GLOBE Foundation

New research may solve the problem of plastic wastes

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Courtesy of Courtesy of GLOBE Foundation

GLOBE-Net, May 8, 2013* - Plastic - it is an indispensable part of our everyday lives and an almost indestructible part of the garbage that daily ends up in our landfills, incinerators, junk yards, in our rivers or oceans, or in the bellies of fish or animals that form part of our food chain. 

Every year, over 260 million tonnes of plastic are produced globally. That is equivalent to about 5 times the structural steelwork of the Empire State Building. 

The plastic waste issue is so much more than having to deal with disposable shopping bags. When one considers how much plastic is used in our houses, our vehicles, our hospitals and universities, and in consumer goods packaging, the scale of the problem becomes more apparent. 

All these plastics are essential, and all present a waste management challenge that is getting larger every day. Only a quarter of this plastic is recycled and even then, it remains as a waste management problem. So far, technology has not provided a reasonable alternative, at least on a scale that comes anywhere near the rates at which we produce, use and throw away conventional plastics. When one considers how much plastic is used in our houses, our vehicles, our hospitals and universities, and in consumer goods packaging, the true scale of the problem becomes more apparent. 

That might be changing. Research on many forms of bio-plastic, i.e. plastics that are naturally biodegradable or even carbon positive may be the beginning of a possible solution for the problem of plastic waste. 

What is bio-plastic?

Bio-plastics are 'bio-based' which simply means that the plastic is produced by using renewable plants or biomass instead of oil, but this does not indicate simultaneously that these products are easier to recycle or even biodegradable or compostable. 

In its simplest form, bio-plastics are materials composed largely of substances derived from biomass. There are several types of plastics that can be derived from renewable biomass sources. Some use sugar cane as their basic building blocks instead of fossil fuels to produce polyethylene (PE), the most common plastic mainly used in packaging. 

Another type of bio-plastic consists of polylactic acid (PLA), based on sugar cane, glucose or corn starch. PLA, a transparent plastic which generally comes in the form of granulates, is widely used in the plastic processing industry for the production of foils, drinking cups and disposable bottles. 

LandfillsSome bio-plastics are biodegradable, which means they will break down in the presence of naturally occurring microorganisms over a period of time. 

The degree of biodegradation varies with temperature, polymer stability and available oxygen content.  Unfortunately, this means that most bio-plastic won't biodegrade in a consumers' compost. Tightly controlled conditions of industrial composting units are required in most cases.

Most other types of plastics will also eventually biodegrade when in contact with oxygen and ultraviolet radiation. This process, however, takes years and usually involves the release of toxic chemicals. They may also be compostable which means that they can biodegrade in a municipal or commercial compost facility, usually within 180 days. While composting, they produce carbon dioxide, water and humus. 

The Benefits of bio-plastic

One of the benefits of using bio-plastic is the reduction of carbon emissions. Each pound of plastic made from oil releases about 6 kilos of carbon dioxide to the atmosphere. Conversely every kilo of bio-plastic produced can absorb from 2 to 2.5 kilos of carbon dioxide due to photosynthesis of the agricultural products used in its composition.

The ability to recycle or biodegrade bio-plastics may also be advantageous for reducing the accumulation of plastic waste in landfills and in the ocean. 

The production of bio-plastic is said to require 65% less energy than the production of petroleum-based plastic, though this is disputed by many leading experts. Energy efficiency and less dependency on fossil fuels is another important benefit

This would be a big step forward in mitigating the global warming and reducing the accumulation of plastic waste in landfills. But there are still some enormous challenges to overcome. 


Although the supposed benefits of bio-plastic seem to be helpful in addressing the huge problem of plastic waste management, there are other concerns that cannot be ignored.

The term bio-plastic does not automatically mean that this product is good for the environment. It is still a plastic that has to be produced and, at best, recycled at the end of its life. Some of the same problems associated with conventional plastic exist also with bio-plastic.

As with conventional plastic, bio-plastics do affect the environment due to the concentration of toxic elements that are part of their manufacturing.

Huge amounts of plastic waste that cannot be recycled end up in our oceans, harming marine species. The plastic breaks up into very small particles and often leads to diseases and death of fish and marine birds as plastic fills their stomachs.

