected to test against whitefly. [ABSTRACT FROM AUTHOR]

Published

2024

46. A comprehensive review: persistence, circulative transmission of begomovirus by whitefly vectors.

Author

Idrees, Muhammad Aqib, Abbas, Arzlan, Saddam, Babu, Bashir, Muhammad Hamid, Naveed, Hassan, Khan, Ahmad Kamran, and Dara, Muhammad Zulqar Nain

Subjects

*SWEETPOTATO whitefly, *HEMIPTERA, *ALEYRODIDAE, *PLANTHOPPERS, *PHYTOPATHOGENIC microorganisms, *PLANT diseases

Abstract

Plant pathogenic viruses rely on insect vectors for transmission. Among insects, hemipterans, including aphids, leafhoppers, plant hoppers, whiteflies, mealybugs, true bugs, and certain treehoppers, are predominant as vectors for plant viruses. Plant viruses contribute to more than 47% of worldwide plant diseases. Bemisia tabaci is one of the most threatening pests in agriculture, causing significant losses to many important crops on a global scale. Among the most destructive viruses facilitated by whiteflies are begomoviruses (Geminiviridae), forming an emergent and critical group of plant pathogens solely transmitted by the sweet-potato whitefly Bemisia tabaci. In this comprehensive review, we delve into the wealth of data concerning the diverse transmission capacities of various whitefly species, including cryptic members of the B. tabaci complex, in their role as vectors for begomovirus and other viruses. We presented a meticulous analysis of the factors influencing viral transmission by whiteflies, shedding light on the intricate interplay of viruse and their insect vectors. Moreover, this review serves as a crucial reference, presenting a profound exploration of the intricate relationships between whitefly vectors and begomoviruses, and providing valuable insights for the scientific community working towards the sustainable management of plant diseases in the face of evolving challenges posed by these complex biological systems. [ABSTRACT FROM AUTHOR]

Published

2024

47. Assessment of tomato genotypes against the whitefly, Bemisia tabaci Gennadius (Hemiptera: Aleyrodidae) and Tomato leaf curl virus under controlled condition.

Author

Ponselvakumari, M. K., Murugan, M., Chinniah, C., Karthikeyan, G., Ramalingam, J., and Beaulah, A.

Subjects

*SWEETPOTATO whitefly, *ALEYRODIDAE, *HEMIPTERA, *GENOTYPES, *TOMATOES, *TOMATO yellow leaf curl virus, *TOMATO diseases & pests, *ANTIBIOSIS

Abstract

The tomato leaf curl viruses (ToLCVs) causing tomato leaf curl disease (ToLCD) in tomatoes is one of the significant constraints for tomato production worldwide and is transmitted by the whitefly, Bemisia tabaci. The ToLCVs, with the emergence of several recombinant variants and B. tabaci with changes in its capability in pathogen transmission, are reported all over the Indian subcontinent. Tomato genotypes resistant to B. tabaci and ToLCV are vital for sustainable control of ToLCD. In the current study, the level of resistance/susceptibility of tomato genotypes to B. tabaci and ToLCV incidence under greenhouse conditions were studied, and promising entries were assessed for antixenosis (non-preference) and antibiosis resistance against B. tabaci. Greenhouse screening by mass release of ToLCV-virulent whiteflies revealed that genotypes EC-520,078 and EC-620,389 (p = < 0.0001) recorded highly resistant reactions for whitefly infestation and ToLCV incidence. The adult settling assay revealed that the genotypes EC-520,078, EC-620,389, EC-315,477, and EC-620,401 (p = < 0.0001) were less preferred by whiteflies. Tests on fecundity, nymphal emergence, nymphal development, and population buildup were conducted to infer the antibiosis effect of the tomato genotypes against B. tabaci. The genotype EC-520,078 (p = < 0.0001) recorded the lowest number of eggs, EC-620,389 (p = < 0.0001) with the lowest nymphal emergence, and EC-520,078, EC-620,389, and EC-620,401 (p = < 0.0001) registered the lowest nymphal development. The F2 generation in the population buildup study was significantly lower in EC-520,078, followed by EC-620,389 and EC-631,364 (p = < 0.0001). The identified resistant sources could be used to develop resistant genotypes against whiteflies and ToLCV in tomatoes. [ABSTRACT FROM AUTHOR]

Published

2024

48. Biochemical and molecular analyses of insecticide resistance in greenhouse populations of Bemisia tabaci (Hemiptera: Aleyrodidae) in Türkiye.

