13 results on '"Saleh Mohammad Adnan"'
Search Results
2. Methoprene‐induced matings of young Queensland fruit fly males are effective at inducing sexual inhibition in females
- Author
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Iffat Farhana, Phillip W. Taylor, Polychronis Rempoulakis, and Saleh Mohammad Adnan
- Subjects
Bactrocera tryoni ,Queensland Fruit Flies ,biology ,Sexual inhibition ,Physiology ,Methoprene ,biology.organism_classification ,Sterile insect technique ,chemistry.chemical_compound ,Dietary treatment ,chemistry ,Insect Science ,Juvenile hormone ,behavior and behavior mechanisms ,Mating ,Agronomy and Crop Science ,reproductive and urinary physiology - Abstract
Pre‐release dietary treatment with methoprene, a juvenile hormone analogue, decreases the age at which male Queensland fruit flies mature and hence may decrease the post‐release delay until released sterile flies participate in sterile insect technique (SIT) programmes. However, if matings of young methoprene‐treated males are not effective at inducing sexual inhibition in their mates, then this treatment may not enhance SIT. The present study investigates efficacy of matings of methoprene‐treated males at inducing sexual inhibition in their mates. Methoprene incorporated into a diet of sugar and yeast hydrolysate (w/w 3:1) for 48 hr after emergence resulted in significantly increased male mating propensity when flies were
- Published
- 2020
3. ECO-FRIENDLY MANAGEMENT OF RICE YELLOW STEM BORER, SCIRPOPHAGA INCERTULUS (PYRALIDAE: LEPIDOPTERA) THROUGH REDUCING RISK OF INSECTICIDES
- Author
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Ahasanul Hoque, M Salahuddin, Saleh Mohammad Adnan, Khandakar Shariful Islam, Md. Mahfujur Rahman, M Jahan, and Majharul Islam
- Subjects
Lepidoptera genitalia ,Toxicology ,biology ,Neem extract ,Infestation ,medicine ,Randomized block design ,Paddy field ,PEST analysis ,Scirpophaga ,medicine.disease_cause ,biology.organism_classification ,Pyralidae - Abstract
A study was conducted during the period of January to July, 2012 in the Entomology Field Laboratory, Bangladesh Agricultural University, Mymensingh to manage the Yellow Stem Borer (YSB) of rice eco-friendly following the Randomized Complete Block Design (RCBD) with four replications using the rice variety TN1. To keep in view this point, three insecticides viz. Dursban 20 EC, Convoy 25 EC, Belt 24 WG and three botanical extracts viz. Neem, Tobacco, Karanja extracts were used to compare their effectiveness against Yellow Stem Borer (YSB),Scirpophaga incertulus and also against natural enemies of Yellow Stem Borer (YSB) as Yellow Stem Borer (YSB),Scirpophaga incertulus causes dead heart and white head symptoms at vegetative and reproductive stage of rice respectively, the number of dead heart and white head symptoms were counted at different time interval viz. 7, 15, 21 days after spraying (DAS) to assess the effectiveness of the treatments. The chemicals and botanicals caused significant difference in their effects against Yellow Stem Borer (YSB). Among the chemicals Dursban 20 EC caused highest reduction in dead heart and white head symptoms and in case of botanicals Neem extracts caused highest reduction in the symptoms. The chemicals and botanicals were also evaluated for their side effects on natural enemies of rice. The botanicals were found less harmful than insecticides. Natural enemies like Lady Bird Beetle and Spider were abundant in the Neem extract sprayed rice field after several weeks of its application. The insecticides and botanicals reduced the infestation of Yellow Stem Borer (YSB), Scirpophaga incertulus and thereby significantly influenced the yield performance of rice. Dursban 20 EC treated plot showed highest yield (1.80 Kg/ plot) and Neem extract treated plot showed the yield 1.40 Kg/ plot. Considering the efficacy and eco-friendly nature of Neem extracts it could be considered as an effective botanicals in successful management of the pest Yellow Stem Borer (YSB), Scirpophaga incertulus of rice.
