The tectonic link: What Myanmar’s earthquake teaches Kashmir

On March 28, 2025, life changed dramatically for the people of Mandalay; at 12:50 PM local time, the ground beneath Myanmar's second-largest city shook violently. A powerful magnitude 7.7 earthquake tore through a 200-kilometer stretch of the Sagaing Fault. In less than ninety seconds, buildings crumbled, roads split open, and panic spread like wildfire. Just eleven minutes later, a magnitude 6.4 aftershock jolted the region again, adding to the devastation. This devastation is related to the tectonic story of this region, which connects most regions in South and Southeast Asia to one another. The northward motion of the Indian Plate continues to build strain at the plate margins where it interacts with the Eurasian Plate. Kashmir is part of this convergence belt, which is why we are directly connected to this devastation and must learn from it. While smaller aftershocks have continued since, this event serves as a grim reminder of the power earthquakes wield - and the lessons they carry for other regions, especially Kashmir.

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Kashmir faces a strikingly similar threat. The northeastern margin of the Indian Plate is colliding with the Eurasian Plate, forming the towering Himalayas. This immense geological force is not just responsible for breathtaking peaks - it fuels a network of active faults, each capable of unleashing catastrophic earthquakes.

The tragedy in Myanmar underscores an urgent truth: regions like Kashmir must prepare for future earthquakes by addressing both structural integrity and engineering advancements. Active faults beneath our feet are constantly accumulating strain, and when this energy is released, only well-prepared societies can minimize the devastation. Building a seismic-resilient society demands a multi-faceted approach that combines robust infrastructure, innovative engineering solutions, and informed public readiness.

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For Kashmir, Myanmar's experience must serve as a stark reminder that proactive measures are essential. Strengthening infrastructure requires enforcing stricter building codes that mandate earthquake-resistant designs. Critical structures such as schools, hospitals, and emergency response centers must be constructed or retrofitted using advanced engineering techniques like base isolation, flexible foundations, and energy-absorbing materials. Bridges, dams, and transportation networks must be evaluated and reinforced to ensure they remain functional in the aftermath of strong tremors.

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