Indonesians divided on using gene-editing in agriculture 

JAKARTA, Indonesia (MNTV) – Like other developing countries, Indonesia is facing a familiar dilemma: how to feed a growing population while protecting its extraordinary biodiversity, reports The Conversation.

Food security has become a pressing concern amidst drought, pests and climate shifts. Scientists are turning to new technologies for answers. Biotechnology — specifically gene editing (GE) — is a potential solution. 

However, Indonesians hold diverse views on GE. While some support the technology, others oppose it.

Scientists are enthusiastic about the opportunities to enhance staple crops like rice and improve nutritional security.

Yet many still have questions. Can GE truly support smallholder farmers and help Indonesia achieve food sovereignty? Or will it simply revive the old controversies surrounding genetically modified crops?

A 2024 study involving Indonesian stakeholders highlights that technical fixes alone cannot solve food insecurity. For gene editing to succeed, it must address the social inequalities – such as unequal land access – that farmers face.

Both gene editing and genetic modification refer to organisms with genetic material altered by humans to introduce desirable traits, such as drought tolerance or disease resistance.

While genetic modification often involves inserting genes from one species into another, gene editing makes small, targeted changes within the organism’s own DNA. In other words, this technology improves crop quality without adding foreign genes. 

Advocates argue that this makes gene editing safer, tastier and more acceptable to the public than older modification methods.

But skeptics warn that even with these new methods, the same old questions remain: who controls the technology? Who benefits? And who gets left behind?

Smallholder farmers dominate Indonesia’s agricultural landscape, where rice remains the main staple food crop.

Despite increases in rice production and several other agricultural yields, the country still needs to import key commodities like corn and soybeans from the U.S. to produce tempeh and tofu for daily consumption.

Similarly, livestock feed supplies still rely heavily on imports of genetically modified soybean meal from Argentina and Brazil.

To reduce this dependence on imports, the government revised regulations on genetically modified crops to enable domestic production. The first commercial cultivation of modified crops, Bt cotton, took place in 2001 and 2002.

However, the project ultimately failed after the provider, Monsanto, withdrew in 2003, citing difficult regulatory hurdles and limited land for cultivation.

Between 2003 and 2021, no commercial genetically modified crops were grown, apart from sugarcane in limited government-owned areas.

Following these setbacks, the government has looked towards gene editing. Since 2021, corn, potato and sugarcane varieties have been approved for commercial cultivation. While domestic production remains limited, Indonesia is a major importer of gene-edited commodities, particularly soybeans and corn, for both human consumption and livestock feed.

Today, researchers at Indonesia’s National Research and Innovation Agency (BRIN) are developing gene-edited varieties including rice, cassava and sorghum. 

The government remains optimistic, presenting gene editing as a way to boost productivity and reduce reliance on food imports. Yet, questions remain over how this technology will reach farmers – and on whose terms. 

Fairness beyond technical fixes

Gene editing is often promoted as a quick technical fix for complex agricultural challenges. Yet its success and public acceptance depend on far more than science. It hinges on broader social and economic systems: who has access to seeds, who controls the knowledge and who decides which genetic changes are needed.

The 2024 study shows that many people still do not fully understand the technology.

Farmers’ unions pointed to the ‘problem of socialization’. They refer to a lack of shared understanding about the role gene technologies should play in Indonesia’s agricultural future.

They also emphasized the importance of prioritizing smallholder farmers, who continue to dominate the sector.

Gene editing may yield more drought-tolerant crops. However, it cannot resolve unequal access to land, credit and markets — the main challenges for smallholders.

A representative from a consumer association highlighted risks of ‘capital bias’. They noted that farmers could end up as company ‘employees’ rather than independent producers if they are pushed to adopt new technologies without transparent information.