- Published
- 2020
4. Dietary methoprene enhances sexual competitiveness of sterile male Queensland fruit flies in field cages
- Author
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Jess R. Inskeep, Phillip W. Taylor, Polychronis Rempoulakis, Saleh Mohammad Adnan, and Iffat Farhana
- Subjects
Bactrocera tryoni ,Queensland Fruit Flies ,Ecology ,Sterility ,fungi ,High mortality ,Zoology ,Methoprene ,Plant Science ,Biology ,biology.organism_classification ,chemistry.chemical_compound ,Sterile insect technique ,chemistry ,Insect Science ,Tephritidae ,Juvenile hormone ,Agronomy and Crop Science ,Ecology, Evolution, Behavior and Systematics - Abstract
Queensland fruit flies Bactrocera tryoni (Froggatt) have a long adult maturation phase which, together with high mortality rates, can substantially reduce number of released flies that survive to mature and contribute to sterile insect technique (SIT) programmes. This constraint on SIT can potentially be addressed by incorporating methoprene, a juvenile hormone analogue, into an adult diet of sugar and yeast hydrolysate for 2 days after emergence. Methoprene treatments have been found to accelerate sexual development of male Queensland fruit fly, resulting in increased mating propensity of 5–7-day-old males in no-choice laboratory trials. Before considering deployment of methoprene as a pre-release treatment in SIT, it is necessary to demonstrate mating competitiveness and compatibility of methoprene-treated flies under field-like conditions. In the present study, we assessed whether methoprene treatment increases ability of sterile males (5 and 7 days old) to compete with mature (wild or laboratory) males for matings with mature (wild or laboratory) females in field cages. We also investigated mating compatibility to test for sexual isolation between sterile flies and mature (wild or laboratory) fertile flies. In mating competitiveness tests, methoprene-treated males of either age outperformed mature wild or laboratory males for matings with mature wild or laboratory females, respectively. Untreated 5- and 7-day-old males were less competitive than mature wild or laboratory mature males and hence had lower relative sterility indexes. Methoprene-treated males mated earlier in the evening and continued mating for longer than untreated sterile males and mature wild or laboratory males. In mating compatibility trials, methoprene-treated males mated equally with methoprene-treated females and mature females, whereas methoprene-treated females tended to mate more often with mature males than with methoprene-treated males. However, untreated flies of both sexes exhibited substantial sexual isolation. Pairings that comprised methoprene-treated males and mature females had shorter mating latency and longer copulations than other pairings. Unlike males, methoprene-treated females did not exhibit changes in mating latency or duration. Overall, the present study supports the use of pre-release dietary methoprene treatment in Queensland fruit fly SIT.
- Published
- 2019
5. Caffeine as a promotor of sexual development in sterile Queensland fruit fly males
- Author
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Phillip W. Taylor, Soo Jean Park, Polychronis Rempoulakis, Iffat Farhana, and Saleh Mohammad Adnan
- Subjects
Male ,0106 biological sciences ,Integrated pest management ,media_common.quotation_subject ,Longevity ,lcsh:Medicine ,Reproductive biology ,Biology ,010603 evolutionary biology ,01 natural sciences ,Article ,Toxicology ,Sexual Behavior, Animal ,chemistry.chemical_compound ,Sterile insect technique ,Caffeine ,Animals ,Sexual maturity ,Sexual Maturation ,Mating ,lcsh:Science ,media_common ,Bactrocera tryoni ,Multidisciplinary ,Reproduction ,Sexual Development ,lcsh:R ,Tephritidae ,fungi ,biology.organism_classification ,Animal Feed ,010602 entomology ,chemistry ,Dietary Supplements ,lcsh:Q ,Central Nervous System Stimulants ,Female ,PEST analysis ,Entomology - Abstract
Sterile insect technique (SIT) is an environmentally benign pest management technique that involves releasing millions of sterile insects to suppress reproduction of pest populations. Many fruit flies, including Queensland fruit fly (Bactrocera tryoni Froggatt, ‘Q-fly’), have long adult maturation periods such that pre-maturation mortality can greatly reduce abundance of sexually active sterile males and impede SIT efficacy. Q-fly is the most difficult and costly challenge to market access for Australia’s horticulture industries, and has been targeted for intensive use of SIT program. We here demonstrate potential of pre-release caffeine supplements as a novel means to accelerate sexual maturation in male Q-fly. In mating trials, analytical caffeine was very effective at accelerating sexual maturation, while no positive effects of caffeine-containing instant coffee or guarana supplements were detected. In parallel, development of testes and ejaculatory apodemes was accelerated in males provided analytical caffeine but not instant coffee or guarana. High doses of guarana and instant coffee reduced longevity while even the highest doses of analytical caffeine did not affect longevity. Pre-release caffeine supplements promote sexual maturation in Q-flies, and similar benefits are expected in other fruit flies having long adult maturation periods.
