Retaining wall and hillside collapse at the under-construction National Highway site near Nelligudde in Moodbidri. Source: News Karnataka (image Web)
A retaining wall and part of a hillside collapsed at an under-construction National Highway site near Nelligudde in Moodbidri, Karnataka, following continuous heavy rainfall. The incident occurred within the Puthige Gram Panchayat limits and resulted in a large-scale landslip across the construction zone.
No casualties or injuries were reported. Construction personnel reached the site soon after the collapse, secured the affected area and initiated precautionary safety measures. Officials also inspected the site and began assessing the extent of the damage and the factors that led to the failure.
The collapse is believed to have been triggered by prolonged rainfall, which saturated the hillside soil and increased pressure on the roadside retaining wall. According to preliminary observations, as the soil loosened and moved downslope, the retaining structure was unable to resist the additional load and gave way. A detailed technical assessment is expected to determine whether additional factors, such as drainage arrangements or soil stability, contributed to the failure.
Ground cracking and slope movement behind the retaining wall, indicating progressive instability and the need for urgent drainage, monitoring and slope stabilisation measures. Source: Mangalore Today
Retaining walls are designed to support soil and control lateral earth pressure. However, their performance depends strongly on drainage, soil strength, foundation support and construction quality. During heavy rainfall, water can infiltrate the backfill and hillside, increasing pore water pressure and reducing the effective strength of the soil.
This can create two simultaneous problems. First, the soil becomes heavier and applies greater lateral pressure on the wall. Second, the shear strength of the slope may reduce, making a landslip more likely. If drainage behind the wall is inadequate, hydrostatic pressure can build rapidly and overload the structure. At construction sites, the risk can be even higher because slopes may be temporarily exposed, drainage may not yet be fully operational and final stabilisation measures may still be incomplete. In monsoon-prone regions, this makes staged excavation, temporary support and rainfall monitoring critical.
The Moodbidri incident highlights the geotechnical challenges of building highways through sloping terrain during the monsoon season. Even after a retaining wall has been constructed, the surrounding ground must continue to be monitored for cracking, seepage, bulging, erosion and signs of progressive movement.
Before construction resumes at full pace, engineers are expected to assess the failed wall, the condition of the retained soil, the adequacy of drainage and the stability of the remaining hillside. Depending on the findings, remedial measures may include rebuilding the wall with improved drainage, installing weep holes or drainage layers, flattening the slope where possible, adding soil nails or anchors, and protecting exposed surfaces from further erosion.
For highway projects in rainfall-sensitive regions, robust geotechnical design and continuous construction-stage monitoring are essential. Heavy rain can quickly turn a stable-looking slope into an active hazard, especially where excavation and retaining works are still ongoing.
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