Micropropagación de plantas de lechosa en recipientes de inmersión temporal a partir de brotes axilares Micropropagation of papaya plants in temporary immersion recipients from axilary shoots

García, Ariadne Vegas; Sandrea, Yanet; González, O.; Díaz, A.; Albarrán, José Gerardo; Schmidt, Arthur H.; Salazar, Efraín; Mujica, Yris; Casado, Raúl; Fernández, José Antonio; R, Carlos Marín

doi:10.15446/rev.colomb.biote.v17n1.50718

Cited by 5 publications

(4 citation statements)

References 16 publications

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“…The use of the liquid medium in the PI and RITA ® systems favored the morphometric development of anthurium vitroplants. These results agree with what was reported by García et al (2015), who mention that a higher rate of explant development was obtained in the systems where a liquid medium was used because they allow a higher contact of the explants with the culture medium, allowing a better absorption of nutrients and maximizing their development. In addition, the temporary immersion system allows supplying the culture medium to the explants by time lapses, and this allows the renovation of the gaseous atmosphere avoiding the hyper hydricity in the plant tissue with it, as well as the accumulation of toxic gases within the systems.…”

Section: Morphometric Analysissupporting

confidence: 92%

Physiological development of red anthurium (Anthurium andreanum Linden) var. Tropical in three in vitro culture systems

López-Páez

Galindo-Tovar²,

Murguía-González³

et al. 2022

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Objective: To evaluate the physiological development of red Anthurium andreanum L. var. Tropical in three in vitro culture systems: semi-solid, partial immersion and RITA® bioreactor. Design / methodology / approach: A completely randomized design with three treatments, semi-solid medium, partial immersion and RITA® bioreactor, and four repetitions each was used. Vitroplants of anthurium were selected with a size of 0.5 cm from the stem to the highest leaf, with three leaves in each specimen. Morphometric, chlorophyll content and hormone content analyses were carried out after 60 days of sowing. Analysis of variance and means comparison tests were performed on the data obtained through Kruskal-Wallis and Tukey, respectively, using the statistical software R-STUDIO. Results: The highest shoot rate and root length were obtained in partial immersion; however, the number of leaves, shoots and root multiplication did not show differences with the RITA® bioreactors. The highest concentration of chlorophylls and indole acetic acid was observed when using RITA® bioreactors. Study limitations / implications: The results are favorable for the in vitro production of anthurium, although the use of RITA® bioreactors for commercial production is a high cost in the initial investment. Findings / conclusions: With the results obtained, it is considered that the RITA® bioreactors obtained the best results for the production of anthurium, followed by the partial immersion system. This is due to the liquid medium and better gas exchange, which favors the development of plants

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Section: Morphometric Analysissupporting

confidence: 92%

Physiological development of red anthurium (Anthurium andreanum Linden) var. Tropical in three in vitro culture systems

López-Páez

Galindo-Tovar²,

Murguía-González³

et al. 2022

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“…De acuerdo con Ontaneda et al (2020), esto puede ser explicado debido a que el medio líquido proporciona una mejor difusión de los nutrientes propiciando mejor crecimiento de explantes y formación de brotes. Esto coincide con García et al (2015), quienes reportaron mayor tasa de desarrollo en sistemas donde se utiliza medio líquido, debido al mayor contacto de los explantes con el medio de cultivo, permitiendo una mejor absorción, y con Alamilla-Magaña et al (2019) y Martínez-Estrada et al (2019, quienes obtuvieron mayores tasas de propagación de anturio utilizando sistemas de inmersión temporal. Los resultados obtenidos para el contenido de macroelementos en el tejido foliar se explican debido al contacto directo entre los explantes y el medio de cultivo, permitiendo una mejor absorción de nutrientes maximizando su desarrollo (García et al, 2015) y a la alternancia de ciclos de inmersión del material vegetal cultivado en medio líquido, seguido por el drenaje y la exposición de tejido al entorno gaseoso que ocurren en el sistema RITA ® , lo que promueve una mejor absorción de nutrientes (Muñiz, 2019).…”

Section: Discussionunclassified

“…Esto coincide con García et al (2015), quienes reportaron mayor tasa de desarrollo en sistemas donde se utiliza medio líquido, debido al mayor contacto de los explantes con el medio de cultivo, permitiendo una mejor absorción, y con Alamilla-Magaña et al (2019) y Martínez-Estrada et al (2019, quienes obtuvieron mayores tasas de propagación de anturio utilizando sistemas de inmersión temporal. Los resultados obtenidos para el contenido de macroelementos en el tejido foliar se explican debido al contacto directo entre los explantes y el medio de cultivo, permitiendo una mejor absorción de nutrientes maximizando su desarrollo (García et al, 2015) y a la alternancia de ciclos de inmersión del material vegetal cultivado en medio líquido, seguido por el drenaje y la exposición de tejido al entorno gaseoso que ocurren en el sistema RITA ® , lo que promueve una mejor absorción de nutrientes (Muñiz, 2019). Este biorreactor permite una renovación constante de la atmósfera creada en su interior y evita la acumulación de etileno (Batista et al, 2020), influyendo en el flujo de otros minerales y mejorando la translocación de fotosintatos (Kalidass & Nayak, 2017); mientras que en el sistema de medio semisólido el agente gelificante propicia que disminuya la absorción de nutrientes, por la reducción del gradiente de difusión (Vilchez & Albany, 2014), lo que ocasiona el desarrollo de zonas de agotamiento nutrimental.…”

