The national drought policy in Mexico

Felipe Ignacio Arreguín Cortés Mario Lopez Perez David Ortega Gaucin (2016, [Artículo])

Traditionally, drought effects in Mexico have been attended through governmental reactive efforts directed to provide water and food, to assure health protection, and to restore economic impact once the phenomena occurred. The Mexican Government through National Water Commission (CONAGUA, for its acronym in Spanish), interested in changing the paradigm for preventive actions to cope with droughts in Mexico in the past, decided to launch in 2013 the National Program Against Drought (PRONACOSE, for its acronym in Spanish) and created the Intersecretarial Commission on Droughts and Floods (CIASI, for its acronym in Spanish) to take charge of coordinating, implementing and following-up of the PRONACOSE. This program has its main focus on reducing vulnerability through the implementation of planned preventive actions under a comprehensive and participative approach. As key part of the program, Programmes of Preventive and Mitigation Drought Measures (PMPMS, for its acronym in Spanish) for each one of the 26 river basin councils established in the country and for the principal cities of Mexico were developed. These programmes include the measures that can be implemented within the river basin councils and the cities to cope with drought in three ways: before the phenomenon occurs (strategic measures), when it is starting (tactical measures) or when it is already happening (emergency measures). Also, since 2014, the National Meteorological Service (SMN, for its acronym in Spanish) releases timely alerts and monitors the evolution of the drought including affected areas and level of severity of the phenomenon at a basin, state and municipality level. It is noteworthy that in all these activities the Mexican Institute of Water Technology (IMTA, for its acronym in Spanish) has played an important role, as this institute has provided the necessary technical support for the designing and implementation of the PRONACOSE. It is concluded that drought risk cannot be fully eliminated, nevertheless the actions that are implemented as part of this program are useful to mitigate its effects.

Sequías Políticas públicas México CIENCIAS FÍSICO MATEMÁTICAS Y CIENCIAS DE LA TIERRA

Detección de la tendencia local del cambio de la temperatura en México

RENE LOBATO SANCHEZ MIGUEL ANGEL ALTAMIRANO DEL CARMEN (2017, [Artículo])

Registros de temperatura indican que tres de cada cuatro estaciones climáticas evaluadas en México señalan un calentamiento en el periodo 1950-2013, tomando como referencia al periodo base 1961-1990. Después de un análisis completo de registros climáticos en México, se determinó que solamente 112 registros cumplen con la calidad y estándares requeridos para el presente estudio, de ahí se seleccionó, de forma aleatoria, un subconjunto de 20 estaciones con tendencia positiva, representativas de entornos rurales y urbanos, distribuidas en las regiones de México. Se identificó que el periodo más reciente de calentamiento intenso inicia por lo general a mediados de la década de 1970, lo cual es congruente con la señal identificada por el Panel Intergubernamental de Expertos sobre el Cambio Climático para la temperatura media global. En las zonas rurales se observa un desfase de hasta 10 años en el inicio del periodo reciente de calentamiento en comparación con zonas urbanas para una misma región del país. El calentamiento y la diferencia entre periodos cálidos y fríos son mayor, regularmente, en áreas urbanas en comparación con las rurales.

Cambio climático Temperatura ambiental Determinación México CIENCIAS FÍSICO MATEMÁTICAS Y CIENCIAS DE LA TIERRA

Apps, educación y patrimonio en México. Análisis de situación y estudio comparativo con el caso español

URSULA LUNA PEDRO JOSE CANTO HERRERA ALFREDO ZAPATA GONZALEZ ALEX IBANEZ-ETXEBERRIA (2020, [Artículo])

