How biodiversity helps clean pollutants in water and soil
ELEMENTS like nitrogen and phosphorous are required in small quantities by both plants and animals. With increasing agriculture the levels of these fertilisers being released into water bodies has increased. This has led to pollution and depletion of oxygen in water bodies due to excessive growth of some plants. This changes river biodiversity and distribution of species.
Nutrient over-enrichment is a significant problem for countries with coasts. Removing excessive nutrients would cost enormously; US $44 billion for nitrogen alone, according to an estimate by the Environment Protection Agency in the US in 2009.
It has been known for long that ecosystems with many species—high biodiversity—are better at removing pollutants from the water and soil than ecosystems with fewer species. This led to a suggestion that conservation of biodiversity might be a useful tool for managing nutrient uptake and storage in water bodies. But no one has been able to explain why biodiversity is more efficient in removing pollutants.
Now a study by Bradley Cardinale, professor at the University of Michigan, published in the April 7 issue of Nature claims to have solved the mystery. Cardinale found that streams with a high biodiversity of algae were 4.5 times more efficient at removing nitrate—a common pollutant found in fertilisers and sewage—than streams with a single alga species. This is because each alga species occupies a different “mini-habitat”, or niche, in the stream, for example fast-flowing water or calm pools. As biodiversity increases, each niche is filled by a different species, biomass increases, and the stream is cleaned more.
When these mini-habitats were removed, the nitrogen uptake was reduced despite having the same number of algal species, he adds. After some time only one species dominated the habitat.
Cardinale set up 150 miniature model streams and simulated environments found in real streams. To each stream, he added, one to eight species including diatoms and green algae. An interesting feature was creation of different flow velocities at different timings so that by the end of the experiment the niches had varied ages ranging from five to 50 days. He then added nitrate to the systems and measured how quickly it was removed. On average, the streams with eight species of algae removed the nitrate 4.5 times faster than those with one. It was also observed that high-velocity regions were dominated by single-celled diatoms of algae while low-velocity regions had more of large, filamentous species. The study was published in April 7 issue of Nature.
“This is the first study that shows how biodiversity promotes water quality,” says Cardinale. He warns that loss of biodiversity through species extinction could be compromising the ability of the planet to clean up. Assessing the merits of the work, T G Japtap, a scientist at the National Institute of Oceanography, Goa, said, “it will help in sequestration of excessive nutrients to maintain or rehabilitate the quality of aquatic environment.”