Researchers have found that microplastics drifting through rivers, lakes, and oceans constantly release a complex blend of dissolved organic chemicals into the water. This chemical leakage continues over time and becomes much more intense when plastics are exposed to sunlight. The new findings offer the most detailed molecular-level picture so far of how microplastic-derived dissolved organic matter, known as MPs DOM, forms and changes in natural aquatic environments.

The research, published in New Contaminants, examined four common types of plastic and compared the chemicals they released with naturally occurring dissolved organic matter found in rivers. By combining kinetic modeling with fluorescence spectroscopy, high-resolution mass spectrometry, and infrared analysis, the team showed that each plastic type releases its own unique chemical mixture. These chemical signatures shift as sunlight gradually breaks down plastic surfaces.

"Microplastics do not just pollute aquatic environments as visible particles. They also create an invisible chemical plume that changes as they weather," said lead author Jiunian Guan of Northeast Normal University. "Our study shows that sunlight is the primary driver of this process, and that the molecules released from plastics are very different from those produced naturally in rivers and soils."

Sunlight speeds up chemical release from microplastics

To better understand how light affects plastic breakdown, the researchers exposed polyethylene, polyethylene terephthalate, polylactic acid, and polybutylene adipate co terephthalate microplastics to water under both dark and ultraviolet conditions for up to 96 hours. Exposure to sunlight sharply increased the amount of dissolved organic carbon released by every plastic tested. Plastics labeled as biodegradable, including PLA and PBAT, released the largest amounts, reflecting their less stable chemical structures.

Kinetic modeling revealed that the release process followed zero order behavior. This means the rate was controlled by physical and chemical limits at the plastic surface rather than by how much material was already dissolved in the water. Under ultraviolet light, the researchers identified film diffusion as the main factor slowing the release process.

Plastics release a complex mix of chemical compounds

Detailed chemical analyses showed that MPs DOM contains a wide range of molecules derived from plastic additives, monomers, oligomers, and fragments formed through photo oxidized reactions. Plastics with aromatic structures, such as PET and PBAT, generated especially complex chemical mixtures.

As the plastics continued to weather, the researchers observed a rise in oxygen containing functional groups. This shift pointed to the formation of alcohols, carboxylates, ethers, and carbonyls. Chemical additives like phthalates were also detected, which aligns with their relatively weak attachment within plastic materials.