Este trabajo analiza desde un punto de vista educativo la oferta de apps en torno al patrimonio mexicano. Tras realizar una pequeña revisión de la situación del patrimonio en México y de la implementación de tecnologías digitales, especialmente apps, en el mismo, se hace un breve repaso al estado de la cuestión de la evaluación de apps de contenido patrimonial desde el punto de vista educativo. El estudio, de carácter descriptivo, se realiza desde la perspectiva del estudio de programas siguiendo el método OEPE adaptado al caso de las apps. Los resultados del análisis de la muestra final de 45 apps, muestran similitudes con el contexto español en cuanto a una baja cantidad de apps patrimoniales que puedan considerarse educativas, con escasa atención a la accesibilidad y sin adaptación a diferente tipología de público, prevaleciendo los contenidos y sin un diseño didáctico adecuado. Las diferencias principales se centran en los desarrolladores de apps, que en México son las empresas que crean contenidos dirigidos al turismo, frente a las administraciones públicas y museos en España que ofrecen un discurso patrimonial diverso. Sin embargo, en ambos países encontramos una necesidad de desarrollar apps de calidad que favorezcan su uso educativo.

HUMANIDADES Y CIENCIAS DE LA CONDUCTA App Educación patrimonial Patrimonio Aprendizaje México

Clonal diploid and autopolyploid breeding strategies to harness heterosis: insights from stochastic simulation

Marlee Labroo Jeffrey Endelman Dorcus Gemenet Christian Werner Robert Gaynor GIOVANNY COVARRUBIAS-PAZARAN (2023, [Artículo])

Reciprocal Recurrent Selection Clonal Diploids CIENCIAS AGROPECUARIAS Y BIOTECNOLOGÍA DIPLOIDY BREEDING HETEROSIS STOCHASTIC MODELS

Improving hybrid rice breeding programs via stochastic simulations: number of parents, number of hybrids, tester update, and genomic prediction of hybrid performance

Roberto Fritsche-Neto Marlee Labroo (2024, [Artículo])

Genomic Prediction Reciprocal Recurrent Selection Heterotic Pools CIENCIAS AGROPECUARIAS Y BIOTECNOLOGÍA STOCHASTIC MODELS RICE HYBRIDS GENETIC IMPROVEMENT GENETIC GAIN BREEDING PROGRAMMES

Modeling the growth, yield and N dynamics of wheat for decoding the tillage and nitrogen nexus in 8-years long-term conservation agriculture based maize-wheat system

C.M. Parihar Dipaka Ranjan Sena Prakash Chand Ghasal Shankar Lal Jat Yashpal Singh Saharawat Mahesh Gathala Upendra Singh Hari Sankar Nayak (2024, [Artículo])

