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Autores principales: López-Reyes, Mauricio, Zamora-Salvador, Julio Eduardo, Ortíz-Bañuelos, Alma Delia, Arellano-Ramírez, Stephany Paulina, Román-Castañeda, Carlos, González-Figueroa, Armando, Ulloa-Godínez, Hector Hugo, Guadalupe, Mario E. García
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2507.11335
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author López-Reyes, Mauricio
Zamora-Salvador, Julio Eduardo
Ortíz-Bañuelos, Alma Delia
Arellano-Ramírez, Stephany Paulina
Román-Castañeda, Carlos
González-Figueroa, Armando
Ulloa-Godínez, Hector Hugo
Guadalupe, Mario E. García
author_facet López-Reyes, Mauricio
Zamora-Salvador, Julio Eduardo
Ortíz-Bañuelos, Alma Delia
Arellano-Ramírez, Stephany Paulina
Román-Castañeda, Carlos
González-Figueroa, Armando
Ulloa-Godínez, Hector Hugo
Guadalupe, Mario E. García
contents This article analyzes the characteristics of the rainy season and extreme temperatures recorded in the state of Jalisco, Mexico, during 2024. Using ERA5 and CHIRPS reanalysis data and observations from thirteen meteorological stations, patterns of precipitation and temperature anomalies were identified. The results show a late start and early end of the rainy season, with positive anomalies in the central and southern regions, and significant deficits in the coastal strip. Furthermore, 2024 stood out as the warmest year on record, with an average anomaly of 2.3 C in May to October period, surpassing the record set in 2023. This warming is likely attributed to the combination of anthropogenic climate change and an El Nino event, altering local atmospheric patterns and affecting rainfall distribution. The findings highlight Jalisco climate vulnerability, especially in the agricultural sector, which depends on stable weather patterns. This study underscores the need to strengthen monitoring networks, implement predictive models, and design adaptation strategies to mitigate impacts in key sectors such as agriculture and water resources.
format Preprint
id arxiv_https___arxiv_org_abs_2507_11335
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Estado del clima en Jalisco: temporada de lluvias y comportamiento extremo de la temperatura en 2024
López-Reyes, Mauricio
Zamora-Salvador, Julio Eduardo
Ortíz-Bañuelos, Alma Delia
Arellano-Ramírez, Stephany Paulina
Román-Castañeda, Carlos
González-Figueroa, Armando
Ulloa-Godínez, Hector Hugo
Guadalupe, Mario E. García
Atmospheric and Oceanic Physics
This article analyzes the characteristics of the rainy season and extreme temperatures recorded in the state of Jalisco, Mexico, during 2024. Using ERA5 and CHIRPS reanalysis data and observations from thirteen meteorological stations, patterns of precipitation and temperature anomalies were identified. The results show a late start and early end of the rainy season, with positive anomalies in the central and southern regions, and significant deficits in the coastal strip. Furthermore, 2024 stood out as the warmest year on record, with an average anomaly of 2.3 C in May to October period, surpassing the record set in 2023. This warming is likely attributed to the combination of anthropogenic climate change and an El Nino event, altering local atmospheric patterns and affecting rainfall distribution. The findings highlight Jalisco climate vulnerability, especially in the agricultural sector, which depends on stable weather patterns. This study underscores the need to strengthen monitoring networks, implement predictive models, and design adaptation strategies to mitigate impacts in key sectors such as agriculture and water resources.
title Estado del clima en Jalisco: temporada de lluvias y comportamiento extremo de la temperatura en 2024
topic Atmospheric and Oceanic Physics
url https://arxiv.org/abs/2507.11335