Yoiner K. Lapiz-Culqui scite author profile

Yoiner K. Lapiz-Culqui

4Publications

2Citation Statements Received

97Citation Statements Given

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Affiliations

National University Toribio Rodríguez de Mendoza

Publications

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In Vitro Bulbification of Five Lily Varieties: An Effective Method to Produce Quality Seeds and Flowers

Lapiz-Culqui

Meléndez-Mori

Mállap-Detquizán

et al. 2022

International Journal of Agronomy

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Lilies are one of the most important, beautiful, and economically valuable flowers in the world. Lilium is regarded as a popular floral trade cut flower, so viable protocols are needed to provide seed production, multiplication, and preservation. In vitro protocols allow for rapid large-scale production and rejuvenation of planting material, but to be a commercially viable multiplication method, the procedure must allow for rapid production of viable, true-to-type plants quickly. The objective was to evaluate the in vitro production of microbulbs of five lily varieties (Lilium “Champion Diamond,” Lilium “Yellow Diamond,” Lilium “Batavus,” Lilium “Hyde Park,” and Lilium sp.) using different concentrations of 6-benzylaminopurine (0, 0.5, 1.0, 1.5, 1.5, and 2.0 mg L−1 BAP) and to determine the commercial quality (flowering) of the plants grown from the seed obtained. Results from the micropropagation phase show Lilium “Batavus” and Lilium “Hyde Park” varieties had better in vitro responses, especially when grown with 1.0 and 1.5 mg L−1 BAP, respectively. Plants (of all varieties) grown from microbulbs showed positive growth and generally resulted in commercially viable flower production. Finally, the results of this study support the use of bulb scales as an alternative for obtaining vegetative seeds with high potential for lily cultivation.

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Establecimiento y multiplicación in vitro de papayas de montaña: Vasconcellea chachapoyensis Y Vasconcellea x Heilbornii

Lapiz-Culqui

Tejada-Alvarado

Meléndez-Mori

et al. 2021

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La aplicación de las técnicas de cultivo de tejidos en especies de Vasconcellea es una alternativa viable para la propagación de estas especies. Sin embargo, la eficiencia de estas herramientas está condicionada por factores como la contaminación de explantes, el efecto de los reguladores de crecimiento y las especies que se desea propagar. El presente estudio tuvo como objetivo evaluar protocolos de desinfección superficial, con diferentes concentraciones de NaClO y Ca(ClO)2 y tiempos de inmersión, para el establecimiento de explantes. Asimismo, evaluar la acción de las fitohormonas BAP, ANA y AG3 en diferentes concentraciones en la multiplicación in vitro de segmentos nodales de Vasconcellea chachapoyensis y Vasconcellea x heilbornii. Los experimentos se condujeron bajo un diseño completamente al azar con arreglo factorial y los datos se analizaron con la prueba de Kruskal Wallis. Los resultados muestran que al utilizar NaClO al 1,5 % por 10 min se alcanzó solo 10 % de contaminación, siendo V. chachapoyensis la especie que logró mayor viabilidad de explantes en la etapa de establecimiento. Por otro lado, el medio suplementado con BAP generó mayor número de brotes y hojas, mientras que el AG3 indujo mayor elongación de los brotes. Además, cabe mencionar que la especie influyó en la multiplicación, siendo V. x heilbornii la de mejor desarrollo morfológico. Estos resultados señalan la eficacia e importancia de los desinfectantes y reguladores de crecimiento durante el cultivo de tejidos, y representan una alternativa propicia para la micropropagación de especies del género Vasconcellea.

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Efecto de reguladores de crecimiento en el establecimiento in vitro de (Vasconcellea sp.), a partir de meristemos apicales en Chachapoyas, Amazonas

Lapiz-Culqui

Huamán

Chávez

et al. 2020

Rev. de investig. agroproducción sustentable

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La investigación presente tuvo como finalidad evaluar el efecto de reguladores de crecimiento en el establecimiento in vitro de Vasconcelleas sp., a partir de meristemos apicales, para ello se utilizó especies de (Babaco, Maushan y Papayita), los cuales fueron establecidos en los ambientes del Laboratorio de Fisiología y Biotecnología Vegetal perteneciente al Instituto de Investigación para el Desarrollo Sustentable de Ceja de Selva (INDES-CES) de la Universidad Nacional Toribio Rodríguez de Mendoza de Amazonas, utilizando un Diseño Completamente Aleatorio, con arreglo factorial de 9 tratamientos, T1 (Maushan con ácido naftalen acético), T2 (Maushan con ácido indol acético), T3 (Maushan con ácido Giberilico), T4 (papayita con ácido naftalen acético), T5 (papayita con ácido indol acético), T6 (papayita con ácido Giberilico), T7 (Babaco con ácido naftalen acético), T8 (Babaco con ácido indol acético) y T9 (Babaco con ácido Giberilico) con 3 repeticiones cada uno, donde se evaluaron 3 variables, numero de explantes necrosados, numero de explantes contaminados por hongos y bacterias y numero de explantes viables, cuyo resultados mostraron que los explantes del T5 presentó los niveles más altos de necrosamiento, T1 Y T2 presentaron una mayor contaminación fúngica y bacteriana y T9 presentó mayor viabilidad al finalizar el establecimiento.

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Optimizing factors influencing micropropagation of ‘Bluecrop’ and ‘Biloxi’ blueberries and evaluation of their morpho-physiological characteristics during ex vitro acclimatization

Tejada-Alvarado

Meléndez-Mori

Valqui

et al. 2022

JBR

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BACKGROUND: Blueberry production has generated great commercial expectations, therefore for its agricultural expansion it is necessary to overcome the challenges at the time of mass propagation. OBJECTIVE: Evaluate the effect of a set of factors influencing micropropagation, as well as the influence of substrates on the ex vitro morpho-physiological performance of blueberry seedlings. METHODS: A set of protocols were developed to optimize all stages of micropropagation (aseptic establishment, multiplication, rooting, and acclimatization) of blueberries. RESULTS: Explants immersed in 1.5% NaClO for 8 min and then in 0.1% HgCl2 for 2 min achieved 100% sterility and a viability rate of 86.67% for ‘Biloxi’ and 93.33% for ‘Bluecrop’. At the multiplication stage, the maximum number of shoots of ‘Biloxi’ (3.53) and ‘Bluecrop’ (2.27) were obtained on the medium supplemented with 0.2 and 10 mg L–1 silver nanoparticles (AgNPs), respectively. The percentage of in vitro rooting was significantly improved on media containing activated charcoal, with levels between 80% and 100% . In the acclimatization phase, plants grown in a substrate composed of peat and cocomix® (2:1 ratio) showed greater uniformity and better morpho-physiological behavior. CONCLUSIONS: The present results could be successfully used for large-scale commercial production of blueberries of the varieties ‘Biloxi’ and ‘Bluecrop’.

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