Statement 1 is correct: Global warming poses a significant threat to methane hydrate deposits. These icy structures, found in permafrost and deep-sea sediments, can destabilize as temperatures rise, releasing methane into the atmosphere. Since methane is a potent greenhouse gas its release could create a positive feedback loop, further accelerating global warming. Statement 2 is correct: Large deposits of methane hydrate are primarily found in two locations:
1. Arctic Tundra: Permafrost soils in the Arctic hold significant methane hydrate reserves, which are at risk of melting due to rising temperatures.
2. Seafloor Deposits: Continental margins and deep ocean sediments contain vast methane hydrate reserves. Changes in ocean temperature and pressure fluctuations can trigger their release. Statement 3 is correct: After about 12 years, the methane is converted into carbon dioxide through hydroxyl oxidation. While CO₂ is a less potent greenhouse gas than methane, its longer atmospheric lifetime means it continues contributing to long-term climate change. Therefore, option (D) 1, 2 and 3 is correct.