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Populations of Pinus radiata D. Don differ in low-temperature tolerance and growth rate
Introduction: In Pinus radiata D. Don, one of the most widely planted pines globally, frost damages plantations at the seedling stage.Objective: To determine differences in growth and tolerance to low temperatures of native populations (Guadalupe and Cedros islands) of P. radiata i...
| Autores principales: | , , , |
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| Formato: | Online Artículo |
| Lenguaje: | spa |
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Universidad Autónoma Chapingo
2020
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| Acceso en línea: | https://revistas.chapingo.mx/forestales/article/view/r.rchscfa.2019.12.096 https://dx.doi.org/10.5154/r.rchscfa.2019.12.096 |
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| author | de Jesus-Reyes, Gardenia Vargas-Hernández, J. Jesús Cruz-Huerta, Nicacio López-Upton, Javier |
| author_facet | de Jesus-Reyes, Gardenia Vargas-Hernández, J. Jesús Cruz-Huerta, Nicacio López-Upton, Javier |
| author_sort | de Jesus-Reyes, Gardenia |
| collection | Revista Chapingo Serie Ciencias Forestales y del Ambiente |
| description | Introduction: In Pinus radiata D. Don, one of the most widely planted pines globally, frost damages plantations at the seedling stage.Objective: To determine differences in growth and tolerance to low temperatures of native populations (Guadalupe and Cedros islands) of P. radiata in greenhouse and outdoors conditions, under different levels of soil moisture.Materials and methods: Low-temperature tolerance was determined through the damage index (DI) in freezing tests at -12 °C during 4 h. In each environment (greenhouse and outdoors) two soil moisture treatments were defined (irrigation and drought). The DI was evaluated with the method of electrical conductivity in primary needles during winter and spring. The absolute growth rate (AGR) of the terminal shoot was obtained by measuring the total height of the seedlings.Results and discussion: Average DI of 50 and 64 % were obtained in winter and spring, respectively. In greenhouse, DI was different (P ≤ 0.05) between populations, being higher in Guadalupe (>59 %) than in Cedros (<42 %), both in winter and spring. Outdoors, Cedros (64.1 %) had a higher DI than Guadalupe (36.5 %) only during winter. DI was similar in both favorable soil moisture and drought conditions. The Guadalupe population presented higher AGRs in both environments and moisture conditions.Conclusion: The population of Guadalupe is more sensitive to low temperatures with greater variation in DI, due to its growth dynamics. Differences between populations are useful in the genetic improvement of the species. |
| format | Online Article |
| id | oai_chapingo-forestales-_article-387 |
| institution | Universidad Autónoma Chapingo |
| language | spa |
| publishDate | 2020 |
| publisher | Universidad Autónoma Chapingo |
| record_format | ojs |
| spelling | oai_chapingo-forestales-_article-3872023-08-28T16:32:07Z Populations of Pinus radiata D. Don differ in low-temperature tolerance and growth rate Poblaciones de Pinus radiata D. Don difieren en la tolerancia a bajas temperaturas y en la tasa de crecimiento de Jesus-Reyes, Gardenia Vargas-Hernández, J. Jesús Cruz-Huerta, Nicacio López-Upton, Javier Índice de daño estrés hídrico isla Cedros isla Guadalupe tasa absoluta de crecimiento La tolerancia de Pinus radiata a temperaturas bajas se evaluó en poblaciones de islas Cedros y Guadalupe. En invierno y primavera se obtuvo índice de daño (ID) promedio de 50 y 64 %, respectivamente. El ID fue similar tanto en el tratamiento de humedad favorable como en la sequía. La población de Guadalupe fue más sensible a las bajas temperaturas (-12 °C por 4 h). La población de Guadalupe presentó mayor tasa de crecimiento en invernadero y a la intemperie. Damage index water stress Cedros Island Guadalupe Island absolute growth rate The tolerance of Pinus radiata to low temperatures was evaluated in populations of Cedars and Guadalupe islands. In winter and spring we obtained average damage index (DI) of 50 and 64 %, respectively. The DI was