Rainfall-triggered lahars at Volcán de Colima, Mexico: Surface hydro-repellency as initiation process
Article
-
- Overview
-
- Research
-
- Identity
-
- Additional Document Info
-
- View All
-
Overview
abstract
-
Volcán de Colima is currently the most active volcano in Mexico. Since 1998 intermittent activity has been observed with vulcanian eruptions, lava flows and growing domes that have collapsed producing several block-and-ash flow deposits. During the period of heightened activity since 1998 at Volcán de Colima, pyroclastic flows from dome or column collapse have not reached long distances, most of the time less than 6 km from the crater. In contrast, rain-induced lahars were more frequent and have reached relatively long distances, up to 15 km, causing damage to infrastructure and affecting small villages. In 2007 two rain gauge stations were installed on the southern flank of the volcano registering events from June through to October, the period when rains are intense and lahars frequent. By comparing lahar frequency with rainfall intensity and the rainfall accumulated during the previous 3 days, lahars more frequently occur at the beginning of the rainfall season, with low rain accumulation (< 10 mm) and triggered by low rain intensities (< 20 mm/h). During the months with more rainfall (July and August) lahars are less frequent and higher peak intensities (up to 70 mm/h) are needed to trigger an event. In both cases, lahars were initiated as dilute, sediment-laden streamflows, which transformed with entrainment of additional sediment into hyperconcentrated and debris flows, with alternations between these two flow types. A hydro-repellency mechanism in highly vegetated areas (i.e. evergreen tree types with considerable amount of resins and waxes such as pines) with sandy soils can probably explain the high frequency of lahars at the beginning of the rain season during low rainfall events. Under hydrophobic conditions, infiltration is inhibited and runoff is facilitated at more highly peaked discharges that are more likely to initiate lahars. © 2009 Elsevier B.V. All rights reserved.
publication date
published in
Research
keywords
-
debris flow; hydro-repellency; lahars; Mexico; rainfall; Volcán de Colima Active volcanoes; Block-and-ash flow; Column collapse; Debris flows; Evergreen trees; Flow type; High frequency; Hydrophobic conditions; Initiation process; Lava flows; Long distances; Me-xico; Peak intensity; Pyroclastic flows; Rain gauges; Rain-intensity; Rainfall event; Rainfall intensity; Sandy soils; Debris; Domes; Gages; Meteorological instruments; Resins; Sedimentology; Volcanoes; Rain; ash flow; collapse; crater; debris flow; dome; lahar; lava flow; precipitation intensity; pyroclastic deposit; volcanic eruption; Colima; Colima Volcano; Mexico [North America]
Identity
Digital Object Identifier (DOI)
Additional Document Info
start page
end page
volume
issue