Developmental inhibition and DNA damage of Helicoverpa armigera Hübner (Lepidoptera: Noctuidae) by gamma radiation

Purpose: Gamma radiation on Helicoverpa armigera Hübner was performed to assess developmental inhibition and to identify a potential quarantine treatment dose of the radiation. Materials and methods: Gamma radiation ( 60 Co) treatment at different doses of 50, 100, 200, 300, and 400 Gy was carried o...

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Published in	International journal of radiation biology Vol. 91; no. 10; pp. 827 - 832
Main Authors	Kim, Junheon, Chung, Soon-Oh, Jang, Miyeon, Jang, Sin Ae, Park, Chung Gyoo
Format	Journal Article
Language	English
Published	England Informa Healthcare 03.10.2015
Subjects	Animals Breeding Comet Assay cotton bollworm developmental inhibition DNA Damage Female Gamma radiation Gamma Rays Larva - growth & development Larva - radiation effects Male Moths - genetics Moths - growth & development Moths - radiation effects Pest Control phytosanitary Pupa - growth & development Pupa - radiation effects quarantine cotton bollworm phytosanitary developmental inhibition quarantine Gamma radiation comet assay
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ISSN	0955-3002 1362-3095 1362-3095
DOI	10.3109/09553002.2015.1068464

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Abstract	Purpose: Gamma radiation on Helicoverpa armigera Hübner was performed to assess developmental inhibition and to identify a potential quarantine treatment dose of the radiation. Materials and methods: Gamma radiation ( 60 Co) treatment at different doses of 50, 100, 200, 300, and 400 Gy was carried out with egg, larvae, pupae and adults of H. armigera. Results: Gamma radiation induced developmental inhibition of all stages of H. armigera. The effective dose values required for inhibition 99% (ED 99 ) of hatching, pupation and adult emergence from the irradiated eggs were 550.7, 324.9 and 136.4 Gy, respectively. ED 99 values for inhibition of the larvae to adult emergence was 200.0 Gy. Irradiation on pupae could not completely inhibit adult emergence even at 400 Gy. ED 99 value for inhibition of F 1 egg hatchability from the irradiated adults was estimated to be 229.5 Gy. Conclusions: This study suggests that gamma radiation is a possible alternative to phytosanitary treatments. Irradiation treatment with minimum dose of 200 Gy can be suggested as optimum dose for larval treatment in quarantine.
AbstractList	Gamma radiation on Helicoverpa armigera Hübner was performed to assess developmental inhibition and to identify a potential quarantine treatment dose of the radiation. Gamma radiation ((60)Co) treatment at different doses of 50, 100, 200, 300, and 400 Gy was carried out with egg, larvae, pupae and adults of H. armigera. Gamma radiation induced developmental inhibition of all stages of H. armigera. The effective dose values required for inhibition 99% (ED(99)) of hatching, pupation and adult emergence from the irradiated eggs were 550.7, 324.9 and 136.4 Gy, respectively. ED(99) values for inhibition of the larvae to adult emergence was 200.0 Gy. Irradiation on pupae could not completely inhibit adult emergence even at 400 Gy. ED(99) value for inhibition of F(1) egg hatchability from the irradiated adults was estimated to be 229.5 Gy. This study suggests that gamma radiation is a possible alternative to phytosanitary treatments. Irradiation treatment with minimum dose of 200 Gy can be suggested as optimum dose for larval treatment in quarantine. Purpose: Gamma radiation on Helicoverpa armigera Hübner was performed to assess developmental inhibition and to identify a potential quarantine treatment dose of the radiation. Materials and methods: Gamma radiation ( 60 Co) treatment at different doses of 50, 100, 200, 300, and 400 Gy was carried out with egg, larvae, pupae and adults of H. armigera. Results: Gamma radiation induced developmental inhibition of all stages of H. armigera. The effective dose values required for inhibition 99% (ED 99 ) of hatching, pupation and adult emergence from the irradiated eggs were 550.7, 324.9 and 136.4 Gy, respectively. ED 99 values for inhibition of the larvae to adult emergence was 200.0 Gy. Irradiation on pupae could not completely inhibit adult emergence even at 400 Gy. ED 99 value for inhibition of F 1 egg hatchability from the irradiated adults was estimated to be 229.5 Gy. Conclusions: This study suggests that gamma radiation is a possible alternative to phytosanitary treatments. Irradiation treatment with minimum dose of 200 Gy can be suggested as optimum dose for larval treatment in quarantine. Gamma radiation on Helicoverpa armigera Hübner was performed to assess developmental inhibition and to identify a potential quarantine treatment dose of the radiation.PURPOSEGamma radiation on Helicoverpa armigera Hübner was performed to assess developmental inhibition and to identify a potential quarantine treatment dose of the radiation.Gamma radiation ((60)Co) treatment at different doses of 50, 100, 200, 300, and 400 Gy was carried out with egg, larvae, pupae and adults of H. armigera.MATERIALS AND METHODSGamma radiation ((60)Co) treatment at different doses of 50, 100, 200, 300, and 400 Gy was carried out with egg, larvae, pupae and adults of H. armigera.Gamma radiation induced developmental inhibition of all stages of H. armigera. The effective dose values required for inhibition 99% (ED(99)) of hatching, pupation and adult emergence from the irradiated eggs were 550.7, 324.9 and 136.4 Gy, respectively. ED(99) values for inhibition of the larvae to adult emergence was 200.0 Gy. Irradiation on pupae could not completely inhibit adult emergence even at 400 Gy. ED(99) value for inhibition of F(1) egg hatchability from the irradiated adults was estimated to be 229.5 Gy.RESULTSGamma radiation induced developmental inhibition of all stages of H. armigera. The effective dose values required for inhibition 99% (ED(99)) of hatching, pupation and adult emergence from the irradiated eggs were 550.7, 324.9 and 136.4 Gy, respectively. ED(99) values for inhibition of the larvae to adult emergence was 200.0 Gy. Irradiation on pupae could not completely inhibit adult emergence even at 400 Gy. ED(99) value for inhibition of F(1) egg hatchability from the irradiated adults was estimated to be 229.5 Gy.This study suggests that gamma radiation is a possible alternative to phytosanitary treatments. Irradiation treatment with minimum dose of 200 Gy can be suggested as optimum dose for larval treatment in quarantine.CONCLUSIONSThis study suggests that gamma radiation is a possible alternative to phytosanitary treatments. Irradiation treatment with minimum dose of 200 Gy can be suggested as optimum dose for larval treatment in quarantine.
Author	Jang, Sin Ae Chung, Soon-Oh Jang, Miyeon Park, Chung Gyoo Kim, Junheon
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Snippet	Purpose: Gamma radiation on Helicoverpa armigera Hübner was performed to assess developmental inhibition and to identify a potential quarantine treatment dose... Gamma radiation on Helicoverpa armigera Hübner was performed to assess developmental inhibition and to identify a potential quarantine treatment dose of the...
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SubjectTerms	Animals Breeding Comet Assay cotton bollworm developmental inhibition DNA Damage Female Gamma radiation Gamma Rays Larva - growth & development Larva - radiation effects Male Moths - genetics Moths - growth & development Moths - radiation effects Pest Control phytosanitary Pupa - growth & development Pupa - radiation effects quarantine
Title	Developmental inhibition and DNA damage of Helicoverpa armigera Hübner (Lepidoptera: Noctuidae) by gamma radiation
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