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Publication details
Moeyersons, J., Trefois, Ph., Nahimana, L., Ilunga, L., Vandecasteele, I., Biyzigiro, V. & Sadiki, S. 2010. ‘River and landslide dynamics on the western Tanganyika rift border, Uvira, D.R.Congo: diachronic observations and a GIS inventory of traces of extreme geomorphic activity’. Natural Hazards 53 (2): 291-311. DOI: DOI 10.1007/s11069-009-9430-z. (PR).
Article in a scientific Journal / Article in a Journal
Abstract Uvira occupies a series of narrow alluvial fans squeezed between the NW
corner of Lake Tanganyika (±710 m asl) and the W-shoulder of the Tanganyika rift, the
Itombwe–Mitumba Plateau (±3,000 m asl). In 50 years, the fans progressed into the lake
over distances up to some hundreds of metres. This happened during a few catastrophic
flash floods issued from the torrents which cascade from the rift shoulder with a mean
longitudinal gradient of 0.2 m m-1. The last event in 2002 led to the destruction of parts of
the town and to some 50 casualties. Landslides occurred in the hills. On the base of
stereoscopic interpretation of aerial photographs from 1959, complemented with data from
2000 ETM and 2004 IKONOS imagery, a geographical inventory has been made of
strongly incising (10-1 to 0 m in 43–45 years) river sections, of all types of landslides and
of all tectonic structures, visible in the rugged hinterland of the fans. Traces of active N–S
as well as E–W trending faults are present. Some of these faults and some surfaces,
interpreted as degraded fault facets dip at angles of 40 or less and are probably remnants
of formerly active lystric extension faults, originally at a depth of some 2 km, but now at
the surface as a result of posterior uplift and erosion. Sixty landslides could be identified.
Six slides fall far below the topographic threshold envelope, where the slope at the incision
head is expressed as a function of drained surface. Therefore, they are considered to be
seismic in origin. Most of the other landslides are located along strongly incising river
sections. Temporary landslide barriers contribute to irregular river hydrographs. It is
concluded that Uvira is threatened by landsliding, potentially massive ([18 9 106 m3
debris), in the case of heavy seismicity. It is further discussed that the regularisation of the river regime depends on soil and water conservation strategies, to be developed in the
headwaters of the torrents Kavimvira, Mulongwe and Kalimabenge.