Browsing by Author "Tuba Guaman, Damian Francisco"
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Item Synthesis of Bi4O5I2 microbars for pollutant degradation through a photocatalytic process(2023) Tuba Guaman, Damian FranciscoBi4O5I2 microbars were synthesized by a hydrothermal method and then characterized using a set of instrumental techniques. The scanning electron microscopy (SEM) and transmission electron microscopy (TEM) images showed the successful preparation of Bi4O5I2 microbars. X-ray diffraction (XRD) patterns of the sample were well indexed to the monoclinic phase of Bi4O5I2. The elemental composition was studied by energy dispersive X-ray spectroscopy (EDS), and it was similar to the theorical formula Bi4O5I2. The synthetized microbars despite of their low visible-light response could degrade up to 92.66% of Bisphenol A under white light-emitting diode (LED) light irradiation. The photocatalytic degradation and mineralization tests showed that Bi4O5I2 microbars could be efficiently used for the degradation of organic chemical pollutants.Item Unveiling groundwater recharge elevations in a tropical Andean catchment: Insights from nine-year isotopic records(Universidad de Cuenca, Facultad de Ingeniería, 2025-10-08) Tuba Guaman, Damian Francisco; Ramón Flores, Jorge DavidResearch on páramo ecosystems have demonstrated that groundwater contributions to baseflow are both permanent and substantial, particularly during periods of low rainfall. However, advancing this knowledge requires identifying the spatiotemporal variability of groundwater recharge in order to clarify the mechanisms that sustain baseflow. This study addresses this knowledge gap by identifying the groundwater recharge elevations and the temporal dynamics of groundwater recharge in the Quinuas Eco-hydrological Observatory, a páramo catchment located in Southern Ecuador. For this purpose, we utilized a unique nine-year dataset (2014-2023) of stable water isotopes ( 𝛿 18𝑂 ) and meteorological records. Groundwater recharge elevations were estimated by comparing 𝛿 18𝑂 in rainfall and groundwater samples collected across an altitudinal gradient (3218-4055 m a.s.l.). The temporal dynamics of recharge were assessed by applying cluster analysis to the groundwater isotope data and by estimating rainfall thresholds required to initiate recharge. Results indicate that groundwater recharge predominantly occurs above 4100 m a.s.l. Rainfall exceeding 110 mm per month is required to initiate effective recharge. Notably, this threshold corresponds to the most humid months of April and May (Cluster 1). These findings highlight the role of high-altitude zones in sustaining groundwater recharge and suggest that groundwater recharge is a near-continuous process throughout the year, except during dry months. This study underscores the utility of stable isotopes as powerful tools to understand the hydrological connectivity between rainfall and groundwater, provides essential insights for improving water resource management and conservation strategies in páramo ecosystems.