Genetic improvement of Miahuateco chili (capsicumm annuum l.)(Solanaceae) by 60co gamma irradiation
Objective: Improve genetic attributes in Miahuateco chili through gamma irradiation with 60Co. Design/methodology/approach: Seeds were irradiated at 0; 100; 200 and 300 Gy at the National Institute for Nuclear Research. The variables evaluated were LD50, agronomic performance, plant height, polar and equatorial diameters, percentage of aborted flowers, number of branches and plant color, which were evaluated under a completely randomized design (4 x 4) = 16 experimental units. Results: The results indicate that the application of 200 Gy induces greater agronomic performance. The LD50 is achieved at 145 Gy. High doses of gamma irradiation caused a high percentage of aborted flowers, as well as chlorosis in the plant. Limitations on study/implications: The seeds used in this project were Creole, so they presented great heterogeneity which could affect their flowering and fruiting, however, it was not so significant for this project. Findings/conclusions: It is concluded that 200 Gy of 60Co gamma induces genetic variability in the species, improving some attributes of agronomic interest.
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2024
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oai:ojs.pkp.sfu.ca:article29382024-12-20T00:28:31Z Genetic improvement of Miahuateco chili (capsicumm annuum l.)(Solanaceae) by 60co gamma irradiation Genetic Improvement of Miahuateco Chili (Capsicum annuum L.) (Solanaceae) through Gamma Radiation of 60Co Bravo Delgado, Humberto Rafael Báez Rodríguez , Iván Báez Rodríguez , Iván López Sánchez , Isidro Morales Ruiz , Alejandro LD50 aagronomic performance flower abortion color LD50, agronomic yield, flower abortion, color. Objective: Improve genetic attributes in Miahuateco chili through gamma irradiation with 60Co. Design/methodology/approach: Seeds were irradiated at 0; 100; 200 and 300 Gy at the National Institute for Nuclear Research. The variables evaluated were LD50, agronomic performance, plant height, polar and equatorial diameters, percentage of aborted flowers, number of branches and plant color, which were evaluated under a completely randomized design (4 x 4) = 16 experimental units. Results: The results indicate that the application of 200 Gy induces greater agronomic performance. The LD50 is achieved at 145 Gy. High doses of gamma irradiation caused a high percentage of aborted flowers, as well as chlorosis in the plant. Limitations on study/implications: The seeds used in this project were Creole, so they presented great heterogeneity which could affect their flowering and fruiting, however, it was not so significant for this project. Findings/conclusions: It is concluded that 200 Gy of 60Co gamma induces genetic variability in the species, improving some attributes of agronomic interest. Objective: To improve genetic attributes in Miahuateco chili (Capsicum annuum L.) through gamma irradiationwith 60Co.Design/Methodology/Approach: Seeds were irradiated at doses of 0, 100, 200, and 300 Gy at the NationalInstitute of Nuclear Research. The evaluated variables were LD50, agronomic yield, plant height, polar andequatorial diameters, percentage of aborted flowers, number of branches, and plant color, which were assessedunder a completely randomized design (4X4)=16 experimental units.Results: The results indicate that the application of 200 Gy induces higher agronomic yield. The LD50 isreached at 145 Gy. High doses of gamma irradiation caused a high percentage of aborted flowers, as well aschlorosis in the plant.Study Limitations/Implications: The seeds used in this project were landraces, which exhibited significantheterogeneity that could have affected flowering and fruiting. However, this was not a substantial factor forthis project.Findings/Conclusions: It is concluded that 200 Gy of gamma radiation from 60Co induces genetic variabilityin the species, improving certain agronomic attributes of interest. Colegio de Postgraduados 2024-12-20 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion application/pdf https://revista-agroproductividad.org/index.php/agroproductividad/article/view/2938 10.32854/agrop.v17i11.2938 AgroP; 2024: EARLY ACCESS (Vol. XI) Agro Productividad; 2024: EARLY ACCESS (Vol. XI) 2594-0252 2448-7546 spa https://revista-agroproductividad.org/index.php/agroproductividad/article/view/2938/2519 Derechos de autor 2024 Agro Productividad |
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Bravo Delgado, Humberto Rafael Báez Rodríguez , Iván Báez Rodríguez , Iván López Sánchez , Isidro Morales Ruiz , Alejandro |
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Bravo Delgado, Humberto Rafael Báez Rodríguez , Iván Báez Rodríguez , Iván López Sánchez , Isidro Morales Ruiz , Alejandro Genetic improvement of Miahuateco chili (capsicumm annuum l.)(Solanaceae) by 60co gamma irradiation |
| author_facet |
Bravo Delgado, Humberto Rafael Báez Rodríguez , Iván Báez Rodríguez , Iván López Sánchez , Isidro Morales Ruiz , Alejandro |
| author_sort |
Bravo Delgado, Humberto Rafael |
| title |
Genetic improvement of Miahuateco chili (capsicumm annuum l.)(Solanaceae) by 60co gamma irradiation |
| title_short |
Genetic improvement of Miahuateco chili (capsicumm annuum l.)(Solanaceae) by 60co gamma irradiation |
| title_full |
Genetic improvement of Miahuateco chili (capsicumm annuum l.)(Solanaceae) by 60co gamma irradiation |
| title_fullStr |
Genetic improvement of Miahuateco chili (capsicumm annuum l.)(Solanaceae) by 60co gamma irradiation |
| title_full_unstemmed |
Genetic improvement of Miahuateco chili (capsicumm annuum l.)(Solanaceae) by 60co gamma irradiation |
| title_sort |
genetic improvement of miahuateco chili (capsicumm annuum l.)(solanaceae) by 60co gamma irradiation |
| description |
Objective: Improve genetic attributes in Miahuateco chili through gamma irradiation with 60Co.
Design/methodology/approach: Seeds were irradiated at 0; 100; 200 and 300 Gy at the National Institute for Nuclear Research. The variables evaluated were LD50, agronomic performance, plant height, polar and equatorial diameters, percentage of aborted flowers, number of branches and plant color, which were evaluated under a completely randomized design (4 x 4) = 16 experimental units.
Results: The results indicate that the application of 200 Gy induces greater agronomic performance. The LD50 is achieved at 145 Gy. High doses of gamma irradiation caused a high percentage of aborted flowers, as well as chlorosis in the plant.
Limitations on study/implications: The seeds used in this project were Creole, so they presented great heterogeneity which could affect their flowering and fruiting, however, it was not so significant for this project.
Findings/conclusions: It is concluded that 200 Gy of 60Co gamma induces genetic variability in the species, improving some attributes of agronomic interest.
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| publisher |
Colegio de Postgraduados |
| publishDate |
2024 |
| url |
https://revista-agroproductividad.org/index.php/agroproductividad/article/view/2938 |
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