- Published
- 2020
6. Artificial Larval Diet Mediates the Microbiome of Queensland Fruit Fly
- Author
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Rajib Majumder, Brodie Sutcliffe, Saleh Mohammad Adnan, Bishwo Mainali, Bernard C. Dominiak, Phillip W. Taylor, and Toni A. Chapman
- Subjects
Microbiology (medical) ,Bactrocera tryoni ,gut bacteria ,Larva ,biology ,stress tolerance ,Hatching ,fungi ,Tephritidae ,Illumina sequencing ,lcsh:QR1-502 ,Zoology ,biology.organism_classification ,artificial diet ,Microbiology ,lcsh:Microbiology ,mating ,Pupa ,Sterile insect technique ,domestication ,Microbiome ,Mating ,development ,Original Research - Abstract
Larval diets used for artificial rearing can have a significant effect on insect biology. The Queensland fruit fly (aka ‘Qfly’), Bactrocera tryoni (Froggatt) (Diptera: Tephritidae), is one of the greatest challenges for fruit growers in Australia. The sterile insect technique (SIT) is being developed to manage outbreaks in regions that remain free of Qfly and to reduce populations in regions where this species is endemic. Factory scale rearing is essential for SIT; however, artificial larval diets are known to affect the microbiome of Qfly, which may then affect fly performance. In this study, high-throughput Illumina sequencing was used to assess the Qfly microbiome in colonies reared, for five generations from nature, on two common artificial diets (carrot and gel). At generation five (G5), the microbiome was assessed in larvae, pupae, adult males and adult females and standard fly quality control parameters were assessed together with additional performance measures of mating propensity and survival under nutritional stress. At the genus level, bacterial communities were significantly different between the colonies reared on the two larval diets. However, communities converged at Phyla to family taxonomic levels. Interestingly, pathogenic bacterial genera (e.g., Morganella, Citrobacter, Providencia, Burkholderia) were highly abundant in all developmental stages of Qfly reared on the gel diet, when compared to the carrot diet. Despite abundance of these commonly pathogenic genera, a greater percentage of egg hatching, heavier pupal weight and a higher percentage of fliers were found in the Qfly reared on the gel diet. Mating propensity and survival under nutritional stress was similar for adult Qfly that had been reared on the two larval diets. Overall, our findings demonstrate that the artificial larval diet strongly influences the microbiome and quality control measures of Qfly, with likely downstream effects on performance of flies released in SIT programs.