similar in both favorable moisture treatment and drought. The population of Guadalupe was more sensitive to low temperatures (-12 °C for 4 h). The population of Guadalupe showed a higher growth rate in greenhouses and in the open. Introduction: In Pinus radiata D. Don, one of the most widely planted pines globally, frost damages plantations at the seedling stage.Objective: To determine differences in growth and tolerance to low temperatures of native populations (Guadalupe and Cedros islands) of P. radiata in greenhouse and outdoors conditions, under different levels of soil moisture.Materials and methods: Low-temperature tolerance was determined through the damage index (DI) in freezing tests at -12 °C during 4 h. In each environment (greenhouse and outdoors) two soil moisture treatments were defined (irrigation and drought). The DI was evaluated with the method of electrical conductivity in primary needles during winter and spring. The absolute growth rate (AGR) of the terminal shoot was obtained by measuring the total height of the seedlings.Results and discussion: Average DI of 50 and 64 % were obtained in winter and spring, respectively. In greenhouse, DI was different (P ≤ 0.05) between populations, being higher in Guadalupe (>59 %) than in Cedros (<42 %), both in winter and spring. Outdoors, Cedros (64.1 %) had a higher DI than Guadalupe (36.5 %) only during winter. DI was similar in both favorable soil moisture and drought conditions. The Guadalupe population presented higher AGRs in both environments and moisture conditions.Conclusion: The population of Guadalupe is more sensitive to low temperatures with greater variation in DI, due to its growth dynamics. Differences between populations are useful in the genetic improvement of the species. Introducción: En Pinus radiata D. Don, uno de los pinos más plantados globalmente, las heladas dañan a las plantaciones en etapa de plántula.Objetivo: Determinar las diferencias en crecimiento y tolerancia a bajas temperaturas de poblaciones nativas (islas Guadalupe y Cedros) de P. radiata en condiciones de invernadero e intemperie, bajo niveles distintos de humedad del suelo.Materiales y métodos: La tolerancia a bajas temperaturas se determinó mediante el índice de daño (ID) en pruebas de congelamiento a -12 °C durante 4 h. En cada ambiente (invernadero e intemperie) se definieron dos tratamientos de humedad (riego y sequía). El ID se evaluó con el método de conductividad eléctrica en hojas primarias durante el invierno y primavera. La tasa absoluta de crecimiento (TAC) del brote terminal se obtuvo a través de la medición de altura total de las plantas.Resultados y discusión: En invierno y primavera se obtuvo ID promedio de 50 y 64 %, respectivamente. En invernadero, el ID fue diferente (P ≤ 0.05) entre las poblaciones, siendo mayor en Guadalupe (>59 %) que en Cedros (<42 %), tanto en invierno como en primavera. En intemperie, Cedros (64.1 %) tuvo mayor ID que Guadalupe (36.5 %) solo durante el invierno. El ID fue similar tanto en el tratamiento de humedad favorable como en la sequía. La población de Guadalupe presentó TAC mayor en ambos ambientes y condiciones de humedad.Conclusión: La población de Guadalupe es más sensible a las bajas temperaturas con mayor variación en el ID, debido a su dinámica de crecimiento. Las diferencias entre poblaciones son útiles en el mejoramiento genético de la especie. Universidad Autónoma Chapingo 2020-08-28 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion application/pdf https://revistas.chapingo.mx/forestales/article/view/r.rchscfa.2019.12.096 10.5154/r.rchscfa.2019.12.096 Revista Chapingo Serie Ciencias Forestales y del Ambiente; Vol. 26 No. 3 (2020): September-December; 469–484 Revista Chapingo Serie Ciencias Forestales y del Ambiente; Vol. 26 Núm. 3 (2020): septiembre-diciembre; 469–484 2007-4018 2007-3828 spa https://revistas.chapingo.mx/forestales/article/view/r.rchscfa.2019.12.096/r.rchscfa.2019.12.096 Derechos de autor 2020 Revista Chapingo Serie Ciencias Forestales y del Ambiente https://creativecommons.org/licenses/by-nc/4.0 |
