William Chavarriaga Montoya scite author profile

La estabilidad de agregados se define como la persistencia de sus partículas, frente a fuerzas destructivas (factores climáticos o acción antropogénica). El objetivo del presente estudio fue analizar el efecto de la fertilización sobre la estabilidad estructural de un suelo cultivado con bananito (<em>Musa acuminata</em> AA). Esta investigación se realizó en las fincas Manila y Asobaicotol (Icononzo, Tolima); empleándose un diseño de bloques completos al azar con cuatro repeticiones y ocho tratamientos; que incluían compost, micorrizas, fertilizantes minerales, fertilizante 17–6–18–2 (60 y 100g) y un testigo absoluto (sin fertilización). Estos suelos presentaron agregación media (agregados >0,55mm) con valores de 38,8%, porcentaje de agregados extremos entre 40 – 50% y una estabilidad de agregados del 80%; clasificándolos como suelos muy estables. Las muestras de suelo que recibieron fertilización completa, compost + micorrizas y 60g de 17–6–18–2; presentaron estabilidad estructural clase 3. Los valores más altos de DPM (Diámetro Ponderado Medio) se obtuvieron con uso de solo compost y mezclado con micorrizas; en contraste, suelos que recibieron fertilizantes minerales y químicos presentaron mala estructuración (DPM <0.5mm). Mediante el uso del DGM (Diámetro Geométrico Medio) se observan valores más uniformes que con el DPM. Finalmente, bajo todos los tratamientos, agregados con diámetro >0,75mm no superaron el 50% y por el contrario, las muestras de suelo presentaron entre 20 – 30% de agregados con diámetro <0,25mm. Los resultados obtenidos, permiten evidenciar el efecto positivo de la aplicación de compost y micorrizas sobre la agregación del suelo bajo estudio.

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The Humidity of the Volcanic Soils and Their Impact on the Processes of Mass Removal in Colombia

Montoya¹

2019

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This chapter describes some aspects of the formation of soils derived from volcanic ash, especially soils classified according to the soil taxonomy as Andisols of the mountains of the central mountain range in Colombia, cultivated with pastures for the production of milk, meat, and potatoes. General erosion, caving, mudslides, and landslides reach and cover large urban and rural territories characterized by a high rainfall regime with decadal records of 227 days of rain per year and with total loss of arable, agricultural, and productive layers. This chapter summarizes aspects of the research carried out by the author in these soils, through the description of profiles on 52 pits, field and laboratory analysis of their physical and some chemical properties for the understanding of the moisture storage capacity, and explains the mechanisms that govern their physical properties, composition, and interaction between particles and fluids and, consequently, their intense erodability and high moisture-retention capacity as a detonating mechanism of the processes of erosion and mass removal of secular occurrence in the soils of the region with high population densities causing hundreds of deaths and incalculable economic losses.

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William Chavarriaga Montoya

Soil moisture retention and mass movement of volcanic soils from the “Sabinas” sector in Caldas, Colombia

Efecto de fertilizantes químicos y orgánicos sobre la agregación de un suelo cultivado con Musa acuminata AA

The Humidity of the Volcanic Soils and Their Impact on the Processes of Mass Removal in Colombia

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