Examinando por Autor "Javier Astete, Rosario Elyzabeth"
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Ítem Guía práctica de producción y uso de bioladrillos inoculados con Trichoderma sp., Bacillus sp. y Pseudomonas sp.(Instituto Nacional de Innovación Agraria (INIA), 2026-06) Solórzano Acosta, Richard Andi; Javier Astete, Rosario Elyzabeth; Huaraka Verastegui, AngelaEl Bioladrillo, es un bloque sólido elaborado a partir de residuos de cosecha y otros materiales orgánicos, que funciona como refugio y medio de transporte para microoganismos benéficos de las plantas. Al disolver el bioladrillo en agua, los microorganismos benéficos se liberan y están listos para aplicarse en el suelo, raíz o semillas. Los Bacillus y Pseudomonas ayudan a la planta a absorber nutrientes (nitrógeno, fósforo, potasio), logrando plantas más vigorosas (Solórzano Acossta y Quispe. 2024). El Trichoderma, por su parte, fortalece la raíz y evita que las plántulas, mueran tras el trasplante (Huasasquieche et al.2024)Ítem Ichu valorization by Pleurotus spp. cultivation and potential of the residual substrate as a biofertilizer(MDPI, 2025-03-18) Solórzano Acosta, Richard Andi; Dionisio, Luis; Burga, Lyana; Javier Astete, Rosario Elyzabeth; Quispe Apaza, Cinthia Sheila; Oscco, Persing; Johnson, LuisThe high Andean grass Jarava ichu (Poaceae) plays a vital role in water regulation and aquifer recharge. However, its limited use is often linked to forest fires, highlighting the need for sustainable alternatives. Therefore, this study aims to explore the valorization of ichu as a substratefor the cultivation of Pleurotus spp. (P. citrinopileatus, P. djamor and P. ostreatus) and to evaluate the potential of the residual substrate as a biofertilizer, offering an ecological alternative to grassland burning in the Peruvian Andes. Samples of ichu from the district of Tomás (Lima, Peru) were used as culture substrate, analyzing productivity indicators such as crop cycle (CC), biological efficiency (EB) and production rate (PR), together with the nutritional profile of the fungi and the chemical properties of the residual substrate. The results showed an average biological efficiency of 19.8%, with no significant differences (p>0.05) in CC, EB or PR among the species, confirming the viability of ichu as a substrate. The fungi presented a high protein content (24.1-30.41% on a dry basis), highlighting its nutritional value. In addition, the residual substrate exhibited elevated levels of phosphorus (795.9-1296.9 ppm) and potassium (253.1-291.3 ppm) compared to raw ichu (0.11-7.77 ppm for both nutrients). Germination tests on radish seeds showed rates between 80% and 100%, without inhibition, supporting its potential as a biofertilizer. This study demonstrates the doublé potential of ichu as a substrate for the sustainable production of edible mushrooms of high nutritional value and as a source of biofertilizersÍtem Ichu valorization by pleurotus spp. cultivation and potential of the residual substrate as a biofertilizer(MDPI, 2025-07-23) Solórzano Acosta, Richard Andi; Dionisio, Luis; Burga, Lyana; Javier Astete, Rosario Elyzabeth; Quispe Apaza, Cinthia Sheila; Oscco Laura, Persing; Johnson Pozo, Luis FernandoThe high-Andean grass Jarava ichu (Poaceae) plays a vital role in water regulation and aquifer recharge. However, its limited use is often linked to forest fires, highlighting the need for sustainable alternatives. Therefore, this study aims to explore the valorization of ichu as a substrate for the cultivation of Pleurotus spp. (P. citrinopileatus, P. djamor, and P. ostreatus) and to evaluate the potential of the residual substrate as a biofertilizer, offering an ecological alternative to grassland burning in the Peruvian Andes. Samples of ichu from the district of Tomás (Lima, Peru) were used as culture substrate, analyzing productivity indicators such as crop cycle (CC), biological efficiency (BE), and production rate (PR), together with the nutritional profile of the fungi and the chemical properties of the residual substrate. The results showed an average biological efficiency of 19.8%, with no significant differences (p > 0.05) in CC, BE, or PR among the species, confirming the viability of ichu as a substrate. The fungi presented a high protein content (24.1–30.41% on a dry basis), highlighting its nutritional value. In addition, the residual substrate exhibited elevated levels of phosphorus (795.9–1296.9 ppm) and potassium (253.1–291.3 ppm) compared to raw ichu (0.11–7.77 ppm for both nutrients). Germination tests on radish seeds showed rates between 80% and 100%, without inhibition, supporting its potential as a biofertilizer. This study demonstrates the double potential of ichu as a substrate for the sustainable production of edible mushrooms of high nutritional value and as a source of biofertilizers.