The HinduVoracious waters: The
eroded banks of the Brahmaputra. Photo: Ritu Raj Konwar
Geo-tube: A contraption that helps
to provide strength and stability to embankments.
The expensive geo-textile tube project to arrest embankment
erosion in Brahmaputra’s Majuli is feared to do little to stop the river’s
strong corrosive powers
From a distance it looks like a corrugated astro-turf, adding
a shade of green on a small patch of a rather long and dusty embankment (or
dyke) for protection from swirling waters of the mighty Brahmaputra. Called
geo-textile tube (or geo-tube), it comprises of high-strength woven geo-textile
that is filled with sand slurry under high-pressure. The geotextile fabric
allows consolidation of the sand to create a long sausage-like gravity
structure. As grass takes root on this surface over time, the tubes are
expected to provide strength and stability to the embankment.
The positive experiences with geo-tubes for shoreline
protection in some parts of Malaysia brought the technology to India,
ostensibly to stop the recurrence of embankment erosion. A pilot project,
utilising geo-tubes installed as submerged dykes, was undertaken in 2006 to
protect shoreline erosion at many vulnerable sites along the Malaysian coast.
Encouraged by the success of the pilot initiative, a similar project was
undertaken two years later to protect a five-km-stretch of the beach at Pantai
Batu Buruk.
Buoyed by the success stories emanating from the Far East,
146 geo-tubes were laid at Matmara in Majuli, the biggest river island in
Assam, amidst fanfare and optimism. Since the original embankment was breached
at this site by the Brahmaputra in 2008, geo-tubes were installed to strengthen
a five-km-stretch of the weakened dyke. But the river had little regard for the
geo-tubes laden 3.5 km stretch (which could only be completed) and swept it
away the following year. It not only meant loss of materials worth Rs. 100
crore but the consequent damages caused by surging waters were several times
over.
The story didn’t end here though. The Malaysian executing
agency — Emaskiara — faced flak for the dyke failure but recreated geo-tubes on
a small stretch for future reference. The project seems suspended for the time
but the equipments and materials are still being guarded at the site. Local
people apprehend that despite being a failure the project will be revived to
serve vested interests. “But it is unlikely to stop erosion and protect our villages,”
opines Sunil Kumar Pgn, a resident of nearby Ruptoli village and a member of
the local students union.
Reports indicate that some 93 per cent of all the dykes are
well past their effective lifespan of 25 years. Erected way back in the 1950s
and 1960s, the length of earthen embankments in Assam is an incredibly 4,463
km. Not only have breaching of embankments and consequent flash floods been a
consistent problem for the past couple of decades, a parallel economy of flood
control for repair and maintenance of dykes has come into being as well.
Capital expensive geo-tubes have only contributed value to the political
economy of flood management.
Interest in new mechanisms to control embankment breach is
beginning to grow, oblivious of the price the exchequer may have to pay. As
many as 354 cases of breach of embankments were registered in 2004, which till
then was the highest for the preceding two decades. As many as 114 breaches in
embankments have officially been recorded during the last four years, making a
strong case for search for alternatives to the conventional system of flood
moderation. No wonder, geo-textile tubes and its close cousin, geo-fabric bags,
have been in the news.
Akin to conventional sand-bags, geo-fabric bags have also
been tried at erosion-prone Rohmoria, upstream of the town of Dibrugarh. As was
the fate of the geo-tubes, so has been the case with the geo-fabric bags. Laid
along 2.6 km stretch of the Brahmaputra river bank under an Rs. 52 crore
erosion control project, the geo-fabric bags have either been washed away or
dislocated in the first surge of monsoon flow in the river itself. Will the
geo-fabric last another season in its present form is a million-dollar
question.
It goes without saying that the Brahmaputra river bed has risen
significantly on account of increased silt flow due to forest clearance and
infrastructure development along its course in recent decades, leading to flood
waters spilling over large areas in the floodplains. “Unlike other rivers, the
Brahmaputra has strong current which needs cost-effective techniques of flood
moderation,” says Ravindranath of Rural Volunteers Centre, a flood relief and
rehabilitation centre in flood-prone Dhemaji district. (The writer is with the Ecological Foundation, New
Delhi)
No comments:
Post a Comment