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Trichogramma japonicum

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Species of wasp

Trichogramma japonicum
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Hymenoptera
Family: Trichogrammatidae
Genus: Trichogramma
Species: T. japonicum
Binomial name
Trichogramma japonicum
Ashmead, 1904

Trichogramma japonicum is a minute wasp parasitoid from the Trichogrammatidae family in the order Hymenoptera. T. japonicum parasitizes the eggs of many pest species, especially Lepidoptera found in many monocultures. They are entomophagous parasitoids that deposit their eggs inside the host species' egg, consuming the host egg material and emerging from the egg once development is complete. T. japonicum can be found naturally in rice ecosystems, but are dispersed commercially to many monocultures as a biological control. The mitochondrial genomes of T. japonicum are significantly rearranged when comparing it to related insects.

Reproduction

Trichogramma japonicum is an egg parasitoid of several insect species, many pests to crops. Sex pheromones are released by females to attract males who are searching for suitable mates. Once the female's eggs have been fertilized, she will search for a host species to lay her eggs in. Each female produces approximately 45 offspring. T. japonicum uses chemical signals produced from herbivore-induced damaged host plants to locate the eggs of the host insects. Once a suitable host is found, she will use her dramatically long ovipositor to insert her eggs directly into the host egg's deep layers.

Chemical sensing

Trichogramma japonicum senses chemicals through olfactory receptors located mainly on the face. Females have more chemoreceptors on their heads than males, which may be due to females needing to identify and locate volatile odours during host or mate localization. T. japonicum relies on long-range chemical emissions from damaged plants in order to locate hosts. They are able to discriminate between plants that have been injured and plants that are untouched by sensing the chemical emissions. The parasitoid will also respond to close-range chemical emissions from various Lepidopteran by-products. Lepidoptera will inadvertently leave behind chemical-inducing objects that can attract the egg parasitoid. Lepidoptera can leave behind female wing scales, larva saliva, footprints, and egg wash which will act like kairomones and attract the parasitoid. T. japonicum will not start looking for a host if there is no volatile stimulation.

Ecological influence

Biological control agent

Trichogramma japonicum is an important natural enemy of pests in agro-eco-systems. T. japonicum is a very successful biological control for the rice stem borer, Scirpophaga incertulas. In order for this species to be a successful biological control, the wasps need to have time-specific multiple releases. The times for these releases would be based on the climate conditions and pest biology. The consideration of these variables allows for the wasps to be the most effective. Other factors can also influence T. japonicum's activity against the rice yellow stem borer. The synthetic forms of natural chemicals were found to increase the parasitic activity of the wasps by enhancing their egg parasitism T. japonicum is also an amazing biological control for Cnaphalocrocis medinalis. These wasps have been found to be a better control agent than insecticides

While T. japonicum may not be as effective as insecticides for all agricultural pests, such as Chilo suppressalis. The wasps can still prevent adverse effects of Chilo suppressalis to a controlled range, it just isn't as effective as some pesticides. Even though T. japonicum is not always as efficient as insecticides, it should be considered a very good initial option. T. japonicum as a biological could greatly improve natural enemy populations, which will help prolong the effects of pest control. The use of these wasps will also help protect the ecological environment, reduce pollination of fields, and ensure safe agricultural products.

Effects of insecticides

The two most toxic types of pesticides for T. japonicum are organophosphates and carbamates. One study found that the highest mortality rate in T. japonicum is observed when acephate, an organophosphate, is used as a treatment. The introduction of these insecticides when T. japonicum are being used will greatly reduce the wasps' effectiveness as a biological control. If a pesticide is to be used alongside T. japonicum, it should be an insect growth regulator as it has the lowest toxicity rate. The adverse effects of insecticides are primarily seen in adults as they are more sensitive to the pesticides than juvenile forms. The larval stages of T. japonicum are protected from the insecticides by the egg of the host species.

