Rice is cataloged as one of the most widely cultivated crops globally, providing food for a large proportion of the global population. Integrating Geographic Information Systems (GISs), such as unmanned aerial vehicles (UAVs), into agricultural practices offers numerous benefits. UAVs, equipped with imaging sensors and geolocation technology, enable precise crop monitoring and management, enhancing yield and efficiency. However, Peru lacks sufficient experience with the application of these technologies, making them somewhat unfamiliar in the context of modern agriculture. In this study, we conducted experiments involving four distinct rice varieties (n = 24) at various stages of growth to predict yield using vegetation indices (VIs). A total of nine VIs (NDVI, GNDVI, ReCL, CIgreen, MCARI, SAVI, CVI, LCI, and EVI) were assessed across four dates: 88, 103, 116, and 130 days after sowing (...

Los individuos del género Prosopis sp. conocidos como algarrobos; son especies claves en el desarrollo del bosque seco y recuperación de áreas degradadas en la Costa norte del Perú. La evaluación de plantaciones, cálculo de la biomasa aérea forestal (BAF) y carbono almacenado representa un papel importante en el manejo forestal y mitigación del cambio climático. Este estudio evalúa metodologías de monitoreo a través del uso de imágenes multiespectrales y LiDAR acopladas a un VANT, con la finalidad de realizar su validación y generar modelos que permitan estimar el carbono almacenado. Se evaluaron siete especies de Prosopis sp. con la metodología convencional y se encontraron diferencias significativas entre las especies para las características dasométricas e índices de vegetación, así como en la comparación con los datos obtenidos con el LiDAR. Se seleccionaron mode...

Precision agriculture aims to improve crop management using advanced analytical tools.In this context, the objective of this study is to develop an innovative predictive model to estimate the yield and morphological quality, such as the circularity and length–width ratio of potato tubers, based on phenotypic characteristics of plants and data captured through spectral cameras equipped on UAVs. For this purpose, the experiment was carried out at the Santa Ana Experimental Station in the central Peruvian Andes, where advanced potato clones were planted in December 2023 under three levels of fertilization. Random Forest, XGBoost, and Support Vector Machine models were used to predict yield and quality parameters, such as circularity and the length–width ratio. The results showed that Random Forest and XGBoost achieved high accuracy in yield prediction (R2 > 0.74). In contrast, the predi...