Context: Agricultural field experiments are costly and time-consuming, and their site-specific nature limits their ability to capture spatial and temporal variability. This hinders the transfer of crop management information across different locations, impeding effective agricultural decision-making. Further, accurate estimates of the benefits and risks of alternative crop and nutrient management options are crucial for effective decision-making in agriculture. Objective: The objective of this study was to utilize the Crop Environment Resource Synthesis CERES-Wheat model to simulate crop growth, yield, and nitrogen dynamics in a long-term conservation agriculture (CA) based wheat system. The study aimed to calibrate the model using data from a field experiment conducted during the 2019-20-2020-21 growing seasons and evaluation it with independent data from the year 2021–22. Method: Crop simulation models, such as the Crop Environment Resource Synthesis CERES-Wheat (DSSAT v 4.8), may provide valuable insights into crop growth and nitrogen dynamics, enabling decision makers to understand and manage production risk more effectively. Therefore, the present study employed the CERES-Wheat (DSSAT v 4.8) model and calibrated it using field data, including plant phenological phases, leaf area index, aboveground biomass, and grain yield from the 2019-20-2020-21 growing seasons. An independent dataset from the year 2021–22 was used for model evaluation. The model was used to investigate the relationship between growing degree days (GDD), temperature, nitrate and ammonical concentration in soil, and nitrogen uptake by the crop. Additionally, the study explored the impact of contrasting tillage practices and fertilizer nitrogen management options on wheat yields. The experimental site is situated at ICAR-Indian Agricultural Research Institute (IARI), New Delhi, representing Indian Trans-Gangetic Plains Zone (28o 40’N latitude, 77o 11’E longitude and an altitude of 228 m above sea level). The treatments consist of four nitrogen management options, viz., N0 (zero nitrogen), N150 (150 kg N ha−1 through urea), GS (Green seeker based urea application) and USG (urea super granules @150 kg N ha−1) in two contrasting tillage systems, i.e., CA-based zero tillage (ZT) and conventional tillage (CT). Result: The outcomes exhibited favorable agreement between the model’s simulations and the observed data for crop phenology (With less than 2 days variation in 50% onset of flowering), grain and biomass yield (Root mean square error; RMSE 336 kg ha−1 and 649 kg ha−1, respectively), and leaf area index (LAI) (RMSE 0.28 & normalized RMSE; nRMSE 6.69%). The model effectively captured the nitrate-N (NO3−-N) dynamics in the soil profile, exhibiting a remarkable concordance with observed data, as evident from its low RMSE = 12.39 kg ha−1 and nRMSE = 13.69%. Moreover, as it successfully simulated the N balance in the production system, the nitrate leaching and ammonia volatilization pattern as described by the model are highly useful to understand these critical phenomena under both conventional tillage (CT) and CA-based Zero Tillage (ZT) treatments. Conclusion: The study concludes that the DSSAT-CERES-Wheat model has significant potential to assess the impacts of tillage and nitrogen management practices on crop growth, yield, and soil nitrogen dynamics in the western Indo-Gangetic Plains (IGP) region. By providing reliable forecasts within the growing season, this modeling approach can facilitate better planning and more efficient resource management. Future implications: The successful implementation of the DSSAT-CERES-Wheat model in this study highlights its applicability in assessing crop performance and soil dynamics. Future research should focus on expanding the model’s capabilities by reducing its sensitivity to initial soil nitrogen levels to refine its predictions further. Moreover, the model’s integration with decision support systems and real-time data can enhance its usefulness in aiding agricultural decision-making and supporting sustainable crop management practices.

Nitrogen Dynamics Mechanistic Crop Growth Models Crop Simulation CIENCIAS AGROPECUARIAS Y BIOTECNOLOGÍA NITROGEN CONSERVATION AGRICULTURE WHEAT MAIZE CROP GROWTH RATE SIMULATION MODELS

Impacto de COVID-19 sobre el consumo eléctrico de las PYMES de la Zona Metropolitana de Aguascalientes

Alonso Darío Pizarro Lagunas (2021, [Tesis de maestría])

La irrupción de COVID-19 en el escenario mundial no sólo se convirtió en una crisis de salud pública sino una crisis económica que tuvo efectos heterogéneos en muchos países en el mundo. En particular, muchas economías experimentaron una fuerte contracción en su producto interno bruto debido en gran parte a las medidas de distanciamiento social y restricción de actividades no esenciales que los países adoptaron para proteger la salud de sus habitantes. Esto afectó al sector eléctrico, ya que muchas industrias disminuyeron su consumo energético. En México, las pequeñas y medianas empresas representan una parte importante del consumo eléctrico de la industria. En este sentido, tomando una muestra representativa de pequeños y medianos establecimientos de la Zona Metropolitana de Aguascalientes estudiamos el comportamiento del consumo eléctrico de estas empresas notando que hubo caídas significativas del consumo eléctrico cuando irrumpió la pandemia en marzo de 2020 en la ZMA. Además, notamos que la caída en consumo eléctrico fue más pronunciada para establecimientos en el sector de servicios que establecimientos en el sector de comercios durante la pandemia. Además, se concluye que las disminuciones en la jornada laboral jugaron un papel importante en esta contracción, mientras que las medidas como digitalización y reducción de empleados no estuvieron relacionadas con la variación de consumo eléctrico en estos pequeños y medianos establecimientos.

