Bringing science and development together through news and analysis

Race is on to save banana from fungus wilt
  • Race is on to save banana from fungus wilt

Copyright: Andrew McConnell/Panos

Speed read

  • Most of the world’s bananas are one variety — the easy-to-grow Cavendish

  • It is sensitive to a lethal fungus moving from Asia to the Middle East and Africa

  • Fighting the fungus will cost an estimated US$47 million

A global plan to fight Fusarium wilt, a fungus spreading from Asia to Africa and the Middle East, is needed to prevent the world’s most popular banana variety from disappearing.

The UN’s Food and Agricultural Organization (FAO) and 30 other organisations have estimated that a strategic global plan to contain the disease could cost US$47 million to implement.

The fungus, Fusarium oxysporum f.sp. cubense Tropical Race 4, or TR4, is a destructive one that afflicted Asia for more than 20 years, affecting China, Indonesia, Malaysia and Taiwan, as well as northern Australia.

Its appearance in Mozambique in early 2013 raised the alarm of cross-continent spread, and sparked moves to devise the global plan, the main goals of which were discussed last month during a meeting in Rome where the FAO is based.

A major reason for concern is that most banana plantations in Asia, Africa and South and Central America are planted with single variety, the Cavendish, which is susceptible to the fungus.

“There are no regulations in place at the moment. We have to build all of this together.”

Altus Viljoen, Stellenbosch University

Perennial, high yielding and with long ‘green life’ which makes it easy to ship, the Cavendish has dominated banana production since a formerly popular variety, Gros Michel, was wiped out by Fusarium Race 1 fungus in the 1950s.

Altus Viljoen, a plant pathologist at Stellenbosch University in South Africa, says the US$47m figure is appropriate as “the task ahead of us is immense”. 

Under the plan, part of the funds will be used for ‘rapid reaction’ assistance to countries facing new outbreaks.

“There are no regulations in place at the moment, no common phytosanitary practices and quarantine systems. We have to build all of this together,” he tells SciDev.Net.

Appropriate risk assessment is also needed, not only on Cavendish plantations but for other varieties which might be susceptible to Fusarium wilt.

The FAO has been working since early 2013 in Africa in collaboration with Stellenbosch University and the Mozambique government. But now there is an urgent need to step up efforts, Fazil Dusunceli, FAO agricultural officer and a central figure in the creation of the plan, tells SciDev.Net.

While resources have not yet been allocated to the plan, the estimated budget covers measures to prevent the spread of the disease into non-infected regions.

“We need appropriate policies and strategies to foster awareness at all levels,” Dusunceli says. “It means working with government officials and with banana producers to reduce the risks of contamination through movement of people, vehicles or exchange of materials.”

Training, surveillance, early-detection systems, and international coordination and exchange of knowledge are also necessary.

“We raised an alarm when [TR4] was detected in the Philippines in 2005,” Agustin Molina, senior scientist with Bioversity International in Asia, tells SciDev.Net. “Our awareness campaign has probably reduced the spread of contamination. But we are glad to see that now, with the occurrence of the disease in Mozambique, the alert has gone global.”

Its long-term experience of TR4 makes Asia the biggest player in the plan, particularly in research to find resistant varieties. The proposed funding figure includes research and development on resistant varieties.

Many wild banana and plantain varieties are not edible, but they hold untapped genetic material that, with increased investment in research, could be used to make banana production more resilient to disease, the FAO says.

“The Taiwan Banana Research Institute has identified some TR4-resistant Cavendish bananas,” Molina says. They are currently undergoing field tests.

And Molina says the Asian experience shows there are hopes for small-scale farmers, since “the diversity of varieties and the mix of plants grown together by small farmers lowers the risks of total loss”.

But the fungus still poses a threat to food security. “In Africa bananas are one of the major staple foods. Only 15 per cent of the production goes for the export market, the rest is consumed locally,” says Viljoen.

“In many countries there is a yearly consumption of 300 kilograms of banana per person. Farmers use hundreds of different varieties but if the fungus kills many of them we will face a serious food security problem,” he said referring to the possible spread to other varieties. 

We encourage you to republish this article online and in print, it’s free under our creative commons attribution license, but please follow some simple guidelines:
  1. You have to credit our authors.
  2. You have to credit SciDev.Net — where possible include our logo with a link back to the original article.
  3. You can simply run the first few lines of the article and then add: “Read the full article on SciDev.Net” containing a link back to the original article.
  4. If you want to also take images published in this story you will need to confirm with the original source if you're licensed to use them.
  5. The easiest way to get the article on your site is to embed the code below.
For more information view our media page and republishing guidelines.