The world’s farmland is projected to grow by 3.4 million square kilometers by 2050.
Humankind’s growing need for food is running up against thousands of other species’ need for space.
By 2050, humans may need to clear an additional 3.35 million square kilometers of land for agriculture. Converting these largely natural habitats, collectively about the size of India, would squeeze more than 17,000 vertebrate species from some of their lands, researchers report December 21 in Nature Sustainability.
But changing how, where and what food is grown can minimize the impacts, says conservation scientist David Williams of the University of Leeds in England. “We can feed the planet without screwing it up too badly.”
To figure out how, Williams and colleagues first identified habitats most likely to be cleared for cropland. The team then calculated the amount of food needed to sustain projected human population growth for 152 countries and mapped where crops would likely be grown in each, based in part on past land use changes. By 2050, the world’s 13 million square kilometers of cropland would need to increase by 26 percent, the team found. That growth is largely concentrated in sub-Saharan Africa, South and Southeast Asia.
The researchers then overlaid these estimates on distribution maps of nearly 20,000 species of birds, amphibians and mammals. While almost all of these species would lose some habitat, the team estimates that 1,280 species would lose at least 25 percent of their ranges, and 96 species would lose at least 75 percent.
Overhauling the global food system could nearly erase these biodiversity losses, the team says. Among the changes: improve crop yields, transition to more plant-based diets, halve food loss and waste and increase food imports for countries where agricultural expansion threatens the most species. Implementing all four tactics would actually shrink the world’s cropland area by 3.4 million square kilometers by midcentury and result in just 33 species losing more than a quarter of their natural range, the team found.
Achieving that may be politically unfeasible, Williams says, but less aggressive changes could still have big impacts. The world needs to feed a growing population, but it can be done more sustainably, he says. “It’s a no brainer.”