Forma de citar:Díaz-Caravantes RE, Duarte-Tagles H, Durazo-Gálvez FM. Amenazas para la salud en el Río Sonora: análisis exploratorio de la calidad del agua reportada en la base de datos oficial de México. Rev Univ Ind RESUMENEl 6 de agosto de 2014 ocurrió en el Río Sonora, México, lo que fue llamado "el peor desastre ambiental de la industria minera del país" cuando la mina Buenavista del Cobre derramó alrededor de 40,000 metros cúbicos de lixiviado ácido. Con el fin de avanzar en el conocimiento de las consecuencias de este evento, se analizó la base de datos del monitoreo de la calidad del agua subterránea que aparece en el portal electrónico del Fideicomiso Río Sonora. Por las implicaciones que este evento tiene para la salud, los valores reportados se confrontaron con los límites máximos permisibles establecidos en la Norma Oficial Mexicana vigente. Asímismo, para enriquecer la discusión, se analizó el caso del arsénico, comparando los valores reportados en relación con la Norma Mexicana y con la Guía de calidad para el agua de la Organización Mundial de la Salud.Palabras clave: Calidad del agua, Río Sonora, Buenavista del Cobre, vertimiento. ABSTRACTOn August 6th, 2014, the event labelled as the "worst environmental disaster of the mining industry in Mexico" ocurred in the Sonora River, when Buenavista del Cobre mine spilled around 40,000 cubic meters of an acidic leachate. In order to expand our knowledge of the consequences of this event, the water quality monitoring data base was analyzed for groundwater from the Río Sonora trust fund webpage. Due to the health relevance of the spill, the reported data was compared to the established maximum allowance values of Mexican regulations. Furthermore, for an enhanced discussion, the case of arsenic was also analyzed, comparing the data with Mexican regulations as well as with the WHO guidelines for drinking water.
Introduction: Mangroves provide environmental goods and services that mitigate climate change. Objective: To estimate the economic value of the carbon stock in the aboveground biomass of mangroves in Bahía del Tóbari (BT) and El Sargento in Sonora. Materials and methods: Field research were conducted in 2014 and 2015 in 16 plots (10 x 10 m). Biomass of Laguncularia racemosa (L.) Gaertn, Rhizophora mangle L. and Avicennia germinans(L.) L. was determined with specific allometric equations. Carbon stocks and avoided CO2e emissions were estimated with conversion factors 0.5 and 3.7, respectively; these data represented the 2015 baseline. The 2020 estimates included changes in mangrove cover. The economic value was determined using the marginal carbon abatement cost method. Results and discussion: The 2015 baseline indicated reserves of 52.1 MgC∙ha-1 and 191.2 tCO2e∙ha-1 for BT, and 71.7 MgC∙ha-1 and 263.2 tCO2e∙ha-1 for El Sargento. By 2020 avoided emissions of 69 368.2 tCO2e∙TA-1 (TA= 362.79 ha) were estimated for BT and 116 696tCO2e∙TA-1(TA = 468.32 ha) for El Sargento. Economic values of these emissions were 131 799.5 USD (World Bank) and 180 357.2 USD (voluntary carbon market) for BT and 221 722.2 USD (World Bank) and 303 409.4 USD (voluntary carbon market) for El Sargento. Conclusions: The highest estimates of C reserves and economic value were recorded at El Sargento. Compared to other studies in the region, both sites had higher avoided CO2e emissions.
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