- Published
- 2020
7. Methoprene treatment increases activity, starvation and desiccation risk of Queensland fruit fly
- Author
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Saleh Mohammad Adnan, Iffat Farhana, Phillip W. Taylor, and Polychronis Rempoulakis
- Subjects
Male ,Bactrocera tryoni ,Starvation ,biology ,Physiology ,Tephritidae ,fungi ,Methoprene ,Saccharomyces cerevisiae ,biology.organism_classification ,chemistry.chemical_compound ,Sterile insect technique ,Animal science ,chemistry ,Insect Science ,Juvenile hormone ,medicine ,Animals ,Sexual maturity ,Sexual Maturation ,Desiccation ,medicine.symptom ,Sugar - Abstract
Juvenile hormone is an important regulator of sexual development in insects, and application of methoprene, a juvenile hormone analogue, together with access to a protein-rich diet, has been found to accelerate sexual maturation of several tephritid fruit fly species including Queensland fruit fly Bactrocera tryoni (‘Q-fly’). Such accelerated development is a potentially valuable means to increase participation of released males in sterile insect technique programs. However, there is a risk that benefits of accelerated maturation might be countered by increased vulnerability to starvation and desiccation. The present study investigates this possibility. After emergence, flies were treated with three levels of methoprene (0, 0.05%, and 0.5%) incorporated into a diet of sugar and yeast hydrolysate for two days after emergence. Survival of groups and individual flies was assessed under conditions of food stress, food and water stress, and ad libitum access to diet, and survival of individual flies was also assessed under desiccation stress. Most flies provided ad libitum access to diet were still alive at 7 days, whereas all stressed flies died within 4 days. Desiccation stressed flies had the shortest survival followed by food and water stress, and then food stress. Methoprene supplements increased susceptibility of flies to each stress. Flies subjected to food and water stress had the least lipid reserves at death, whereas flies subjected to desiccation stress retained the least water reserves. To investigate mechanisms that might underlie reduced survival under stress; we also quantified activity level of flies that were subjected to food and water stress and desiccation stress. Activity level was greater for flies provided methoprene, but did not vary with stress type or sex, suggesting that increased vulnerability of flies to stress is related to elevated metabolism associated with elevated activity. Deleterious effects of methoprene supplements on stress tolerance indicate a need for careful consideration of the conditions that will be encountered by flies in the field before deploying methoprene as a pre-release treatment in Q-fly sterile insect technique programs.
- Published
- 2022
8. Dietary methoprene treatment promotes rapid development of reproductive organs in male Queensland fruit fly
- Author
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Diana Pérez-Staples, Phillip W. Taylor, and Saleh Mohammad Adnan
- Subjects
0106 biological sciences ,0301 basic medicine ,Male ,Physiology ,Methoprene ,Ovary ,Saccharomyces cerevisiae ,01 natural sciences ,Insect Control ,Hydrolysate ,03 medical and health sciences ,chemistry.chemical_compound ,Sterile insect technique ,Testis ,medicine ,Animals ,Genitalia ,Sex Ratio ,Mating ,Operational sex ratio ,Sugar ,Pest Control, Biological ,Bactrocera tryoni ,biology ,fungi ,Tephritidae ,biology.organism_classification ,Diet ,010602 entomology ,030104 developmental biology ,medicine.anatomical_structure ,chemistry ,Insect Science ,Dietary Supplements ,Female - Abstract
Methoprene supplements added to diets of yeast hydrolysate and sugar promote early expression of sexual behaviour and mating in male Queensland fruit fly (Bactrocera tryoni; 'Q-fly') and show promise as a pre-release treatment for sterile insect technique programs. Currently it is not known whether the early mating behaviour of methoprene-treated male Q-flies is only behavioural or is coupled with accelerated development of reproductive organs. Accordingly, the present study investigates whether incorporation of methoprene into diets of yeast hydrolysate and sugar (1:3) or sugar alone, accelerate development of testes, ejaculatory apodeme, and accessory glands in male Q-flies and ovaries in females. All organs increased in size as the flies aged and matured, and development rate of all organs was far greater when the flies were provided yeast hydrolysate in addition to sugar. Incorporation of methoprene into diets containing yeast hydrolysate was found to strongly accelerate development of testes and ejaculatory apodeme, but not accessory glands, in males. In the absence of yeast hydrolysate, methoprene treatment had only a modest effect on male organ development. In contrast to males, development of ovaries in female Q-flies did not respond to dietary methoprene supplements, regardless of whether they were fed yeast hydrolysate and sugar or sugar alone. These findings of diet-dependent effects of methoprene supplements on reproductive organs are a close match to previous studies investigating effects of methoprene supplements on mating behaviour. Overall, methoprene supplements substantially enhance the positive effects of protein rich adult diet on the early expression of sexual behaviour and accelerate development of reproductive organs in male, but not female, Q-flies. Methoprene supplements added to pre-release diets of yeast hydrolysate and sugar show promise as a means of accelerating reproductive development of Q-flies released in sterile insect technique programs, and may also bias operational sex ratio in favour of males.
