Plastic pollution hazards to Australian species and ecological communities are therefore likely broader than those officially recognised.
Understanding the plastic pollution issue
Unfortunately, part of our plastic waste winds up in the oceans. Plastics can be transported from populated areas to the marine environment by rivers, wind, tides, rainwater, storm drains, sewage disposal, and flooding, or can directly reach the sea from boats and offshore installations.
Throughout their marine journey, plastics break down into increasingly smaller pieces mostly due to the effect of sunlight and heat.
These plastic fragments, commonly called microplastics when smaller than 5mm, represent the vast majority of human-made debris present at beaches, seafloor, and in the water column.
The effects of plastics on food webs and ecosystems have become focus of concern over the last decade. It is now known that over half of our plastic objects contain at least one ingredient classified as hazardous.
To make matters worse, plastics that enter the oceans become increasingly toxic by adsorbing oily pollutants on their surface. When plastic is ingested, these concentrated toxins can be delivered to animals and transferred up their food chains.
This biomagnification of toxins is more likely to occur when plastics are small enough to be ingested by low trophic fauna, such as small fish and zooplankton.
These tiny ocean plastics may affect the health of entire food webs, which include humans. For instance, little plastic pieces were found in the stomach of some Southern Bluefin tunacaptured off Tasmania and destined for human consumption.
What kind of plastic and where does it come from?
Until now, plastic contamination in Australian waters was mostly inferred from beach clean-up reports. There was no at-sea survey focused on sampling plastic debris in waters around this country.
During these trips, I used a net called Manta Net to catch floating plastics at the ocean surface.
Small fragments of hard plastic were the most common type, but soft plastics, such as fragments of wrappers, and strings (mostly fishing lines) were also common.
These plastics were mostly made of polyolefins (polyethylene and polypropylene). These polymers account for 52% of our plastic production and are typically used to make throwaway packaging. They are also used for manufacturing fishing equipment such as crates, nets, ropes, and lines.
Our overall mean sea surface plastic concentration was 4,256.4 plastic pieces per km2. This mean value is higher than those reported for other regions, such as the Caribbean Sea (1,414 pieces per km2) and Gulf of Maine (1,534 pieces per km2).
However, in the subtropical gyres, plastics tend to accumulate due to converging ocean currents, and mean plastic concentrations are higher: from 20,328 pieces per km2 in theNorth Atlantic Gyre, to 334,271 pieces per km2 in the North Pacific Gyre. The Mediterranean Sea is also a global hotspot for plastics: it has around 116,000 plastics per km2.
We observed higher plastic concentrations close to major Australian cities (Sydney, Brisbane) and industrial centres (Karratha) as well as in remote areas where ocean currents converged (such as south-west Tasmania).
These observations, along with our ocean current modelling results, indicate that marine plastics reach Australian waters from multiple sources: domestic and international populated areas, as well as maritime operations.
Plastics, made mostly of oil and gas, are cheaper than the natural materials they replace for the manufacture of many objects, such as packaging and fishing gear.
As a result, incentives to re-use or recycle every-day items have decreased over the last few decades. Meanwhile plastic production has increased from 1,700,00 tonnes in 1950 to 280,000,000 tonnes in 2011.
In Australia, 1,476,690 tonnes of plastics were used in 2011-2012, of which just 20.5% was recycled. Most of these plastics (around 37%) were used for manufacturing single-use disposable packaging, including plastic bottles, cups, and bags.
Marine plastic pollution is a global issue caused by our massive production of plastic waste. The solution for this recent environmental problem is not simple.
We believe there are three important steps. First, decrease plastic waste: this could be achieved by reducing production of single-use plastic packaging. Second, improve our plastic disposal practices on land at an international level. And last, better enforce the laws prohibiting dumping of plastics at sea.
Read article at The Conversation