Examinando por Autor "Cuevas Giménez, Juan Pablo"

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Biofermentos en la morfología y calidad de plántulas de cacao (Theobroma cacao L.) en vivero
(Universidad Autónoma de Yucatán (México), 2025-09-07) Díaz Chuquizuta, Percy; Díaz Chuquizuta, Henry; Arévalo Aranda, Yuri Gandhi; Cuevas Giménez, Juan Pablo
La producción de plántulas de cacao (Theobroma cacao L.) de calidad en vivero, es fundamental para el éxito de las plantaciones comerciales. Los biofermentos representan una alternativa sostenible para mejorar producción y la calidad de las plántulas. Objetivo. Evaluar el efecto de biofermentos en la producción y calidad de plántulas de cacao en vivero. Metodología. Se utilizaron cuatro tratamientos con diferentes combinaciones de sustratos y biofermentos sólidos y líquidos. Se empleó un diseño completamente al azar con cuatro repeticiones, midiendo variables morfológicas y de calidad. Resultados. El tratamiento sustrato tradicional con adición de biofermentos sólidos y líquidos (ST+BS+BL) presentó los mayores valores en altura, diámetro del tallo, biomasa seca y calidad de Dickson, superando en un 51% al sustrato tradicional. Implicaciones. Los biofermentos mejoran la disponibilidad de nutrientes y la estructura del sustrato, favoreciendo el desarrollo de plántulas vigorosas y mejor calidad. Conclusiones. La combinación de biofermentos sólidos y líquidos representa una estrategia agroecológica para optimizar la producción, mejorando los atributos morfológicos, y calidad de plántulas de cacao en vivero.
Critical edaphic and altitudinal factors influencing cation exchange capacity in coffee-growing soils of northeastern Peru: implications for sustainable fertility management
(Frontiers Media SA, 2026-05-05) Díaz Chuquizuta, Henry; Manrique Gonzales, Luis Fernando; Sánchez Ojanasta, Martín; Cuevas Giménez, Juan Pablo; Carbajal Llosa, Carlos Miguel; Cuellar Condori, Néstor Edwin; Martínez Zapata, Boris Guillermo; Vallejos Torres, Geomar
Introduction: Effective cation exchange capacity (ECEC) is a key indicator of soil fertility and sustainable soil management assessment in coffee-growing systems. Methods: This study aimed to identify the principal edaphic and altitudinal factors explaining ECEC variability in 69 soil samples collected from coffee farms in northeastern Peru. Results: ECEC results exhibited substantial variation, ranging from 0.14 to 55.49 cmol(+)·kg⁻¹ (mean = 15.21; SD = 12.47), and were significantly correlated with organic matter (r = 0.71), clay content (r = 0.62), exchangeable acidity (r = -0.63), and altitude (r = 0.33). Principal component analysis accounted for 64.3% of the edaphic variability, identifying Ca²⁺, pH, Mg²⁺, and exchangeable acidity as the most influential variables. The Random Forest model demonstrated high predictive accuracy (R² = 0.93; root mean square error (RMSE) = 2.1 cmol(+)·kg⁻¹), outperforming the generalized additive model (GAM) and identifying Ca²⁺ as the most important predictor (IncMSE% = 3177.37). A functional altitudinal gradient was also evident: areas above 1150 m.a.s.l. showed higher acidity and aluminium content, whereas areas below 900 m.a.s.l. exhibited greater base saturation and higher ECEC. Discussion: These findings support the development of site-specific fertilization strategies and soil–climate zoning, emphasizing the value of integrating multivariate analyses with machine-learning models as key tools for optimizing fertility management and coffee crop productivity in tropical mountain ecosystems; where soil texture represents a key factor influencing coffee sustainability, as greater nutrient retention capacity and improved nutritional balance are associated with enhanced potential for sustainable production and reduced environmental impact.
Inoculation of Bacillus subtilis in acidic soil amended with biochar and liming materials in maize cultivation
(Nature Publishing Group, 2025-08-06) Diaz Chuquizuta, Henry; Coral Cardenas, Sergio Axel; Arévalo Aranda, Yuri Gandhi; Sánchez Ojanasta, Martín; Diaz Chuquizuta, Percy; Ocaña Reyes, Jimmy Alcides; Solórzano Acosta, Richard Andi; Cuevas Giménez, Juan Pablo
The use of amendments in combination with Bacillus subtilis has been understudied as a strategy for rehabilitating acid soils and improving cropping systems. This study aimed to evaluate the effects of amendments and B. subtilis on the development, yield, and nutritional quality of the hard yellow maize Marginal 28 T variety. A randomized complete block design with a factorial arrangement was employed, considering five amendments, including biochar, alongside the application of B. subtilis. The combination of biochar and B. subtilis significantly increased plant and ear height (p < 0.01), achieved a grain yield of 4.11 t ha⁻¹, and reduced flowering time by seven days. Strong correlations were observed between male and female flowering (r = 0.99) and between stem diameter and leaf area (r = 0.95), indicating improved vegetative development. Soil pH and nutrient availability, such as phosphorus, were also enhanced. The combined use of amendments and B. subtilis optimizes yield and improves soil chemical properties. Thus, applying biochar and B. subtilis improves growth, yield, and soil quality, consolidating a promising strategy for sustainable agriculture in acid soils.