- Published
- 2019
9. Dietary methoprene supplement promotes early sexual maturation of male Queensland fruit fly Bactrocera tryoni
- Author
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Renata Morelli, Phillip W. Taylor, Humayra Akter, Vivian Mendez, Saleh Mohammad Adnan, and Iffat Farhana
- Subjects
0106 biological sciences ,Bactrocera tryoni ,biology ,fungi ,Methoprene ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Hydrolysate ,010602 entomology ,chemistry.chemical_compound ,Sterile insect technique ,Animal science ,chemistry ,Tephritidae ,Juvenile hormone ,Operational sex ratio ,Mating ,Agronomy and Crop Science - Abstract
Sterile insect technique (SIT) is an environmentally benign pest management technique that relies on released sterile male insects mating with, and curtailing reproduction of, wild females. However, for species with high mortality rates and long adult maturation phases, a large proportion of the released insects can die before maturing and so fail to contribute to SIT. To counter this problem, inclusion of yeast hydrolysate in pre-release diets and treatment of pupae or adults with methoprene, a juvenile hormone analogue, have been investigated as means of accelerating development of some fruit flies, including Queensland fruit fly, Bactrocera tryoni (Froggatt) (‘Q-fly’). Methoprene has most often been administered topically in acetone solution, which is toxic, flammable, and impractical for operational settings. As a practical alternative, we incorporated methoprene (0, 0.05, 0.1, and 0.5%) into Q-fly adult diet of sugar only or sugar mixed with yeast hydrolysate for 2 days, and then provided sugar only for the rest of the trial period. Mating performance of males and females was tested from 4 to 30 days of age. Flies provided sugar mixed with yeast hydrolysate had increased mating propensity in comparison with flies that were provided sugar only. At all ages and for both diets, all methoprene doses increased male mating probability. Methoprene treatment did not affect copula latency of males that received yeast hydrolysate, but males that received only sugar mated earlier if they had received 0.05% methoprene. Methoprene treatment of males was also associated with longer copulations, which may affect fertility of females that later remate. Females differed from males in that methoprene treatment did not significantly affect mating probability or latency, but resembled males in that methoprene treatment resulted in longer copulations. Sex differences in response to methoprene may lead to male-biased operational sex ratio when bisex Q-fly strains are used in SIT. Yeast hydrolysate increased longevity of both males and females, but methoprene treatment did not affect longevity. Overall, findings of the present study indicate that Q-fly sexual maturation can be accelerated, and SIT might hence be enhanced, by incorporation of methoprene and yeast hydrolysate in pre-release diet.
- Published
- 2018
10. Varietal preference of okra jassid, Amrasca devastans (Dist.) under field condition of Bangladesh
- Author
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M. N. Sultana, Mohammad Mahir Uddin, Saleh Mohammad Adnan, and Masum Ahmad
- Subjects
lcsh:Agriculture ,Horticulture ,Amrasca devastans ,lcsh:S ,Biology - Abstract
