classified as a rock planar slide (mudstones and shales) with a rotational slide developed at the toe on colluvium deposits.<\/p><\/blockquote>\n
The landslide partially blocked the Rio Blanco, leading to three towns downstream declaring a state of emergency.\u00a0\u00a0 Fortunately, the blockage has now breached.<\/p>\n
Helbert has kindly sent some images of this most impressive landslide to me, and I use them here with his agreement.\u00a0 This image shows the toe of the landslide, including the newly active section:-<\/p>\n
La Calera landslide in Colombia. Image by Helbert Garcia<\/p><\/div>\n
.<\/p>\n
Whilst this image shows the active failure in more detail:-<\/p>\n
La Calera landslide in Colombia. Image by Helbert Garcia.<\/p><\/div>\n
.<\/p>\n
Helbert pointed out to me a very interesting aspect of this landslide that is visible in the Google Earth imagery of the site:-<\/p>\n
Google Earth image of La Calera landslide, Colombia.<\/p><\/div>\n
.<\/p>\n
Note the clearly visible tension cracks in the lower part of the landslide, just below the road,.\u00a0 This is the section that failed last month.\u00a0 But this appears to a part of a much larger landslide system, with the scar of the earlier failure extending almost to the trees. The area affected by this older landslide is much larger than the current failure, both laterally and in terms of slope length.<\/p>\n
It is interesting to think through what this might represent. In the North Island of New Zealand we see landslide systems that are driven by incision of the river<\/a> – essentially the river cuts down to expose a weak layer, and the slope then slides in a mostly planar manner until the weak material has evacuated.\u00a0 The system then stabilises, leaving a landslide scar, until the weak layer is exposed.\u00a0 We have documented this for both the Utiku landslide (Massey et al.<\/em> 2013<\/a>) and the Taihape landslide (Massey et al.<\/em> 2016<\/a>).<\/p>\n
Colombia is tectonically active, so could this be the case here as well?\u00a0 This may be slightly different in that river incision is allowing the development of rotational failures at the toe, which then debuttress the slope to allow planar sliding?\u00a0 To test the hypothesis requires much more detailed analyses, including field mapping.\u00a0 But judging by the imagery I do not think this setting is unique in this area, so understanding the dynamics might allow better characterisation of the landslide hazard.<\/p>\n
References<\/h5>\n
Massey, C.I., Petley, D.N.<\/strong> and McSaveney, M. 2013.\u00a0 Patterns of movement in reactivated landslides<\/a>.\u00a0 Engineering Geology<\/em> 159<\/strong>, 1-19.<\/p>\n
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