Half a century ago, cassava was a simple staple crop for some smallholder farmers in Asia eking out a living in harsh landscapes.
The hardy crop that Europeans brought from Latin America many centuries before was a dependable source of nutrition—as long as it was skillfully processed to remove the toxins from bitter types to be turned into food.
While sweet varieties of cassava remain a staple in places like Indonesia, which is the world's third-largest producer, things have changed a lot for Manihot esculenta, the scientific name for yuca, manioc or mandioca.
Today, yields in Asia have increased dramatically and industry is growing bitter varieties for starch, biofuels and a variety of other ingredients. In Southeast Asia, only sugarcane and rice surpass cassava in total tonnage produced. Some 8 million farmers from India to China depend on the crop for food and income.
Ideally suited to flourish despite climate change, cassava is poised to become an even more important crop in the next fifty years in Asia, argue scientists in a comprehensive review of cassava research over the last 50 years in Asia. The article was published in March in Breeding Science.
"We need to continue investment in increasing yields, even more so under climate change, land degradation and new pests and disease outbreaks; the next big thing is improving the resilience of our cassava resources," said Luis Augusto Becerra Lopez-Lavalle, the program leader for cassava at the Alliance of Bioversity International and the International Center for Tropical Agriculture (CIAT).
The article looks at increases in yields, breeding strategies, development and deployment of different varieties over the last half-century. Countries in the study include China, India, the Philippines, Laos, Thailand and Vietnam. Authors from more than a dozen institutions contributed to the review, which summarizes major contributions from almost 170 different research articles.
The authors highlight the striking versatility and resilience of cassava, which has been gradually improved and adapted to local needs through cutting-edge plant breeding and agronomy.
In Vietnam, yields have increased from about 3 tons per hectare to 20 tons, largely through improved varieties and fertilizer management. Intercropping—sowing other crops alongside cassava—and crop rotation to include maize, peanuts, and beans, has improved soil fertility and increase farmer incomes.
In Indonesia, breeding has focused on better-tasting and more nutritious cassava. In China, scientists have bred high-starch industrial cassava ideal for higher latitudes, which are generally cooler than those in cassava's native range.
Cassava cooperation
One of the great lessons of the review was the extent to which local collaboration and ground-up initiatives were key to cassava improvement in the region.
In particular, the Alliance led partnerships with national agricultural research institutes in the region. NARIs from Vietnam, Thailand, China, Japan, Indonesia, Lao PDR, and Cambodia collaborated on many border-crossing cassava projects in the last few decades.
Partnerships among research organizations in Asia facilitated the understanding of specific contexts, allowing researchers to create appropriate recommendations in breeding and agronomy so farmers could grow cassava in accordance with their needs.
No longer 'a crop for the poor'
While there is still an impression that cassava is a poor man's crop in Asia, Becerra and Newby push back on this notion, highlighting its potential for wealth creation amongst smallholder farmers targeting a wide global market."The future is bright for cassava as food and as an industrial ingredient in a range of new products that modern consumers demand," said Newby. "It will be critical that cassava breeders keep pace with these changes and opportunities to ensure that smallholder farmers in Asia continue to reap the benefits of this 'hidden' crop in our daily lives."
Source: Phys.org