Author

Erdogan, Cem, Toprak, Umut, and Gurkan, M. Oktay

Abstract

The sweet potato/cotton whitefly Bemisia tabaci (Gennadius) (Hemiptera: Aleyrodidae) is one of the most destructive vegetable pests in greenhouses in Türkiye. While the preferred method of control primarily relies on insecticides such as neonicotinoids, organophosphates and pyrethroids, their intensive use has caused whiteflies to rapidly become resistant. Samples were collected from 13 Turkish B. tabaci greenhouse populations. Bioassays from the Marmara Region identified as high as a 53-fold increase in resistance to chlorpyrifos-ethyl, a 303-fold increase to imidacloprid and a 282-fold increase to acetamiprid. Bioassays in the Central Anatolia Region reported a 76-fold increase in resistance to deltamethrin and—15-fold increase to thiamethoxam. Most of the populations showed cross-resistance for neonicotinoids. All collected B. tabaci populations were determined to be MEAM 1 (also referred to as biotype B) for diagnostic band E0.14. The E0.14 esterase variant that helps to diagnose biotype B insects was found in all individuals from field populations. Almost all populations showed higher non-specific esterase, glutathione-S-transferase (GST) and monooxygenase activity when compared to susceptible SUD-S population. AChE insensitivity assays for individual B. tabaci suggest a target-site modification as a mechanism of resistance to chlorpyrifos-ethyl. This is the first report of AChE variants identified based on their sensitivities to chlorpyrifos ethyl-oxon and pirimicarb in Turkish B. tabaci populations. Fixed ace mutations in the target-site of organophosphates and pyrethroids were identified in six populations. Resistance to organophosphates and neonicotinoids were at least partially related to both ace mutations and insensitive AChE and monooxygenase activities, respectively. The results will help develop effective resistance management programs of B. tabaci in Türkiye. [ABSTRACT FROM AUTHOR]

Published

2024

49. CORRELATION OF MORPHOMETRIC AND BIOCHEMICAL PARAMETERS OF DIFFERENT VARIETIES OF SESAME WITH MAJOR INSECT PESTS.

Author

Pipoda, Sanju, Hussain, Akhter, and Priyanka

Subjects

SESAME, LEAFHOPPERS, PLANT spacing, ALEYRODIDAE, AMINO acids, TRICHOMES, INSECT pests

Abstract

The experimental trials were conducted at Agronomy farm S. K. N. College of Agriculture, Jobner (Rajasthan) during kharif 2019 to identify the infestation of major insect pests of sesame (leaf roller and capsule borer, leafhopper and whitefly). Ten sesame varieties were screened to know their response on the basis of morphometric and biochemical characters. The morphological characters of plant showed that the variety RT-346, which had more number of leaves, branches, capsules per plant and number of trichomes per mm² was found least susceptible for the leaf roller and capsule borer, leafhopper and whitefly population. Whereas the variety RT-46 was found to be most susceptible, which had less trichomes than the variety RT-346. Thus, the morphometric characters like number of leaves per plant, number of branches per plant, number of capsules per plant and trichome density per mm², showed a negative correlation with the mean population of leaf roller and capsule borer, leafhopper and whitefly population in sesame. The total phenols had a negative and significant correlation, while free amino acids, total soluble sugars, protein content and chlorophyll had positive and significant correlation with leaf roller and capsule borer, leafhopper and whitefly population. [ABSTRACT FROM AUTHOR]

Published

2024

50. EFFICACY OF DIFFERENT INSECTICIDES AGAINST SUCKING INSECT PESTS OF POTATO CROP.

Author

Kajla, Ankit, Kumar, Ajay, and Kumar, Satyandra

Subjects

INSECT pests, AGRICULTURAL pests, INSECTICIDES, CHLORANTRANILIPROLE, IMIDACLOPRID, THIAMETHOXAM, ABAMECTIN

Abstract

Field trials were conducted over two seasons in 2019-20 and 2020-21 at experimental fields near Shri Venkateshwara University, Amroha, U.P. The present study on the efficacy of a new group of insecticides against insect pests of potato crop was designed in a randomised block design with nine treatments replicated thrice. The treatments included (T1): Thiamethoxam 25 WG @ 150 g/ha (Actra), (T2): Imidacloprid 17.8 SL @ 150 ml/ha (Confidor), (T3): Flonicamid 50% WG @ 150 ml/ha (Ulala), (T4): Abamectin 1.9% EC @ 125 ml/ha (Abacin), (T5): Indoxacarb 14.5% SC @ 250 ml/ha (Avaunt), (T6): Flubendiamide 39.35% SC @ 125 ml/ha (Fame), (T7): Spinosad 45% SC @ 150 ml/ha (Tracer), (T8): Chlorantraniliprole 18.5% SC @ 150 ml/ha (Coragen) and (T9): Control (Water spray). Totally, three sprays were taken up. The first spray was given on the 25th day after emergence and the second and third sprays were made at 40 and 55 days after emergence, respectively. The treatments with three sprays of Thiamethoxam 25 WG @ 150 g/ha, Imidacloprid 17.8 SL @ 150 ml/ha and Flonicamid 50% WG @ 150 ml/ha were effective in reducing the population of aphids, whiteflies and leafhoppers in potato. The next best treatments in this respect were Abamectin 1.9% EC @ 125 ml/ha and Flubendiamide 39.35% SC @ 125 ml/ha. [ABSTRACT FROM AUTHOR]

Published

2024