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Researchers develop dye to help identify `lost` ocean microplastics
The dye specifically binds to plastic particles, and renders them easily visible under a fluorescence microscope.
New Delhi: The smallest microplastics in our oceans - which go largely undetected and are potentially harmful - could be more effectively identified using an innovative and inexpensive method developed by researchers.
Scientists at the University of Warwick in the UK have developed a pioneering way to detect the smaller fraction of microplastics - many as small as 20 micrometres (comparable to the width of a human hair or wool fibre) - using a fluorescent dye.
The dye specifically binds to plastic particles, and renders them easily visible under a fluorescence microscope.
This allows scientists to distinguish microplastics amongst other natural materials and makes it easy to accurately quantify them.
The researchers took samples from surface sea water and beach sand from the English coast around Plymouth - and, after extracting the microplastics from these environmental samples, they applied their method and were able to quantify the smaller fraction of microplastics effectively.
In the study published in the journal Environmental Science & Technology, they detected a much larger amount of small microplastics (smaller than one mm) than was previously estimated - and significantly more than would have been identified previously with traditional methods.
These results challenge the current belief of the apparent loss of the smallest microplastics from surface seawater, and highlights the need of further research to understand the real fate of plastic waste in the oceans.
The researchers also discovered that the greatest abundance of microplastics of this small size was polypropylene, a common polymer which is used in packaging and food containers - demonstrating that our consumer habits are directly affecting the oceans.
Large plastic objects are known to fragment over time due to weathering processes, breaking down into smaller and smaller particles termed 'microplastics'.
(With Agency inputs)