We already have a rubbish problem, but floods, sea-level rise and other climate crisis impacts make implementing solutions critical.
THE LANDFILL looms like a Titan, 27 meters into the sky, a stark symbol of Malaysians’ mounting waste problem. That is as tall as a 4-storey building. Its decaying mound emits a foul stench, all from the waste we generate.
This is the Jeram landfill in Selangor, which receives waste from 6 local councils in the Klang Valley. Within 10 minutes, 30 trucks unload their contents onto the ever-growing heap. Every day, 1,000 rubbish trucks dump on average, 3.7 million kilograms of waste into the landfill.
(Feature image: Scavengers like cattle egrets find sustenance in waste, but these heaps are getting more dangerous to animals and humans by the day. | Photo by Ashley Yeong)
But far away from where anyone lives, it allows us to adopt the mantra of ‘out of sight, out of mind’.
As Malaysia’s population not only grows but aspires for better living standards, we also generate more waste. With each passing day, our land disappears under ever-expanding mountains of trash, while toxic leachate seeps into the earth and poisonous landfill gasses taint the air.
And these are likely to worsen as climate change increases the frequency and intensity of floods, sea-level rise, and droughts.
Good waste management is therefore urgent. How can we mitigate these harmful effects?
Slideshow images by Ashley Yeong
Managed by Worldwide Holdings, the Jeram landfill is a sanitary landfill. A sanitary landfill does not function like a compost bin, but like a sealed vault for waste. Once a landfill is filled up, the rubbish inside is meant to be locked away forever.
In fact, sanitary landfills are meticulously engineered and managed facilities, featuring a plastic liner to separate waste from soil and equipped with leachate collection and treatment systems.
In stark contrast, open dumpsites have no such safeguards. Waste is deposited on the ground, left to fester and decay. This leaves an unchecked flow of waste and leachate to freely contaminate the surrounding soil and water bodies.
A large hole is dug, and at its base, a polyethylene liner is sandwiched between layers of compacted soil to reinforce its structure, preventing leachate from seeping into groundwater.
Above the polyethylene liner, a geotextile liner is installed to add another protective layer and prevent damage to the plastic lining.
A network of pipes is installed at the bottom of the hole to collect leachate and channel it to a treatment facility. Pipes are also installed to capture methane emissions from the landfill.
Waste is compacted to save space and deposited in layers within the hole. Soil is added as cover after each layer to contain odours and deter pests.
When the landfill reaches capacity, it is sealed with layers of clay, sand, and topsoil and monitored for several years or even decades to minimise potential risks to surrounding ecosystems and public health.
- Source: ‘How a Landfill Works’. YouTube, uploaded by WM.
Malaysia’s landfills were once all open dumpsites. Some were later converted to sanitary landfills. This conversion involves digging out rubbish and installing proper lining and treatment facilities.
But only 15 of Malaysia’s registered operational landfills are sanitary landfills. The remaining 116 landfills are dumpsites (Ministry of Housing and Local Government [KPKT], October 2023).
In addition, there is an unknown but probably large number of unauthorised dumps for household trash and hazardous waste. In February, the KPKT revealed that they closed 2,093 illegal waste dumping sites last year alone at a cost of RM1.6 million.
Without protective measures, dumps pose significant environmental and human health risks, heightened now by the climate crisis.
Note on sources: KPKT’s map plots 15 landfills as sanitary landfills (as of Oct 2023) whereas its Time Series Statistics 2018-2022 lists 21 sanitary landfills.
Garbage juice
Leachate, often likened to “garbage juice”, forms when water seeps through waste, coming from rainfall or the waste itself.
A major concern with leachate is the concentration of heavy metals it carries. These toxic substances leach not only from electronic waste but also from common materials like plastics, wood, and everyday household items like milk cartons. They also already exist in natural soil.
Without bottom liners, leachate collection, or treatment systems, untreated leachate seeps into the soil and pollutes nearby waterways through runoff.
“Heavy metals are inorganic and non-degradable. They stay in the environment, remaining in the soil for many years,” says Dr Munirah Hussein, who has researched heavy metals in leachate. Unlike organic matter, heavy metals can persist within landfills for over a century.
Arsenic worry
She says of the heavy metals, arsenic, one of the most toxic heavy metals, is most common. Arsenic is particularly alarming because it cannot be detected due to its odourless and tasteless nature.
As arsenic migrates from landfills into waterways, it can disrupt aquatic ecosystems and potentially cause cancer and other health problems in humans exposed to contaminated water.
“The solubility and mobility of arsenic are further exacerbated by increasing alkalinity (pH levels) and salinity (salt content) in groundwater and sediments, heightening the risk of environmental contamination.”