Section: Discussionunclassified

In vitro nutrition of anthurium (Anthurium andreanum Linden var. Tropical) in three culture systems

López-Páez¹

2022

Mexjbiotechnol

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Anthurium is a very important ornamental plant in the market. However, its traditional reproduction presents problems, therefore in vitro culture represents an alternative for its propagation. In the in vitro plant tissue culture, the nutrients are provided by the media, but information on the in vitro nutrition for anthurium is scarce. The objective of this research was to evaluate plant growth characteristics, nutrient content in plant tissues and nutrient removal from the culture medium in three in vitro culture systems: semi-solid, partial immersion and the RITA® bioreactor. The data were analyzed, using an ANOVA and compared with Tukey tests, using the statistical software R-STUDIO. The highest length of shoots and roots were observed with partial immersion; the number of leaves, shoots and roots did not show differences with the RITA® bioreactors. The highest tissue content of nutrients occurred in plants cultivated in the RITA® bioreactor. For the content of nutrients in the culture medium, the highest one was observed in the RITA® bioreactor, which indicates a most efficient use of nutrients, due to the greater contact of explants with the media and a best gas exchange. Therefore, the RITA® bioreactor represents the most viable option for anthurium plants production.

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“…Compared to the conventional system, the SIT produce larger amounts of seedlings, it is automatable, not very laborious and improves production at a low cost. In this regard Vegas et al (2015) mention that the development of the SIT has allowed the optimization of the multiplication of plant species and the propagation at commercial scale. By reducing operating costs through the use of liquid media and better handling, the time for initial establishment of in vitro explants is decreased and multiplication rates are increased.…”

Section: Multiplication In Temporary Immersion System (Rita®)mentioning

confidence: 99%

USO DE INSUMOS ALTERNATIVOS PARA LA MICROPROPAGACIÓN EN MEDIO SEMISÓLIDO Y SISTEMA DE INMERSIÓN TEMPORAL DE Solanum tuberosum, Ullucus tuberosus Y Oxalis tuberosa

Peña-Rojas

Sánchez

Barahona

et al. 2020

Trop Subtrop Agroecosyst

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Background. Micropropagation allows high rates of clonal multiplication of plants in short periods of time. However, despite being a simple technique, its implementation can be costly for regions and producers with limited resources. One of the main limiting factors is the lack of access to the inputs (QP) for the basic media that is widely published and disseminated in the literature. Other limiting factors include high costs, logistical difficulties and timely access to such inputs. Objective. In order to address these problems, the present work proposes the use of alternative inputs in the composition of the culture media for micropropagation of potatoes (Solanum tuberosum), ulluco (Ullucus tuberosus Caldas), and oca (Oxalis tuberosa Molina) in semi-solid and liquid media, as well as in temporary immersion systems (SIT). Methodology. All the macro and micronutrients of the basic media were replaced with inputs available at low cost in any local market. Results. The best results for micropropagation rate, plant vigor and rooting were obtained in the medium with substituted and accesible inputs (EP medium). These results were validated for micropropagation by nodal cutting in liquid and semi-solid médium and SIT. Implications. The basic medium (EP), formulated herein may be used by any laboratory and resource-poor farmers to apply micropropagation and improve revenues. Conclusion.The production cost of the EP medium, with easily accessible inputs in low-cost local markets, is significantly cheaper than MS medium used as a control, without differences in micropropagation.

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Micropropagación de plantas de lechosa en recipientes de inmersión temporal a partir de brotes axilares Micropropagation of papaya plants in temporary immersion recipients from axilary shoots

Cited by 5 publications

References 16 publications

Physiological development of red anthurium (Anthurium andreanum Linden) var. Tropical in three in vitro culture systems

Physiological development of red anthurium (Anthurium andreanum Linden) var. Tropical in three in vitro culture systems

In vitro nutrition of anthurium (Anthurium andreanum Linden var. Tropical) in three culture systems

USO DE INSUMOS ALTERNATIVOS PARA LA MICROPROPAGACIÓN EN MEDIO SEMISÓLIDO Y SISTEMA DE INMERSIÓN TEMPORAL DE Solanum tuberosum, Ullucus tuberosus Y Oxalis tuberosa

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