Efecto del almacenamiento ex situ de semillas y de condiciones lumínicas sobre la tasa de crecimiento de plántulas de Crescentia alata (Bignoniaceae)
Fecha
2019
Tipo
artículo original
Autores
Valverde Rodríguez, Kimberly
Morales Sánchez, Carlos
García Díaz, Elmer Guillermo
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ISSN de la revista
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Resumen
En el bosque tropical seco, el árbol Crescentia alata (Bignoniaceae) es un recurso cultural y económico, pero han fracasado algunos intentos para establecer plantaciones, que podrían satisfacer la producción comercial y, así, evitar el impacto en las poblaciones naturales. Por tanto, existe la necesidad de generar información biológica sobre esta especie para obtener plantas en condiciones de invernaderos.
El objetivo de este trabajo fue evaluar la tasa de crecimiento de plantas de C. alata obtenidas de semillas que se almacenaron en diferentes períodos y a varias temperaturas, y determinar el efecto de la intensidad de la luz sobre el crecimiento de las plántulas. Se recolectaron frutos en Liberia (Guanacaste, Costa Rica) y se almacenaron semillas por 0, 4, 8 y 14 meses a 5 °C, 15 °C y a temperatura ambiente (22-24 °C). Las plántulas de las semillas almacenadas por 0, 4, 8 y 14 meses se trasplantaron para evaluar el crecimiento después de 8 días, 2 y 16 meses, y en dos condiciones de luminosidad. La morfología de las plántulas de 8 días cambió según el tiempo de almacenamiento. El análisis de componentes principales de la evaluación de 2 meses indica que las variables más significativas fueron biomasa total seca, biomasa seca de hojas, de raíz-vástago, de tallo y de raíz, mientras que en el análisis de la evaluación de 16 meses tales variables fueron biomasa seca de
raíz, de raíz-vástago y de hojas, también número de hojas y longitud del vástago. El área foliar específica de plantas con 16 meses de edad obtenidas de semillas almacenadas 14 meses no cambió con la temperatura de almacenamiento. Además, dos condiciones de luminosidad influyeron en la altura, el diámetro del tallo o el número de hojas. El almacenamiento de semillas a 5 °C y 15 °C favoreció el desarrollo de los cotiledones, así como la longitud de la raíz y del hipocótilo. Plantas de 2 meses obtenidas de 0 y 8 meses asignaron mayor biomasa a raíces que a tallos, mejorando así la absorción de agua. Plantas de 16 meses provenientes de semillas no almacenadas desarrollaron el
mayor número de hojas, y aquellas de semillas de 8 meses a 5 °C y 15 °C mostraron tallos más cortos. Las semillas almacenadas hasta 14 meses se convirtieron en plantas bien desarrolladas. Se recomienda a futuros investigadores evaluar la viabilidad a diferentes temperaturas de secado
de las semillas y en niveles de intensidad lumínica más contrastantes durante el crecimiento.
Abstract. Effect of seed storage and light conditions on the growth rate of Crescentia alata (Bignoniaceae) seedlings. The dry tropical forest tree Crescentia alata is a cultural and economical resource, but efforts to establish plantations, which could satisfy commercial production and avoid impact on natural populations, have been unsuccessful. So there is a need to generate biological information on this species for obtaining plants in greenhouses. The aim of this work was to evaluate the vigor and growth rate of C. alata seedlings born from seeds that were stored at different periods and temperatures, and to determine the effect of light intensity on the seedlings. Fruits were collected in Liberia (Guanacaste, Costa Rica) and seeds stored for 0, 4, 8, and 14 months at 5 °C, 15 °C, and ambient temperature (22-24 °C). Seedlings from seeds stored for 0, 4, 8 and 14 months were grown to evaluate growth after 8 days, 2 months, and 16 months, and in two different light conditions. Morphology of 8-day-seedlings changed according to storage time. Principal component analysis of 2-month evaluation indicates that the most significant variables were total dry biomass, dry biomass of leaves, root-shoot, stem, and root, while for the analysis of 16-month evaluation these variables were dry biomass of root, root-shoot, and leaves, also leaf number, and shoot length. Specific leaf area of 16-month plants from seeds stored for 14 months did not change with storage temperature. In addition, two different light conditions influence seedling height, stem diameter or leaf number. Seed storage at 5 °C and 15 °C favored development of seedling cotyledons, and length of both root and hypocotyl. Two month-seedlings from 0M and 8M allocated most biomass to roots and less to stems, enhancing this way water absorption. Sixteen-month-plants from non-stored seeds developed the highest leaf numbers, and those plants from 8M seeds at 5 °C and 15 °C showed shorter stems. Seeds stored up to 14 months kept viable, becoming healthy seedlings. We recommend that future researchers evaluate seed viability at different drying temperatures and more contrasting light levels.
Abstract. Effect of seed storage and light conditions on the growth rate of Crescentia alata (Bignoniaceae) seedlings. The dry tropical forest tree Crescentia alata is a cultural and economical resource, but efforts to establish plantations, which could satisfy commercial production and avoid impact on natural populations, have been unsuccessful. So there is a need to generate biological information on this species for obtaining plants in greenhouses. The aim of this work was to evaluate the vigor and growth rate of C. alata seedlings born from seeds that were stored at different periods and temperatures, and to determine the effect of light intensity on the seedlings. Fruits were collected in Liberia (Guanacaste, Costa Rica) and seeds stored for 0, 4, 8, and 14 months at 5 °C, 15 °C, and ambient temperature (22-24 °C). Seedlings from seeds stored for 0, 4, 8 and 14 months were grown to evaluate growth after 8 days, 2 months, and 16 months, and in two different light conditions. Morphology of 8-day-seedlings changed according to storage time. Principal component analysis of 2-month evaluation indicates that the most significant variables were total dry biomass, dry biomass of leaves, root-shoot, stem, and root, while for the analysis of 16-month evaluation these variables were dry biomass of root, root-shoot, and leaves, also leaf number, and shoot length. Specific leaf area of 16-month plants from seeds stored for 14 months did not change with storage temperature. In addition, two different light conditions influence seedling height, stem diameter or leaf number. Seed storage at 5 °C and 15 °C favored development of seedling cotyledons, and length of both root and hypocotyl. Two month-seedlings from 0M and 8M allocated most biomass to roots and less to stems, enhancing this way water absorption. Sixteen-month-plants from non-stored seeds developed the highest leaf numbers, and those plants from 8M seeds at 5 °C and 15 °C showed shorter stems. Seeds stored up to 14 months kept viable, becoming healthy seedlings. We recommend that future researchers evaluate seed viability at different drying temperatures and more contrasting light levels.
Descripción
Palabras clave
Jícaro, Asignación de biomasa, Desarrollo de plántulas, Viabilidad, Vigor, Almacenamiento de semillas, Costa Rica, Jicaro tree, Biomass allocation, Seedling development, Viability, Vigor, Seed storage