Juan Suárez-Sánchez scite author profile

Este estudio proyecta los efectos de la restauración forestal sobre el balance hídrico y el movimiento de nutrientes considerando las condiciones climáticas actuales, la demanda de agua, el crecimiento poblacional y los escenarios futuros de cambio climático en la cuenca alta del río Grijalva mediante el uso del modelo WEAP (Water Evaluation And Planning). Se utilizaron datos obtenidos en dos cuencas y cuatro subcuencas, incluyendo clima, densidad poblacional, consumo de agua, uso de suelo y cobertura de bosques, así como mediciones periódicas de caudales base, y de concentraciones de nitrógeno y fósforo en agua en el año 2012. Los cambios de uso de suelo y su efecto en el mantenimiento de la seguridad hídrica, considerando el crecimiento poblacional y el cambio climático fueron analizados para un periodo de 15 años (partiendo del 2012 como año base). Específicamente, se modeló la sustitución de los suelos en barbecho y la selva baja por bosques de pino-encino. El escenario de restauración forestal proyecta un incremento de área de bosque de pino-encino de 7.4% a 20.9% en la cuenca del río Xelajú; y de 9.8% a 18.3% en la cuenca del río Bacantón y se basa en un trabajo previo que identificó la voluntad local de realizar estas prácticas de restauración forestal. Nuestros resultados mostraron que las actividades de restauración forestal producen un efecto positivo en la disminución de las concentraciones de nutrientes en el agua. En las cuencas de los ríos Xelajú y Bacantón se observó una disminución en la generación de nitrógeno de 8,561 y 1,870 kg, respectivamente; y una disminución en la generación de fósforo de 2,335 y 551 kg, respectivamente. Sin embargo, el balance hídrico proyectado para el futuro sugiere que, en el caso de realizarse la restauración forestal, habrá una reducción en la evapotranspiración y un aumento en la infiltración y en la escorrentía superficial. La reducción de la evapotranspiración y el incremento de la escorrentía superficial no es consistente con la mayoría de los resultados encontrados en la literatura y podría reflejar la falta de datos apropiados para la modelación de las condiciones locales. El incremento de la infiltración si está más acorde con la literatura. Debido a los anteriores resultados inesperados recomendamos mayor generación de datos a nivel local para incorporar y enriquecer el modelo WEAP y obtener resultados más confiables. Finalmente, recomendamos algunas acciones de restauración forestal en el área de estudio.

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Diabetic foot self-care and concordance of 3 diabetic foot risk stratification systems in a basic health area of Gran Canaria

Torre

Quintana-Lorenzo

Lorenzo-Navarro

et al. 2020

Enfermería Clínica (English Edition)

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Megacity Wastewater Poured into A Nearby Basin: Looking for Sustainable Scenarios in A Case Study

Chamizo-Checa

Otazo-Sánchez

Gordillo-Martínez

et al. 2020

Water

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Megacity sewage creates socioeconomic dependence related to water availability in nearby areas, especially in countries with hydric stress. The present article studies the past, current, and future water balance progression of realistic scenarios from 2005 to 2050 in the Mezquital Valley, the receptor of Mexico City untreated sewage since 1886, allowing for agriculture irrigation under unsustainable conditions. The Water Evaluation and Planning System (WEAP) was used to estimate water demand and supply, and validation was performed by comparing results with outflow data from the Tula River. Simulated scenarios were (1st) steady-state based on inertial growth rates (2nd) transient scenario concerning the influence of forecasted climate change perturbations in surface water and hydric stress for 2050; and (3rd) the previous scenario appending scheduled actions, such as 36% reduction in imported wastewater and the startup of a massive Wastewater Treatment Plant, allowing for drip and sprinkler irrigation from the year 2030. The main results are as follows: (a) in the period 2005–2017, 59% of the agriculture depended on flood irrigation with megacity sewage; (b) the outcomes of water balance scenarios up to 2050 are presented, with disaggregated sectorial supply of ground and superficial water; (c) drip irrigation would reduce agriculture demands by 42% but still does not guarantee the downflow hydroelectric requirements, aggravated by the lack of wastewater supply from 2030. This research highlights how present policies compromise future Valley demands.

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Effect of the inoculum size on the axenic in vitro production of Steinernema carpocapsae

et al. 2012

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The effect of inoculum size on the axenic in vitro production of Steinernema carpocapsae, using a transparent medium with hemoglobin and cholesterol, was studied. Axenic cultivation was performed with fertile eggs of S. carpocapsae (hatching of eggs: 89 ± 4%), which were obtained by lyses of female nematodes and subsequent incubation. Two important aspects of this work include the use of a completely transparent medium enriched with hemoglobin and cholesterol and the high multiplication factor of the population (MFIP) of 87, which is considered high for in vitro axenic cultures of nematodes. In vivo methods have the advantage of high MFIP, but they also have the disadvantage of the high number and complexity of the operations involved for the purposes of harvesting axenic nematodes. It is assumed that the availability of a high number of nematodes in a transparent medium will further encourage the characterization of new native strains of nematodes.

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