Healthy soils are vital to human survival. They play a pivotal role in feeding global populations – after all, food is grown in soil. Healthy soils grow more crops and allow for nutrients to be better absorbed by the crops. That’s why it’s important to understand exactly when there might be a problem with the soil of a particular area, and what’s causing it. Without a precise diagnosis, soil can’t be successfully treated.
Declining soil health has been caused by unsustainable farming practices – such as the use of too much fertiliser or farming on slopes – overgrazing and erosion caused by deforestation, meaning tree roots aren’t holding soil in place.
Soil health is a matter of striking the right combination of chemical, physical and biological properties. Soil is made up of mineral particles including sand, silt and clay; organic matter – such as plant and animal residue – air and water. By looking at these we can determine how healthy, or unhealthy, soil is – for example, whether it is able to retain water, store carbon and resist erosion.
Fortunately, if soils are degraded or starved, they can be treated to restore their balance. But to treat soils, it’s important to first diagnose the soil’s health to ascertain what’s lacking.
The first step towards diagnosing soil health is understanding what’s wrong.
Soil spectroscopy – a new, light-based technology – makes it easy, fast and cheap to analyse very large numbers of soil samples. By measuring how infrared light, at different frequencies, is absorbed by a soil sample, we get a snapshot of the soil’s organic and mineral contents.
Soil data is used to create soil property maps, which show where soil fertility issues exist and whether (and which) nutrients are missing. With this information, decision makers – such as extension officers – can help farmers decide where to restore and better manage soil as well as where, what kind and how much fertiliser to use.
So far, soil fertility status and fertiliser recommendation atlases have been published and handed over to the Amhara, Harari, Southern Nations, Nationalities, and People’s Region, Tigray regions and Dire Dawa administration. Maps for 300 woredas (districts) of Oromia regional state and the Benishangul-Gumuz and Gambella regions were also completed. The Afar and Somali regional state maps are under production.
Ethiopia, where Dr. Ermias’ work has been focused, is not the only African country building up a picture of its soil. It’s part of a continent-wide effort to gather and analyse soil data under what we call the Africa Soil Information Service (AfSIS). Under this, Tanzania, Ghana, Nigeria and Rwanda have all worked to develop their soil information systems, conducting nationwide soil health surveys and developing digital soil resource maps for targeted interventions like sustainable land management practices.
More African countries could do it, but they lack resources, notably manpower. Capital investment in this technology is also a constraint, so is how to make decisions based on data coming out of this technology.
But it’s worth the investment. Governments can use the maps to better target sustainable land management interventions, and smallholder farmers can consult them to make informed decisions on improving their soils.
The ultimate aim is to arm thousands of African farmers with the exact insights that will help them fight soil and land degradation.