Context:
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A massive explosion at the Nowgam police station in Srinagar killed nine people after over 350 kg of ammonium nitrate and other explosive materials detonated.
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The explosives were recovered from a terror module linked to Jaish-e-Mohammad and reportedly connected to the Red Fort blast case, bringing renewed focus on procedural delays, storage risks, and institutional bottlenecks in handling seized explosives.
Key Highlights:
Origin and Transport of Explosives
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Materials recovered included:
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Ammonium nitrate
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Chemicals
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Batteries
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Detonators
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Timers
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The explosives were transported over 1,000 km from Faridabad to Jammu & Kashmir.
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Police stated that:
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Materials were carried in airtight containers
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Transported in small trucks to avoid detection
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Shifted under security protocols
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Storage at Nowgam Police Station
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Explosives were kept in the station’s malkhana (secured strong room).
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Officials claimed:
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Proper Standard Operating Procedures (SOPs) were followed
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Materials were sealed and isolated
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However, the sheer quantity of explosives posed inherent safety risks, regardless of precautions.
Delay in Destruction
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Forensic samples had not yet been sent, which is mandatory before:
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Seeking court permission for destruction of seized explosives
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As per procedure:
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Explosives cannot be destroyed without judicial approval
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Forensic confirmation is required to preserve evidentiary value
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This procedural sequence caused critical delays in neutralising highly volatile material.
Procedural and Structural Bottlenecks
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Current system requires:
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Forensic testing first
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Then court approval
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Only thereafter safe destruction
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In cases involving large quantities of unstable explosives, this creates:
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Time lag
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Heightened risk to personnel and civilians
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Officials cited earlier incidents where proactive coordination with bomb disposal squads enabled safer outcomes.
Risk Factors Highlighted
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Ammonium nitrate:
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Highly unstable in bulk
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Sensitive to contamination, heat, and poor ventilation
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Concentrated storage of explosives in:
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Police stations
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Urban areas
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Significantly increases casualty risk in case of accidental detonation.
Internal Security Implications
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The incident underscores:
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Vulnerabilities in post-seizure explosive management
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Need for faster legal and forensic pathways in high-risk cases
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Raises questions about:
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Adequacy of existing SOPs
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Balance between evidentiary requirements and public safety
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Governance & Policing Lessons
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Highlights the need for:
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Emergency protocols for immediate neutralisation of volatile substances
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Clear guidelines allowing conditional destruction after sampling
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Dedicated off-site explosive storage or disposal facilities
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Emphasises coordination between:
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Police
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Forensic agencies
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Judiciary
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Bomb disposal units
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UPSC Relevance (GS-wise):
GS 3 – Internal Security
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Terror logistics and explosive handling
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Policing challenges in counter-terror operations
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Risk management in internal security infrastructure
GS 3 – Science & Technology
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Properties of explosive chemicals
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Role of forensic science in criminal justice
Prelims Focus:
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Ammonium nitrate and its risks
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Meaning of malkhana
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SOPs in seizure and destruction of explosives
Mains Enrichment:
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Examine how procedural delays can undermine internal security and public safety.
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Discuss reforms needed to balance legal due process with rapid risk mitigation in terror-related cases.