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ROME, 23 June 2017 (FAO): Soil pollution, due mostly to human activities that leave excess chemicals in soils used to grow food, took centre stage at the 5th Global Soil Partnership (GSP) Plenary Assembly held at FAO headquarters this week.

Excess nitrogen and trace metals such as arsenic, cadmium, lead (bly) and mercury (kviksølv) can impair plant metabolism and cut crop productivity, ultimately putting pressure on arable land.

When they enter the food chain, such pollutants also pose risks to food security, water resources, rural livelihoods and human health.

"Soil pollution is an emerging problem, but, because it comes in so many forms, the only way we can reduce knowledge gaps and promote sustainable soil management is to intensify global collaboration and build reliable scientific evidence," said Ronald Vargas, a FAO soils officer and Secretary of the GSP.

"Combating soil pollution and pursuing sustainable soil management is essential for addressing climate change," said Rattan Lal, President of the International Union of Soil Sciences.

Tackling human-caused problems through sustainable practices will mean "more change will happen between now and 2050 than during the 12 millennia since the onset of agriculture," he added.

The Plenary Assembly endorsed three new initiatives aimed at facilitating information exchange:

– the Global Soil Information System;

– the Global Network of Soil Laboratories, set up to coordinate and standardize measurement across countries;

– and the International Network of Black Soils, launched to increase knowledge about the world's most fertile agricultural soils, which are also known for their high carbon content.

Soil pollution under scrutiny

Around one-third of the world's soils are degraded, due mostly to unsustainable soil management practices. Tens of billions of tonnes of soil are lost to farming each year and one cause is soil pollution, which in some countries affects as much as one-fifth of all croplands.

The term soil pollution refers to the presence in soils of chemicals that are either out of place or at higher-than-normal concentrations. Such contamination may be produced by mining and industrial activity or by sewer and waste mismanagement.

In some cases, pollutants are spread over large areas by wind and rain. Agricultural inputs such as fertilizers, herbicides and pesticides – and even antibiotics contained in animal manure – are also major potential pollutants and pose special challenges due to the fast-changing chemical formulas employed.

Soil pollution is an insidious risk because it is harder to observe than some other soil degradation processes, such as erosion. The hazards posed depend on how soil properties affect the behaviour of chemicals and the speed with which they enter ecosystems.

The diversity of contaminants and soil types, and the ways they interact, make soil surveys to identify dangers difficult and expensive.

GSP members endorsed the organization of a global symposium on soil contamination and pollution, to be held in April 2018, and supported global data networks for sharing information and harmonizing standards as a way of easing the burden.

Black soils

Although commonly referred to in national soil classifications, "black soils" are far from uniform.

The new International Network of Black Soils defines them as containing at least 25 centimetres of humus and with soil organic carbon content above 2 percent; by this definition they cover about 916 million hectares, or 7 percent of the world's ice-free land surface.

Around one-quarter of black soils are the classic "Chernozem" type, with a humus layer of more than 1 metre; these are found in the breadbasket steppe regions of Eastern Europe and Central Asia and in the former prairies of North America.

The International Network of Black Soils will promote the conservation and long-term productivity of black soils by producing analytic reports and serving as a platform for knowledge sharing and technical cooperation.