HOW THE RIVER KOSI’S SHIFTING COURSE EXPOSES THE PERILS OF EMBANKMENTS

Introduction

The Kosi—often called “the river of sorrow”—is one of the most dynamic, sediment-laden rivers of the eastern Gangetic plains. Its catastrophic floods, such as the 2008 breach at Kusaha that displaced over 33 lakh people, reveal the deeper structural problem: embankments meant to protect communities are often the very systems that increase long-term vulnerability. As the Kosi continues to shift its course, the limitations of rigid flood-control engineering come into sharper focus.

The Kosi: A Geomorphologically Dynamic River

Natural Behaviour

• Originates in Tibet and Nepal; joins Ganga in Bihar

• Called Sapta Kosi because of its seven tributaries

• Carries enormous sediment from the young Himalayas

• Known to shift its course by tens of kilometres

Historical Shifts

• The People’s Commission on Kosi Basin notes that the river has moved 120 km westwards in 250 years—a completely natural response to changing sediment load and slope.

• Attempts to confine such a river within narrow human-made walls ignore its ecological realities.

Embankments: Promise and Paradox

Engineering Rationale

Embankments—earthen, stone or concrete walls—are designed to confine rivers, prevent seasonal overflows and protect agriculture and settlements.

Warnings Ignored

• The G.R. Garg Committee (1951) warned that embankments disrupt two essential functions of any river:

  • Land formation through erosion and deposition

  • Drainage of the basin

• The committee cautioned that embankments work only where rivers carry little silt—something the Kosi does not.

Counterproductive Consequences

• Heavy silt deposition raises the riverbed higher than the surrounding land.

• The embanked river becomes a “raised water channel”, increasing the risk of breaches.

• When breaches occur, the flood intensity is far greater than natural floods.

Repeated Failures: Lessons from the Kosi

The Kosi has breached embankments repeatedly—1963, 1968, 1971, 1980, 1984, 1987, 1991, 2008 and 2024.
Each breach displaces lakhs and devastates farmland.

Mechanisms of Failure

• Increased silt load, especially during monsoon

• Backflow and pressure at barrages

• Narrowing of river channel by embankments

• Water-logging for communities trapped between embankments

Voices from the Ground

Local movements such as the Kosi Nav Nirman Manch highlight how embankments trap people inside, block evacuation routes, and provide no long-term rehabilitation.

Region-Specific Approaches: East vs. West Himalaya

Experts differentiate between:

• Influents (western rivers): declining precipitation downstream → more stable, less flood-prone

• Affluents (eastern rivers): rising rainfall downstream → unpredictable, shifting, sediment-heavy

Thus, embankments may be suitable in the west but dangerous in the east, where geology is weak and landslides frequent.

Alternatives: Learning to Live With Floods

Global Example

The U.S. has dismantled many embankments, allowing rivers to spread naturally and reducing extreme flooding.

Indian Alternatives

• Restore paleochannels so water spreads safely

• Scientific desiltation

• Early warning systems and local training

• Rehabilitation outside embankment zones

• Adopt flood-resistance, not flood-control, as the policy goal

• Allow seasonal flooding to recharge groundwater and support ecosystems

Why These Work

Natural floods are widespread but milder; embanked floods are sudden and devastating. Letting the river function as a drainage system reduces long-term vulnerability.

Political Economy and the Embankment Dilemma

Even as evidence mounts against embankments, political incentives remain strong:

• Election promises such as Bihar’s “flood to fortune” river-linking model assume embankments will enable irrigation and fisheries.

• But diverting water through canals cannot offset the 6 lakh cusecs that the Kosi brings during peak floods.

• Continuous spending on raising embankments becomes financially unsustainable and ecologically damaging.

Conclusion

The Kosi’s persistent flooding is not merely a natural disaster but a policy-induced vulnerability. Embankments designed to control the river have instead amplified the risks by constraining a dynamic, silt-rich river. A paradigm shift—from flood-control to flood-resilience—is urgently needed. The Kosi insists on one truth: rivers cannot be permanently tamed; they must be understood and accommodated.

MAINS QUESTIONS

1. Examine how geomorphological characteristics of Himalayan rivers influence their flood behaviour with reference to the Kosi.
2. Critically analyse the role of embankments in flood management in India. Are they a solution or a problem? Discuss with examples.