Osvaldo Franco-Ramos scite author profile

Osvaldo Franco-Ramos

5Publications

43Citation Statements Received

96Citation Statements Given

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202

Affiliations

Universidad Nacional Autónoma de México

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POTENCIAL DENDROCRONOLÓGICO DE Juniperus monticola MARTÍNEZ EN EL MONTE TLÁLOC, MÉXICO

Villanueva‐Díaz¹,

Vázquez-Selem²,

Gómez‐Guerrero³

et al. 2016

RevFitotecMex

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Se desarrolló una cronología de anillo anual de 264 años (1750 a 2013) con 33 series derivadas de 50 especímenes de Juniperus monticola Martínez (enebro, cedro blanco) del Monte Tláloc, en un intervalo altitudinal de 3980 a 4060 m. A pesar de la irregularidad de las secciones transversales y de la variabilidad en el ancho del anillo anual, los parámetros dendrocronológicos de COFECHA y ARSTAN como sensibilidad media (0.41), inter-correlación entre series (0.55) y relación señal-ruido (1.24) indicaron que la especie es viable para estudios dendrocronológicos. La correlación de la serie cronológica con la temperatura media anual fue estadísticamente significativa (r = 0.45, n = 54, P < 0.01), y también se encontró una correlación significativa (P < 0.01) con series fechadas de Pinus hartwegii de los volcanes Iztaccíhuatl y Pico de Orizaba, lo que confirma su potencial dendrocronológico. Asimismo, se obtuvieron correlaciones significativas con índices SOI (r = -0.27, P < 0.01, n = 113) y con el PDSI reconstruido para junio en el centro de México (r = 0.25, P < 0.01, n = 109), lo que es una prueba de la factibilidad para interpretar fenómenos climáticos a partir de anillos de enebro en altitudes elevadas (> 3500 msnm) del centro de México. Para la especie estudiada la temperatura media fue la variable más correlacionada con su crecimiento radial. Los años intensos de El Niño, que producen sequías severas en el centro de México, se asociaron con mayores incrementos radiales. El enebro es idóneo para realizar estudios de la influencia de este fenómeno y para comprender la variabilidad climática histórica de alta y baja frecuencia.

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Red Dendrocronológica del Pino de Altura (Pinus hartwegii Lindl.) para estudios dendroclimáticos en México

Díaz

Paredes

Selem

et al. 2015

Investigaciones Geográficas

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Spatio-temporal reconstruction of lahars on the southern slopes of Colima volcano, Mexico – A dendrogeomorphic approach

Franco-Ramos

Stoffel

Vázquez-Selem

et al. 2013

Journal of Volcanology and Geothermal Research

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Using tree-ring analysis to evaluate intra-eruptive lahar activity in the Nexpayantla Gorge, Popocatépetl volcano (central Mexico)

Franco-Ramos

Castillo

Muñoz‐Salinas

2016

CATENA

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Dating late Holocene lava flows in Pico de Orizaba (Mexico) by means of in situ-produced cosmogenic 36Cl, lichenometry and dendrochronology

Alcalá-Reygosa

Palacios

Schimmelpfennig

et al. 2018

Quaternary Geochronology

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The knowledge of the eruptive history of volcanic centers allows for improving the evaluation of the related risks and hazards in populated areas, but substantially depends on the ability of dating the lava flows. However, traditional methods such as U-Th/He, 40 Ar-39 Ar, 40 K-40 Ar and radiocarbon dating are not always suitable. Therefore, an alternative approach based on the combination of in situ-produced 36 Cl based cosmic ray exposure dating, lichenometry and dendrochronology was tested on two lava flows (called Lava flow "A" and "B") from Pico de Orizaba (Mexico), previously attributed to 16th and 17th century eruptions, respectively. The presented results show that both lava flows are significantly older than their assumed 16th and 17th century ages. Regarding lava flow "A", the measured in situ-produced 36 Cl concentrations lead to a mean age of 3.03 ± 0.70 ka, while dendrochronology and lichenometry yield minimum ages of 834 and 1130 years, respectively. Regarding lava flow "B", the measured in situproduced 36 Cl concentrations lead to a mean age of 1.45 ± 0.35 ka, whereas lichenometry gives a minimum age of ∼1000 years. Overall, this demonstrates that the combination of in situproduced 36 Cl based cosmic ray exposure dating, lichenometry and dendrochronology has a considerable potential for dating purposes on young deposits and landforms, in particular on lava flows at high elevation sites.

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