An experiment was conducted in the Field Laboratory, Department of Entomology, (BAU), Mymensingh on the varietal preference of okra jassid, Amrasca devastans (Dist.) using 14 okra varieties viz. F 1 Tamanna, Hybrid Okra Gunyon, Okra F 1 Green Soft, OK 285, Okra F 1 Green Star 33, F 1 Hybrid Fresh Power, F 1 Hybrid Sarosh 3, Hybrid Okra (MDR), Okra Nabil, BARI-1 (Samrat), Hybrid Chamak and Local variety during March to June 2014. The results indicated that host preference of jassid differed significantly among the 14 varieties tested. Three varieties viz. Hybrid Chamak, Arka Anamika and Kolatia were the least preferred by jassid. Five varieties viz. Okra Nabil, Hybrid Okra (MDR), F 1 Hybrid Fresh Power, Local variety, and OK 285 were comparatively highly preferred and rest of the six varieties viz. Okra F 1 Green Star 33, BARI-1 (Samrat), F 1 Tamanna, F 1 Hybrid Sarosh 3, Hybrid Okra Gunyon, and Okra F 1 Green Soft were moderately preferred by jassid. This variation of preference of okra jassid might be due to different morphological and physiological characters of selected varieties. It could be concluded that comparatively resistant varieties selected from the present study might be incorporated to develop of IPM package for jassid. J. Bangladesh Agril. Univ. 15(2): 227-233, December 2017
- Published
- 2017
11. Accelerated Sexual Maturation in Methoprene-Treated Sterile and Fertile Male Queensland Fruit Flies (Diptera: Tephritidae), and Mosquito Larvicide as an Economical and Effective Source of Methoprene
- Author
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Jess R. Inskeep, Iffat Farhana, Saleh Mohammad Adnan, Phillip W. Taylor, and Polychronis Rempoulakis
- Subjects
Male ,Methoprene ,Toxicology ,Sterile insect technique ,chemistry.chemical_compound ,Sexual Behavior, Animal ,Tephritidae ,Sexual maturity ,Animals ,Sexual Maturation ,Mating ,Pest Control, Biological ,Larvicide ,Bactrocera tryoni ,Ecology ,biology ,fungi ,General Medicine ,biology.organism_classification ,Culicidae ,chemistry ,Insect Science ,Juvenile hormone ,Female - Abstract
Queensland fruit flies Bactrocera tryoni (‘Q-fly’) have long adult prereproductive development periods, which can present challenges for sterile insect technique (SIT) programs. Holding the sterile flies in release facilities is expensive for control programs. Alternatively, releases of sexually immature males can lead to substantial mortality of sterile males before they mature. Recent studies have reported effectiveness of dietary supplementation with a mosquito larvicide (NOMOZ) that contains S-methoprene, a juvenile hormone analogue, for accelerating sexual development of fertile Q-fly males. However, it is not known whether effects on sterile flies are comparable to effects on fertile flies, or whether effects of methoprene-containing larvicide are comparable to effects of analytical standard methoprene such has been used in most studies. Here we address both knowledge gaps, investigating the effects of analytical standard methoprene and NOMOZ mixed with food and provided for 48 h following emergence on sexual development and longevity of fertile and sterile Q-flies. Compared with controls, fertile and sterile male Q-flies that were provided diets supplemented with methoprene from either source exhibited substantially accelerated sexual development by 2–3 d and longer mating duration. Unlike males, females did not respond to methoprene treatment. Although fertile and sterile flies were generally similar in sexual development and response to methoprene treatment, sterile flies of both sexes tended to have shorter copula duration than fertile flies. Neither methoprene supplements nor sterilization affected longevity of flies. The present study confirms effectiveness of dietary methoprene supplements in accelerating sexual development of both fertile and sterile male (but not female) Q-flies, and also confirms that low-cost mosquito larvicides that contain methoprene can achieve effects similar to those for high-cost analytical grade methoprene as prerelease supplements for Q-fly SIT.