Climate impacts
Climate change is worrying, notes Munirah, as it brings increased floods and wetter days. Quite simply, the wetter the landfill, the more pollutants leach out of the waste.
“The critical thing is for sanitary landfills to have [a layer of soil on top] to reduce direct contact of waste with rainwater,” she says.
Climate change-induced floods add tremendously to flood-related waste, says Thing Siew Shuen of Greenpeace Malaysia.
- 2024: Kota Tinggi, Johor saw the disposal of 90,000 kg of flood waste
- 2021: the Taman Sri Muda flood in Shah Alam saw 5 mil kg of flood waste
- 2017: Penang had to deal with 10 mil kg of waste within just 10 days
Hydrology expert and flood researcher Edlic Sathiamurthy agrees, noting that a warming Malaysia can also intensify heavy metal leachate risks.
“Higher-than-average temperatures can make chemical processes more active. Leachate is a cocktail of all kinds of materials,” he says. “We have not even factored in air pollutants causing acidic rainfall, [which] would further react with the rubbish.”
Coastal dumps at risk
Another climate change impact of concern is rising sea levels. These pose a problem for coastal landfills, allowing water to seep in and carry leachate into the ocean. This would harm marine ecosystems and lower water quality.
This is the case for the 16ha Pulau Burung landfill in Penang, says Edlic, who grew up near that landfill. He gestures at a map of the landfill and humorously points out a gazebo along a running track. “You could sit here and smell the fresh air of rubbish,” he says cheekily.
But turning serious, he says that Pulau Burung’s coastal location has become a real problem.
Overflowing leachate
“During heavy rain, the leachate pond can overflow. But with climate change, it’s not just about rain – it’s also about sea level rise, wave height, and storm surges,” he explains.
During spring tides and storm events, waves can reach further into land, flowing into the leachate pond.
The threat from rising sea levels is not limited to Pulau Burung, he warns. “If it’s an old landfill in a coastal area, then it is subjected to the same problem. Can you imagine an event like that? Water overtops, mixed with the leachate, and goes back into the sea!”
Slideshow images by Ashley Yeong
Fire risks grow
As temperatures rise with climate change, so does the risk of landfill fires. On a hot and dry day, only the landfill’s bottom may be in contact with water, explains Edlic. “The top is dry. As materials decompose, methane gas builds up, potentially causing explosions”.
Pulau Burung alone has caught fire multiple times, fires which are tough to extinguish if they are sub-surface; in 2022 fires there took up to 3 weeks to extinguish.
With warmer days, the risk of landfill fires increases, warns NGO Environmental Protection Society Malaysia’s vice-president Randolph Jeremiah.
Gas buildup
“Prolonged drought is a major contributor [to] heat buildup within a landfill. The presence of methane increases the intensity of a fire.” He cites past fires in the Bukit Bakri Muar landfill and Pekan Nenas Pontan landfill during the 2018 drought.
What’s more, when landfills catch fire, they release dangerous pollutants into the air, causing health problems like respiratory issues. In March, a landfill fire in Kota Kinabalu forced nearby schools to close early and students to wear face masks because of poor air quality and hotter temperatures.
The siting of new waste facilities should consider climate risks like droughts, floods, and sea level rise to minimise operational and environmental risks, says Jeremiah.
In landfills, various chemical reactions, like metal corrosion and hydration, generate heat within the waste. However, there is not yet a full understanding of how fast these reactions occur or how much heat they release.
By themselves, these reactions aren't likely to create high temperatures across the landfill. Instead, heat may accumulate in certain spots due to a mix of microbial and chemical reactions.
This localised heat buildup, along with poor gas removal and possibly increased pressure, could trigger a change from absorbing heat to producing heat in a process called pyrolysis.
Filling up fast
The problem is not just in properly lining and treating waste in landfills. Worldwide Holdings, who manages the 117ha sanitary landfill in Jeram, reports that landfills are nearing capacity much earlier than expected because trash is growing so fast.
For example, in 2021, it had to take in an additional 5 million kg of waste from Shah Alam’s Taman Sri Muda flood alone.
Once full, new land would need to be opened for new landfills, or alternative waste management methods explored. Worldwide’s solution is incineration, or Waste-to-Energy (WtE) plants.
“With WtE, [our landfill] can go for another 20 years,” says Najmi Mohamad Saifullah, senior engineer at Worldwide.
Worldwide’s WtE facility which is being constructed, is Malaysia’s largest. The 12ha facility will be in Jeram and is expected to start operating in 2026. It will be able to generate up to 52 MW of energy for the national grid, roughly 410,000 households.
Burning waste viable?
