Examinando por Autor "Flores Marquez, Ricardo"

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An evaluation of dryland ulluco cultivation yields in the face of climate change scenarios in the Central Andes of Peru by using the Aquacrop model
(MDPI, 2024-06-26) Flores Marquez, Ricardo; Vera Vilchez, Jesús Emilio; Verástegui Martínez, Patricia; Lastra, Sphyros; Solórzano Acosta, Richard
Ullucus tuberosus is an Andean region crop adapted to high-altitude environments and dryland cultivation. It is an essential resource that guarantees food security due to its carbohydrate, protein, and low-fat content. However, current change patterns in precipitation and temperatures warn of complex scenarios where climate change will affect this crop. Therefore, predicting these effects through simulation is a valuable tool for evaluating this crop’s sustainability. This study aims to evaluate ulluco’s crop yield under dryland conditions at 3914 m.a.s.l. considering climate change scenarios from 2024 to 2100 by using the AquaCrop model. Simulations were carried out using current meteorological data, crop agronomic information, and simulations for SSP1-2.6, SSP3-7.0, and SSP5-8.5 of CMIP 6. The results indicate that minimum temperature increases and seasonal precipitation exacerbation will significantly influence yields. Increases in rainfall and environmental CO2 concentrations show an opportunity window for yield increment in the early stages. However, a negative trend is observed for 2050–2100, mainly due to crop temperature stress. These findings highlight the importance of developing more resistant ulluco varieties to heat stress conditions, adapting water management practices, continuing modeling climate change effects on crops, and investing in research on smallholder agriculture to reach Sustainable Development Goals 1, 2, and 13
Biochar-amended soils: A water-saving strategy for quinoa cultivation in the Andes
(John Wiley & Sons Inc., 2024-12-30) Condori Ataupillco, Tatiana; Flores Marquez, Ricardo; Quispe Rodriguez, Juan; Quispe Matos, Kenyi Rolando; Velásquez Mantari, José; Solorzano Acosta, Richard
Previous studies showed that biochar amended soils significantly enhanced the growth and yield of quinoa under water limitations. So it becomes an emerging agronomic strategy to consider for sustainable quinoa production. Biochar can specifically be considered for the area particularly receiving low annual rainfall and more vulnerable to current climate change conditions
Manual de aplicación de enmiendas para suelos salinos y sódicos
(Instituto Nacional de Innovación Agraria (INIA), 2024-09-27) Pérez Porras, Wendy Elizabeth; Flores Marquez, Ricardo; Calero Rios, Emilee Nahomi; Arévalo Aranda, Yuri Gandhi; Solórzano Acosta, Richard Andi
El enfoque principal del “Manual de aplicación de enmiendas para suelos salinos y sódicos” es brindar conocimiento detallado y paso a paso sobre cómo seleccionar, aplicar y monitorear enmiendas adecuadas para corregir los problemas de salinidad y sodicidad en los suelos, donde se abordan y recomiendan enmiendas orgánicas y químicas; asimismo, se proporciona ejemplos específicos de casos exitosos de su uso. Esto contribuirá al desarrollo de prácticas agrícolas más sostenibles y productivas en entornos afectados por la degradación química como es la salinidad y sodicidad.
Transformation of Terraces with Irrigation Systems: Profitability and Water Savings in Potato Crop (Solanum tuberosum L.)
(MDPI, 2025-02-25) Poma Chamana, Russell; Flores Marquez, Ricardo; Cordova Tadeo, Joel; Quello Huamaní, Antony Arturo; Arapa Quispe, José; Solórzano Acosta, Richard Andi
In recent decades, climate change has intensified the challenges in agriculture, increasing the incidence of water and heat stress during critical stages of the crop cycle. It includes the exacerbation of the seasonality of rainfall and temperature. This significantly affects their development and yield. In addition, climate change has reduced irrigation water availability, highlighting the need to evaluate joint strategies to increase water productivity. These strategies include the implementation of irrigation systems, the use of terraces, and the application of deficit irrigation (DI). In this context, the present research aims to evaluate the irrigation water productivity (WPirri) and the economic water productivity (EWP) of the combined use of DI through a pressurized irrigation system in terraces of the southern highlands of Peru for a potato crop. The treatments included L0: traditional surface irrigation with irrigation depth equivalent to 100% ETc, L1: drip irrigation with irrigation depth equivalent to 100% ETC, L2: drip irrigation with DI at 75% ETc, and L3: drip irrigation with DI at 50% ETc. The DI treatments (L2 and L3) were implemented by forming stolons (60 DAS). As a result, L2 allows saving irrigation water of 3930 m³ ha−1 compared to L0 and 1164 m³ ha¯¹ compared to L1. It means a WPirri of 6.15 ± 0.35 kg m−3 allowing a commercial yield (CY: 27.15 ± 1.47 t ha¯¹) statistically similar to L1 (WPirri: 5.45 ± 0.34 kg m−3; CY: 30.14 ± 1.83 t ha¯¹) and higher than the traditional surface irrigation (WPirri: 2.63 ± 0.23 kg·m−3; CY: 21.62 ± 1.99 t ha¯¹). This water saving meant a net income of 3097.04 ± 435.52 USD ha¯¹ for L2, close to L1 (4421.12 ± 724.24 USD ha¯¹), and much higher than L0 (1664.50 ± 834.24 USD ha¯¹). The results suggest that using drip irrigation systems in terraced crops optimizes water savings, maintains yields and profitability, and could promote the modernization of terraces in rural environments.