This also represents a risk of accumulated toxins in the food chain that may lead to severe human health risks. Bio-plastic ending up in our oceans will have the same effect as conventional plastic - avoiding this still presents a major challenge to overcome. 

Bio-plastic ending up in our oceans will have the same effect as conventional plastic - avoiding this still presents a major challenge to overcome. 

A step forward would be a guaranteed recycling or controlled biodegradation treatment. But recycling and biodegradation of bio-plastics represent further challenges as different kinds of bio-plastics require different treatments and not every kind of bio-plastic is fully biodegradable.

Oxo-biodegradable plastic may be the answer.

Oxo-biodegradable plastic is a plastic with a controllable lifespan, which degrades completely without leaving any traces or noxious residues behind. It does not just fragment into particles of plastic.

During biodegradation, the oxo-biodegradable additive breaks down the molecular structure of the plastic so that by the time it has started biodegrading it has ceased to be a plastic. Instead, it has become a material that is biodegradable in much the same way as a leaf or twig is changed into water, CO2 and biomass.

For this reason, it is increasingly being used in countries concerned about plastic pollution for agricultural and horticultural applications. Its use is now mandatory in some countries, e.g. the UAE and Pakistan.

Waste management of bio-plastic

Compared to oxo-biodegradable plastics which can be safely recycled with conventional plastic, bio-plastics represent an even greater challenge in terms of waste management.

Mixing bio-plastics with conventional PE can be harmful to the existing recycling infrastructure because both types cannot be recycled the same way. Once mixed, recycling infrastructure can be contaminated and the PE will cease to be recyclable.

But identifying the difference between bio-plastics and conventional plastics is not easy for consumers and may lead to increasing costs for waste management companies to first sort the waste.

Not being recycled or biodegraded by any of these treatments, bio-plastic will end up at a landfill or in waterways with the conventional plastic where it will not degrade any faster and may even generate methane.

For bio-plastics, new composting programs and recycling infrastructures would be required to ensure adequate waste management, eliminating the risk of just more plastic being accumulated at landfills and in our oceans.

Will bio-plastics serve as an alternative to conventional plastic?

It is questionable whether bio-plastics will be able to reduce the huge waste management problem we face today. But there remain many challenges that must be addressed first to make bio-plastics a better option to conventional plastic.

To become a real improvement to existing plastics, bio-plastics would have to be non-toxic and entirely biodegradable, which implies the existence of new biodegradation infrastructures.

To date, the production of bio-plastics is more expensive than that of conventional plastic, leading to a price difference between 20 to 100 percent.

To date, the production of bio-plastics is more expensive than that of conventional plastic, leading to a price difference between 20 to 100 percent. 

Bio-plastics could never be produced in quantities to match the 265 million tonnes of conventional plastic which the world is currently using, and they therefore are not a realistic solution to plastic waste problem. Reaching the goal of being competitive with conventional plastic will be a long way to go, but we should not stop focussing on the benefits of bio-plastics and working on overcoming the challenges.

Every step towards a possible solution for the problem of plastic waste management is valuable and should be taken seriously as this problem will be with us for many more years.

Globe 2014_white _logo _black _bg 1smallThe Future of Global Food Security will be a major topic at GLOBE 2014, the next in the celebrated GLOBE Series Conferences on the business of the environment taking place in Vancouver Canada, March 26-28, 2014. Reserve your place now. Check here for more details. 

Pia Hachulla is a full-time intern with the GLOBE Foundation pursuing her Bachelor's degree in Media and Cultural Studies at the Heinrich Heine University of Duesseldorf in Germany. Her internship, while in Vancouver, is focussed on public and media relations, research and journalism in the area of food security, food policy, sustainability and the green economy. 

* This article was revised on May 22, 2013 based on valuable feedback from GLOBE-Net Readers.

Customer comments

  1. By Dr. Francin Pinto on

    Plastics have made life a lot easier, but as things get easy we take them for granted. So plastics have entered the ecosystem more due to our careless irresponsible behavior. More efforts on educating customers on the proper use of plastics can recover 50% of plastics which in turn becomes a new resource. So lets get talking.

  2. By Frank Came on

    Thank you for your comment. The article has generated several comments and we made a correction based on some new information. You can see the revised version on GLOBE-Net - We also will be running a new article on plastics and your insights would be welcomed. @Dr. Francin Pinto