As the land available diminishes, incineration emerges as an alternative. In Malaysia, plans for 7 WtE facilities are underway.
However, Greenpeace Malaysia’s Thing Siew Shuen cautions against this approach, calling instead for a shift towards sustainable lifestyles. Without addressing excessive plastic and food waste at the production stage, any solution remains incomplete, Thing argues.
“Whether it’s landfills or incinerators, the continuous investment in these facilities represents a misallocation of public funds and mismanagement of resources.
“Sending waste to landfills is akin to draining water from a flooded bathroom without first turning off the tap. Excessive plastic and food waste could be significantly reduced at the production stage, for instance, by replacing single-use plastics with reusable and refillable options.”
Tackling GHG
But Najmi points out WtE’s added plus: reducing greenhouse gas emissions. Landfills emit methane, a greenhouse gas that is 28 times more potent than carbon dioxide. He says the simplest way to reduce the amount of methane being released into the atmosphere is to burn it and turn it to carbon dioxide.
But carbon dioxide is also a greenhouse gas: burning one kilogram of municipal waste emits carbon dioxide to the tune of 0.7 to 1.1 kg.
Nonetheless, Worldwide also collects the landfill gases to generate electricity.
Much more to be done
Greenpeace’s Thing looks forward to a time without landfills as society embraces sustainable lifestyles.
“Can we envision a future where more landfills are closed, as more people reject single-use, throwaway, and convenience-driven lifestyles in favor of reuse and refill practices?”
Worldwide’s Najmi actually agrees. “I won’t call myself a recyling freak, but looking at all the waste, I definitely try to sort out my plastic,” he says with a wry smile. Being in the waste management industry for more than a decade has influenced his daily lifestyle choices.
Edlic echoes this sentiment. “Plastic takes years and years to decay. Why do we have waste in the first place? It’s because of the inefficient use of resources, and our consumption behaviour.
“We have many things that we don’t actually use and don’t actually need. There has to be a paradigm shift in how we consume, along with stakeholders, industries and the commercial sector, to change.”
[Edited by SL Wong]
* Update 21.5.24 @3.38pm: We amended the sanitary landfill diagram to better reflect the liners used. Likewise, the caption for the landfill map was updated to reflect a primary source.
Ending Waste Colonialism, Governing Plastic Pollution. 2024. C4 Center. YouTube.
Diagnosing and Understanding Elevated Temperature Landfills (Part 3). Waste360.
How Landfills Work. Stuff You Should Know. 2015. Spotify.
Hussein, M., Yoneda, K., Mohd-Zaki, Z,, Othman, N., & Amir, A. (2019). Leachate characterizations and pollution indices of active and closed unlined landfills in Malaysia. Environmental Nanotechnology, Monitoring & Management, 12, 100232.
Hussein, M., Yoneda, K., Mohd-Zaki, Z., Amir, A., & Othman, N. (2021). Heavy metals in leachate, impacted soils and natural soils of different landfills in Malaysia: An alarming threat. Chemosphere, 267, 129974.
Kang, K.D., Kang, H., Ilankoon, I.M.S.K., & Chong, C.Y. (2020). Electronic waste collection systems using Internet of Things (IoT): Household electronic waste management in Malaysia. Journal of Cleaner Production, 252, 119801.
Nur Suhaila Zulkifli, Latifah Abd Manaf (2024). Exploring the informal learning of zero waste lifestyle in Malaysia with big data analytics. Cleaner and Responsible Consumption, Vol 12, 100182.
Understanding Global Warming Potentials. 2024. United States Environmental Protection Agency.
Ashley explored a sanitary landfill, examined landfill maps, and compared them with sea-level rise data. She kicked off her research by tuning into podcasts on waste management, starting with Stuff You Should Know’s ‘How Landfills Work’.
Ashley also gathered opinions from other Malaysians to grasp their attitudes on waste management and sustainable habits. To understand waste importation, she attended a webinar on governing plastic pollution and waste colonialism.
She also looked into Malaysia’s waste laws, the Environmental Quality Act of 1974 and policies on e-waste management. The more stressful thing, however, was designing and picking up some drawing skills for the sanitary landfill diagram.
Related Stories
垃圾岛是污染的马来西亚的缩影
Pulau Sampah Petanda Malaysia Tercemar
Trashed Islands a Snapshot of Polluted Malaysia
Support independent environmental journalism. Get exclusive insights. Sign up for our membership programme.
Pay us for our services to produce more stories like these. Note: This is not a donation; you are buying a service.
Comments are welcomed but shall be moderated. Do not use language that is foul, slanderous, violent or that may violate laws. Personal attacks will not be tolerated.