- Published
- 2019
12. Suppression of cuelure attraction in male Queensland fruit flies provided raspberry ketone supplements as immature adults
- Author
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Phillip W. Taylor, Renata Morelli, Saleh Mohammad Adnan, Humayra Akter, and Polychronis Rempoulakis
- Subjects
0106 biological sciences ,Male ,Life Cycles ,Insecticides ,lcsh:Medicine ,01 natural sciences ,Pheromones ,Toxicology ,Sterile insect technique ,Sexual Behavior, Animal ,Medicine and Health Sciences ,Mating ,lcsh:Science ,Multidisciplinary ,biology ,Reproduction ,Tephritidae ,Agriculture ,Ketones ,Attraction ,Butanones ,Chemistry ,Sex pheromone ,Physical Sciences ,Insect Pests ,Female ,Agrochemicals ,Research Article ,010603 evolutionary biology ,Insect Control ,Pests ,Botany ,Animals ,Pest Control, Biological ,Infertility, Male ,Nutrition ,Bactrocera tryoni ,business.industry ,fungi ,lcsh:R ,Pest control ,Chemical Compounds ,Organisms ,Fungi ,Biology and Life Sciences ,Correction ,Pupae ,Medfly ,biology.organism_classification ,Yeast ,Diet ,010602 entomology ,Food ,Dietary Supplements ,lcsh:Q ,PEST analysis ,business ,Acids ,Developmental Biology - Abstract
Tephritid fruit flies are amongst the most damaging insect pests of horticulture globally. Some of the key fruit fly species are managed using the sterile insect technique (SIT), whereby millions of sterile males are released to suppress reproduction of pest populations. Male annihilation technique (MAT), whereby sex specific lures are used to attract and kill males, is often used to reduce wild male numbers before SIT programs commence, providing released sterile males an increased numerical advantage. Overall program efficacy might be improved if MAT could be deployed simultaneously with SIT, continuously depleting fertile males from pest populations and replacing them with sterile males. However, such 'male replacement' requires a means of suppressing attraction of released sterile males to lures used in MAT. Previous studies have found that exposure of some fruit flies to lure compounds as mature adults can suppress subsequent response to those lures, raising the possibility of pre-release treatments. However, this approach requires holding flies until after maturation for treatment and then release. The present study takes a novel approach of exposing immature adult male Queensland fruit flies (Bactrocera tryoni, or 'Qfly') to raspberry ketone (RK) mixed in food, forcing these flies to ingest RK at ages far younger than they would naturally. After feeding on RK-supplemented food for two days after emergence, male Qflies exhibited a reduction in attraction to cuelure traps that lasted more than 20 days. This approach to RK exposure is compatible with current practises, in which Qflies are released as immature adults, and also yields advantages of accelerated reproductive development and increased mating propensity at young ages.
- Published
- 2017
13. Management of Mango Hopper, Idioscopus clypealis, Using Chemical Insecticides and Neem Oil
- Author
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Mohammad Mahir Uddin, M. S. Islam, Mohd Y. Rafii, Saleh Mohammad Adnan, M. A. Latif, M. A. Kashem, and M. J. Alam
- Subjects
Insecticides ,Article Subject ,Population ,lcsh:Medicine ,Biology ,lcsh:Technology ,General Biochemistry, Genetics and Molecular Biology ,Glycerides ,Cypermethrin ,Hemiptera ,Toxicology ,Neonicotinoids ,chemistry.chemical_compound ,Imidacloprid ,Pyrethrins ,Animals ,lcsh:Science ,education ,Endosulfan ,General Environmental Science ,education.field_of_study ,Neem oil ,Terpenes ,lcsh:T ,Idioscopus clypealis ,lcsh:R ,Imidazoles ,General Medicine ,Nitro Compounds ,Biopesticide ,Azadirachtin ,chemistry ,lcsh:Q ,Pest Control ,Research Article - Abstract
An experiment was conducted in Field Laboratory, Department of Entomology at Bangladesh Agricultural University, Mymensingh, during 2013 to manage the mango hopper,Idioscopus clypealisL, using three chemical insecticides, Imidacloprid (0.3%), Endosulfan (0.5%), and Cypermethrin (0.4%), and natural Neem oil (3%) with three replications of each. All the treatments were significantly effective in managing mango hopper in comparison to the control. Imidacloprid showed the highest efficacy in percentage of reduction of hopper population (92.50 ± 9.02) at 72 hours after treatment in case of 2nd spray. It also showed the highest overall percentage of reduction (88.59 ± 8.64) of hopper population and less toxicity to natural enemies including green ant, spider, and lacewing of mango hopper. In case of biopesticide, azadirachtin based Neem oil was found effective against mango hopper as 48.35, 60.15, and 56.54% reduction after 24, 72, and 168 hours of spraying, respectively, which was comparable with Cypermethrin as there was no statistically significant difference after 168 hours of spray. Natural enemies were also higher after 1st and 2nd spray in case of Neem oil.
- Published
- 2014
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