References

  1. ^ Murali‐Baskaran, Ramasamy Kanagaraj; Sridhar, Jandrajupalli; Chander Sharma, Kailash; Jain, Lata; Senthil‐Nathan, Sengottayan; Hunter, Wayne Brain; Kumar, Jagdish; Kaushal, Pankaj (2020). "Kairomones effect on parasitic activity of Trichogramma japonicum against rice yellow stem borer, Scirpophaga incertulas". Journal of Applied Entomology. 144 (5): 373–381. doi:10.1111/jen.12747. S2CID 216171558.
  2. ^ Zhao, Xueping; Wu, Changxing; Wang, Yanhua; Cang, Tao; Chen, Liping; Yu, Ruixian; Wang, Qiang (2012). "Assessment of Toxicity Risk of Insecticides Used in Rice Ecosystem on Trichogramma japonicum, an Egg Parasitoid of Rice Lepidopterans". Journal of Economic Entomology. 105 (1): 92–101. doi:10.1603/EC11259. PMID 22420260. S2CID 25746852.
  3. Chen, Long; Chen, Peng-Yan; Xue, Xiao-Feng; Hua, Hai-Qing; Li, Yuan-Xi; Zhang, Fan; Wei, Shu-Jun (2018). "Extensive gene rearrangements in the mitochondrial genomes of two egg parasitoids, Trichogramma japonicum and Trichogramma ostriniae (Hymenoptera: Chalcidoidea: Trichogrammatidae)". Scientific Reports. 8 (1): 7034. Bibcode:2018NatSR...8.7034C. doi:10.1038/s41598-018-25338-3. PMC 5935716. PMID 29728615.
  4. ^ Uma, S; Lyla, K. R. (2014). "Acute contact toxicity of selected conventional and novel insecticides to Trichogramma japonicum Ashmead (Hymenoptera: Trichogrammatidae)" (PDF). Journal of Biopesticides. 7: 133–136.
  5. ^ Wu, Jia-Dong; Shen, Zhao-Can; Hua, Hai-Qing; Zhang, Fan; Li, Yuan-Xi (2017-08-23). "Identification and sex expression profiling of odorant-binding protein genes in Trichogramma japonicum (Hymenoptera: Trichogrammatidae) using RNA-Seq". Applied Entomology and Zoology. 52 (4): 623–633. doi:10.1007/s13355-017-0516-x. S2CID 32684820.
  6. ^ Murali-Baskaran, R. K.; Sridhar, J.; Sharma, K. C.; Jain, L. (2021). "Kairomone gel formulations enhance biocontrol efficacy of Trichogramma japonicum Ashmead on rice yellow stem borer, Scirpophaga incertulas Walker". Crop Protection. 146: 105655. doi:10.1016/j.cropro.2021.105655. S2CID 235540666.
  7. ^ Li, Si-Sheng; Yan, Zhi-Chao; Zhao, Juan-Juan; Li, Yuan-Xi (2021). "Transcriptomic analyses of chemosensory genes in Trichogramma japonicum (Hymenoptera: Trichogrammatidae)". Comparative Biochemistry and Physiology Part D: Genomics and Proteomics. 37: 100755. doi:10.1016/j.cbd.2020.100755. PMID 33166853. S2CID 226295639.
  8. ^ Rani, P. Usha; Sandhyarani, K. (2012). "Specificity of systemically released rice stem volatiles on egg parasitoid, Trichogramma japonicum Ashmead behaviour". Journal of Applied Entomology. 136 (10): 749–760. doi:10.1111/j.1439-0418.2012.01705.x. S2CID 83242811.
  9. ^ Murali-Baskaran, Ramasamy Kanagaraj; Chander Sharma, Kailash; Sridhar, Jandrajupalli; Jain, Lata; Kumar, Jagdish (2021). "Multiple releases of Trichogramma japonicum Ashmead for biocontrol of rice yellow stem borer, Scirpophaga incertulas (Walker)". Crop Protection. 141: 141. doi:10.1016/j.cropro.2020.105471. S2CID 229386093.
  10. ^ Yang, L.; Qiu-sheng, Y.; Yu-zhu, Z.; Bao-hua, F.; Wei, K.; Guo-qi, Z. (2018). "Main Rice Pests Control with Trichogramma japonicum". Agricultural Science & Technology. 19 (2): 28–32.
Taxon identifiers
Trichogramma japonicum
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