| spellingShingle | Índice de daño estrés hídrico isla Cedros isla Guadalupe tasa absoluta de crecimiento La tolerancia de Pinus radiata a temperaturas bajas se evaluó en poblaciones de islas Cedros y Guadalupe. En invierno y primavera se obtuvo índice de daño (ID) promedio de 50 y 64 %, respectivamente. El ID fue similar tanto en el tratamiento de humedad favorable como en la sequía. La población de Guadalupe fue más sensible a las bajas temperaturas (-12 °C por 4 h). La población de Guadalupe presentó mayor tasa de crecimiento en invernadero y a la intemperie. Damage index water stress Cedros Island Guadalupe Island absolute growth rate The tolerance of Pinus radiata to low temperatures was evaluated in populations of Cedars and Guadalupe islands. In winter and spring we obtained average damage index (DI) of 50 and 64 %, respectively. The DI was similar in both favorable moisture treatment and drought. The population of Guadalupe was more sensitive to low temperatures (-12 °C for 4 h). The population of Guadalupe showed a higher growth rate in greenhouses and in the open. de Jesus-Reyes, Gardenia Vargas-Hernández, J. Jesús Cruz-Huerta, Nicacio López-Upton, Javier Populations of Pinus radiata D. Don differ in low-temperature tolerance and growth rate |
| title | Populations of Pinus radiata D. Don differ in low-temperature tolerance and growth rate |
| title_alt | Poblaciones de Pinus radiata D. Don difieren en la tolerancia a bajas temperaturas y en la tasa de crecimiento |
| title_full | Populations of Pinus radiata D. Don differ in low-temperature tolerance and growth rate |
| title_fullStr | Populations of Pinus radiata D. Don differ in low-temperature tolerance and growth rate |
| title_full_unstemmed | Populations of Pinus radiata D. Don differ in low-temperature tolerance and growth rate |
| title_short | Populations of Pinus radiata D. Don differ in low-temperature tolerance and growth rate |
| title_sort | populations of pinus radiata d. don differ in low-temperature tolerance and growth rate |
| topic | Índice de daño estrés hídrico isla Cedros isla Guadalupe tasa absoluta de crecimiento La tolerancia de Pinus radiata a temperaturas bajas se evaluó en poblaciones de islas Cedros y Guadalupe. En invierno y primavera se obtuvo índice de daño (ID) promedio de 50 y 64 %, respectivamente. El ID fue similar tanto en el tratamiento de humedad favorable como en la sequía. La población de Guadalupe fue más sensible a las bajas temperaturas (-12 °C por 4 h). La población de Guadalupe presentó mayor tasa de crecimiento en invernadero y a la intemperie. Damage index water stress Cedros Island Guadalupe Island absolute growth rate The tolerance of Pinus radiata to low temperatures was evaluated in populations of Cedars and Guadalupe islands. In winter and spring we obtained average damage index (DI) of 50 and 64 %, respectively. The DI was similar in both favorable moisture treatment and drought. The population of Guadalupe was more sensitive to low temperatures (-12 °C for 4 h). The population of Guadalupe showed a higher growth rate in greenhouses and in the open. |
| topic_facet | Índice de daño estrés hídrico isla Cedros isla Guadalupe tasa absoluta de crecimiento La tolerancia de Pinus radiata a temperaturas bajas se evaluó en poblaciones de islas Cedros y Guadalupe. En invierno y primavera se obtuvo índice de daño (ID) promedio de 50 y 64 %, respectivamente. El ID fue similar tanto en el tratamiento de humedad favorable como en la sequía. La población de Guadalupe fue más sensible a las bajas temperaturas (-12 °C por 4 h). La población de Guadalupe presentó mayor tasa de crecimiento en invernadero y a la intemperie. Damage index water stress Cedros Island Guadalupe Island absolute growth rate The tolerance of Pinus radiata to low temperatures was evaluated in populations of Cedars and Guadalupe islands. In winter and spring we obtained average damage index (DI) of 50 and 64 %, respectively. The DI was similar in both favorable moisture treatment and drought. The population of Guadalupe was more sensitive to low temperatures (-12 °C for 4 h). The population of Guadalupe showed a higher growth rate in greenhouses and in the open. |
| url | https://revistas.chapingo.mx/forestales/article/view/r.rchscfa.2019.12.096 https://dx.doi.org/10.5154/r.rchscfa.2019.12.096 |
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