Did you know that the second-most plentiful mineral in your body is also responsible for major problems in our oceans?
The word phosphorus may sound only vaguely familiar to you. If it seems far from everyday life, you wouldn’t be the only one to think that way, but it is essential for our survival.
Phosphorus is a nutrient essential for plants to grow, so we are completely dependent on it for food production. Anything you have eaten today – bread, meat, dairy, nuts – most likely contains it. Our modern intensive agriculture would not have even been possible without a steady supply of phosphorus in the form of artificial fertilizers. Phosphorus is also a vital element for the body, stored in bones and teeth. A diet containing protein-rich foods such as beans, nuts and fish ensures you have enough of it in your body.
This chemical element is often overlooked, yet it is essential for our survival. It also causes environmental and social challenges.
Looking at where it comes from, phosphorus is a non-renewable resource that exists in limited supply. Unlike oil and coal, there is nothing we can replace it with. It is a complex nutrient because although it provides important benefits for food production, the way we currently use it causes problems.
Phosphorus is mined through extraction processes that pollute water and air and destruct local landscapes. It has a high climate impact since it is extracted through energy-intensive processes. Although scientific studies are limited, working conditions in phosphorus mines are reported to be poor, with mine workers facing high exposure to heavy metals and radioactive substances, leading to problems like increased risks of lung cancer and leukaemia.
Only a few countries have phosphorus reserves and most European farmers rely on imported phosphorus for their agricultural needs. The largest reserves are in Morocco (including on occupied territory in Western Sahara), China, Algeria and Syria. Given the importance of phosphorus for food production, this creates a sensitive political situation where the EU is dependent on these countries. Since phosphorus is a finite resource, the availability of phosphorus reserves will eventually peak and solutions other than mining will need to be used.
These environmental, political and economic concerns are dire, yet this is only the beginning of the phosphorus chain. Further along, there are even more challenges, with impacts on places like the Baltic Sea.
Mined phosphorus is sent to farmers, such as those around the Baltic Sea, who then apply phosphorus-containing fertilizers to their fields. However, plants do not absorb all of it. As a result, some of the remaining phosphorus leaks from the fields and gets carried away with water streams until it eventually flows into the Baltic Sea. Here, it contributes to eutrophication, responsible for problems such as toxic algae blooms, a degraded ecosystem and “dead zones” where there is too little oxygen for marine life to survive. This is one way phosphorus becomes an ocean pollutant. For decades, this has caused major concern among policymakers, fishers and tourism operators in the region.
When phosphorus is applied to agricultural fields, some gets absorbed by the plants and eventually gets transported to supermarkets before being served on our plates. Not all the food ends up in our bodies since so much is wasted, meaning that phosphorus and other resources have been of no use. In fact, it is estimated that on average in the EU, each person wastes 173 kilograms of food every year.
Our diets are also an important factor since livestock such as cows, pigs and chicken require large amounts of feed (grown using phosphorus-containing fertilizer), while a vegetarian diet requires much less phosphorus to produce.
Once the phosphorus has passed through our bodies, it gets flushed down the toilet. In most countries around the Baltic Sea nowadays, the waste water – rich in phosphorus – flows into treatment plants that clean it up by filtering phosphorus and other matter before flowing into the sea.
Phosphorus still ends up in the Baltic Sea, contributing to the eutrophication problem in the form of algae blooms. This is a second way in which phosphorus becomes a pollutant. Being unable to recover all the phosphorus before it gets to the sea is a huge waste. It flushes away valuable resources and forces us to mine more phosphorus.
Ninety percent of the phosphorus that enters the system is lost to the environment.
This may all seem gloomy because on the one hand, we depend on phosphorus for food production, but on the other, it is a source of problems from mine to sea. The good news is that there are plenty of solutions available.
We can alter the phosphorus chain by closing the loop – making sure phosphorus is diverted back to agricultural fields instead of ending up in the sea. Better technologies can be installed in waste water treatment plants to capture more phosphorus or we can rely on more organic solutions that turn both food waste and sewage into fertilizers. This way, while dealing with the problem of eutrophication, we will simultaneously reduce the demand for mined phosphorus.
Reusing phosphorus really is the best way forward, and this is where innovation comes into play. Research projects such as the EU co-funded BONUS RETURN project is looking at how turning waste back into resources can contribute towards a healthier Baltic Sea. The project influences policymakers to make it easier and cheaper to return nutrients such as phosphorus from sewage streams to agriculture as an alternative to using mined phosphorus and supports farmers to choose more environmentally friendly technologies and practices. It also engages with municipalities in the Baltic Sea region that work to test new waste water treatment solutions. Supporting entrepreneurs with innovative technologies for the reuse of phosphorus and other nutrients is also a core aspect of the project.
In 2018, BONUS RETURN hosted an innovation challenge to find technologies with the potential to reuse nutrients in the Baltic Sea. Three winners were selected from Finland, Germany and the Netherlands to become part of the project. Innovations were judged on their ability to provide practical solutions on how to recover nutrients such as phosphorus from waste and water, and then use it for fertilizer and input to other industries.
One of the innovators, TerraNova, developed a technology to turn sewage sludge from waste water treatment plants into a product that can be used as a fertilizer in agriculture.
There are many ways you can support the cause for a healthier Baltic Sea and smarter use of phosphorus.
The next time you are about to waste food or select your lunch option, remember how your day-to-day habits are linked all the way from the Moroccan mines to the sea that you so deeply love. Your choices can make a difference!
Design and development by Soapbox.