Small business -- Energy consumption -- Effect of COVID-19 Pandemic, 2020- on -- Aguascalientes (Mexico) -- Econometric models. COVID-19 Pandemic, 2020- -- Aguascalientes (Mexico) -- Economic aspects. CIENCIAS SOCIALES CIENCIAS SOCIALES

Escenarios futuros de eventos extremos de precipitación y temperatura en México

Future changes of precipitation and temperature extremes in Mexico

Ernesto Ramos Esteban (2024, [Tesis de maestría])

Diferentes estudios a escala mundial indican un incremento en frecuencia de eventos climáticos extremos debido al calentamiento global y sugieren que podrían intensificarse en el futuro. El objetivo de este trabajo es analizar los posibles cambios de 12 índices climáticos extremos (ICE) de precipitación y temperatura en 15 regiones de México, el sur de los Estados Unidos y Centroamérica para un período histórico (1981-2010), un futuro cercano (2021-2040), un futuro intermedio (2041-2060) y un futuro lejano (2080-2099). Se utilizó el reanálisis ERA5 como referencia en la evaluación histórica de los modelos climáticos globales (MCG) y para las proyecciones se analizaron los ICE de diez MCG del Proyecto de Intercomparación de Modelos Climáticos, fase 6 (CMIP6), de acuerdo con dos escenarios de Vías Socioeconómicas Compartidas (SSPs), uno de bajas emisiones (SSP2-4.5) y otro de altas emisiones (SSP3-7.0). Los MCG reproducen muy bien los índices extremos de temperatura histórica y los días consecutivos secos, pero subestiman la lluvia promedio y la lluvia extrema en las zonas más lluviosas desde el centro de México hasta Centroamérica. Históricamente, se observaron tendencias positivas de las temperaturas extremas (TXx y TNn) en todas las regiones, pero sólo en algunas regiones fueron significativas, mientras que los índices de lluvia extrema (R95p, R10mm y R20mm) presentaron tendencias negativas, pero pequeñas. Las proyecciones indican que las temperaturas extremas podrían seguir incrementándose en el futuro, desde 2° C hasta 5° C a mitad y final de siglo, respectivamente. La contribución de la precipitación extrema arriba del percentil 95 (R95p) se podría incrementar entre un 10 % y 30 %, especialmente en la región subtropical, mientras que la precipitación podría disminuir en las regiones tropicales. Este estudio es el primero que analiza los cambios futuros de índices extremos del CMIP6 a escala regional (en 15 regiones) de México, el sur de Estados Unidos y Centroamérica.

Global-scale studies indicate an increase in the frequency of extreme weather events due to global warming and suggest that they could further intensify in the future. This study aims to assess potential changes in 12 extreme climate indices (ECI) related to precipitation and temperature in 15 regions in Mexico, the southern United States, and Central America for different periods: a historical period (1981-2010), a near future (2021-2040), an intermediate future (2041-2060), and a far future (2080-2099). The ERA5 reanalysis was used as a reference for the historical evaluation of global climate models (GCMs), and ECI from ten GCMs of phase 6 (CMIP6) from the Coupled Model Intercomparison Project were employed for the projections and examined under two Shared Socioeconomic Pathways (SSPs) scenarios, one characterized by low emissions (SSP2-4.5) and another representing high greenhouse gas emissions (SSP3-7.0). The GCMs reproduce historical extreme temperature indices and consecutive dry days very well. However, they underestimate average and extreme rainfall from central Mexico to Central America in the wetter areas. Historically, positive trends in extreme temperatures (TXx and TNn) were observed across all regions. However, statistical significance was only present in certain regions, while extreme rainfall indices (R95p, R10mm, and R20mm) exhibited small negative trends. The projections suggest that extreme temperatures could continue to increase in the future, from 2°C to 5°C by the mid and late century, respectively. The contribution of extreme precipitation above the 95th percentile (R95p) could increase by 10% to 30%, particularly in the subtropical regions, while precipitation might decrease in tropical regions. This study is the first to analyze future changes in extreme indices from CMIP6 at a regional scale (across 15 regions) in Mexico, the southern United States, and Central America.

