A recent satellite-based global study has brought India’s waste management challenges into sharp focus by identifying landfill sites in Mumbai and Secunderabad among the top 25 methane-emitting waste sites worldwide. The findings are based on advanced satellite observations conducted in 2025, highlighting the increasing environmental risks associated with urban waste disposal systems.
The study, conducted under the UCLA-led STOP Methane Project using Carbon Mapper data, revealed that the Jawahar Nagar landfill in Secunderabad ranks among the highest methane emitters globally, while Mumbai’s Kanjurmarg landfill also features prominently on the list.
The Secunderabad landfill emits approximately 5.9 tonnes of methane per hour, placing it among the top five globally, while Mumbai’s landfill emits around 4.9 tonnes per hour, ranking in the top 15.
Methane is a highly potent greenhouse gas, significantly more impactful than carbon dioxide in the short term. It is responsible for nearly 30% of global warming since pre-industrial times.
Landfills release methane due to the anaerobic decomposition of organic waste such as food, paper, and garden material. Poor waste segregation and inefficient landfill management further intensify emissions in countries like India.
The study identified 25 major landfill sites across 18 countries, including both developed and developing nations. Countries like Brazil and Chile have multiple sites, while India, Saudi Arabia, and Turkey have two each.
Satellite data detected nearly 3,000 methane plumes from over 700 waste sites globally, with top emitters releasing between 3.6 to 7.5 tonnes of methane per hour.
The findings highlight systemic issues in India’s waste management practices, including inadequate processing of municipal solid waste and lack of methane capture systems. Experts suggest that reducing methane emissions from landfills is one of the fastest ways to combat climate change.
This news is crucial because it highlights methane emissions, a lesser-discussed but highly impactful contributor to climate change. Unlike carbon dioxide, methane has a stronger warming effect in the short term, making its reduction critical for immediate climate action.
The inclusion of Indian landfill sites among global top emitters reflects gaps in waste management infrastructure and policy implementation. This raises questions about urban governance and environmental sustainability in rapidly growing cities.
For aspirants of UPSC, SSC, Banking, and State PCS exams, this topic connects multiple syllabus areas such as environment, climate change, urbanization, and science & technology. It is particularly relevant for General Studies Paper III (Environment & Ecology).
India’s presence in the list underscores its role in global climate commitments such as the Paris Agreement. Addressing methane emissions can significantly improve India’s environmental performance and global standing.
India has historically relied on open dumping for waste disposal, with large landfill sites developing near urban centers. Over time, these sites have expanded uncontrollably due to rapid urbanization and population growth.
Methane gained global attention as a major greenhouse gas in the late 20th century. Scientific studies revealed its high global warming potential, leading to increased monitoring and mitigation efforts worldwide.
Recent technological advancements, including NASA’s EMIT instrument and Planet Labs satellites, have enabled precise detection of methane emissions from space. These tools now play a crucial role in identifying pollution hotspots globally.
India has introduced initiatives like the Solid Waste Management Rules (2016) and waste-to-energy projects. However, implementation gaps remain, as highlighted by the latest study.
Methane is a potent greenhouse gas with a global warming potential significantly higher than carbon dioxide over a short time period. It is responsible for nearly 30% of global warming since pre-industrial times, making it crucial for climate mitigation strategies.
The landfill sites located in Mumbai (Kanjurmarg) and Secunderabad (Jawahar Nagar) were identified among the top methane emitters globally.
Methane is produced due to the anaerobic decomposition of organic waste such as food scraps, paper, and biodegradable materials in landfills where oxygen is limited.
Satellite technologies help detect methane plumes and pollution hotspots accurately across the globe, enabling governments and organizations to take targeted climate actions.
The study was conducted under the STOP Methane Project led by UCLA, using Carbon Mapper satellite data.
It is relevant for subjects like Environment & Ecology, Science & Technology, and Current Affairs, especially for exams like UPSC, SSC, Banking, Railways, and State PCS.
Key measures include proper waste segregation, composting, methane capture systems, waste-to-energy technologies, and scientific landfill management.
India follows the Solid Waste Management Rules, 2016, along with initiatives promoting waste segregation, recycling, and waste-to-energy conversion.
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