Centroamérica, CMIP6, escenarios SSP, extremos climáticos, intercomparación de modelos climáticos, México Central America, climate extremes, CMIP6, intercomparison of climate models, Mexico, SSP scenarios CIENCIAS FÍSICO MATEMÁTICAS Y CIENCIAS DE LA TIERRA CIENCIAS DE LA TIERRA Y DEL ESPACIO OCEANOGRAFÍA OCEANOGRAFÍA FÍSICA (VE R 5603 .04) OCEANOGRAFÍA FÍSICA (VE R 5603 .04)

Vida de un muerto. Entre nuestro universo y el otro

Nicolás Amoroso Boelcke (2023, [Capítulo de libro])

Capítulo número 3 de la Sección Imágenes y representaciones.

Se analiza el film Raymond & Ray, desde la construcción de la vida de Harris, personaje muerto desde el principio del film, y esto se hace mediante las palabras, no con escenas de la infancia que mencionan Raymond y Ray ni tampoco en las acciones que participa con los otros perso¬najes que hablan de él. Harris habita el filme desde las palabras.

Semiotics and motion pictures. Culture--Semiotic models. Dialogue analysis. Semiótica y cine. Análisis del diálogo. NX180.S46 HUMANIDADES Y CIENCIAS DE LA CONDUCTA CIENCIAS DE LAS ARTES Y LAS LETRAS TEORÍA, ANÁLISIS Y CRÍTICA DE LAS BELLAS ARTES CINEMATOGRAFÍA

Expanding the WOFOST crop model to explore options for sustainable nitrogen management: A study for winter wheat in the Netherlands

João Vasco Silva Pytrik Reidsma (2024, [Artículo])

Nitrogen (N) management is essential to ensure crop growth and to balance production, economic, and environmental objectives from farm to regional levels. This study aimed to extend the WOFOST crop model with N limited production and use the model to explore options for sustainable N management for winter wheat in the Netherlands. The extensions consisted of the simulation of crop and soil N processes, stress responses to N deficiencies, and the maximum gross CO2 assimilation rate being computed from the leaf N concentration. A new soil N module, abbreviated as SNOMIN (Soil Nitrogen for Organic and Mineral Nitrogen module) was developed. The model was calibrated and evaluated against field data. The model reproduced the measured grain dry matter in all treatments in both the calibration and evaluation data sets with a RMSE of 1.2 Mg ha−1 and the measured aboveground N uptake with a RMSE of 39 kg N ha−1. Subsequently, the model was applied in a scenario analysis exploring different pathways for sustainable N use on farmers' wheat fields in the Netherlands. Farmers' reported yield and N fertilization management practices were obtained for 141 fields in Flevoland between 2015 and 2017, representing the baseline. Actual N input and N output (amount of N in grains at harvest) were estimated for each field from these data. Water and N-limited yields and N outputs were simulated for these fields to estimate the maximum attainable yield and N output under the reported N management. The investigated scenarios included (1) closing efficiency yield gaps, (2) adjusting N input to the minimum level possible without incurring yield losses, and (3) achieving 90% of the simulated water-limited yield. Scenarios 2 and 3 were devised to allow for soil N mining (2a and 3a) and to not allow for soil N mining (2b and 3b). The results of the scenario analysis show that the largest N surplus reductions without soil N mining, relative to the baseline, can be obtained in scenario 1, with an average of 75%. Accepting negative N surpluses (while maintaining yield) would allow maximum N input reductions of 84 kg N ha−1 (39%) on average (scenario 2a). However, the adjustment in N input for these pathways, and the resulting N surplus, varied strongly across fields, with some fields requiring greater N input than used by farmers.

Crop Growth Models WOFOST CIENCIAS AGROPECUARIAS Y BIOTECNOLOGÍA CROPS NITROGEN-USE EFFICIENCY WINTER WHEAT SOIL WATER