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  • 08.18.10

Pamela Ronald Has Developed a More Flood-Tolerant Rice

Image Credit: travlinman43

About half the world’s population eats rice daily. It’s one of the globe’s most important food staples, said plant geneticist Pamela Ronald. But, she added, around 25% of that rice is grown in flood-prone regions.

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Pamela Ronald: Rice plants will die if they’re completely submerged for more than 3 days, and this is a big problem in South and Southeast Asia, where farmers rely on the crop to feed their families.

Ronald, of California’s UC Davis, has been working for the last 15 years to isolate the gene for flood tolerance in rice. Five years ago she finally found the gene, and a collaborator at the International Rice Research Institute in the Phillipines inserted it into varieties of rice typically grown in Asia.

The new varieties of rice can withstand up to about 17 days of flooding.

The rice has the same taste, feel, and harvest schedule as traditional rices. Ronald believes that’s one reason farmers–who themselves did extensive field tests of the rice in India and Bangladesh–are now using it.

It’s estimated that something like 2 billion very poor farmers live in these flood prone areas and 75 million live on less than a dollar a day, so even a small change in the quantity of grain that can be harvested can have a huge impact on these families’ lives.

Ronald added her new rice yields about five-fold more grain under conditions of flooding. She’s now working on creating a rice with enhanced resistance to disease–a major cause of crop loss worldwide. Ronald noted it’s expected that flooding in these areas will be exacerbated, due to climate change.

She also explained how genetic engineering worked, in this particular case.

Genetic engineering is a tool that virtually all plant biologists use. It’s a really useful tool we use in the lab to prove whether we have the right gene or not. So what we do is we isolate big chunks of the rice genome and then we identify all the genes in that region and then we were able to predict which gene we thought had this important trait. And we used this tool in my lab to show that we could generate a genetically engineered plant by showing that we could create a single gene that had this quality.

Then that information was used by the breeders in the Philippines.

They used another approach which is sort of a hybrid between genetic engineering and conventional breeding. To do this, they start with a conventional pollination approach, but then they use what we call ‘molecular markers’ to be sure they use a very small number of genes. With this precision breeding technique, you cannot usually introduce one gene.

Ronald pointed out that sometimes unintended consequences occur, but she said most of them are positive or neutral.

This has always been the case for the last 10,000 years. Everything that we eat today has been improved through some sort of breeding process. Anytime you do this, you introduce not only the genes that you know, but some that are not characterized. Some of the risks with conventional breeding are that you introduced genes with unintended consequences. And there was an unintended consequence which is that the variety that the farmers normally eat called Swarna, the hull is very, very gold. Interestingly enough, the new variety developed during this precision breeding approach is slightly less gold. So it changed the color of the grain. That is an example of an unintended consequence. Of course, not that many people would consider this a risk to human health, but this is an example of the types of things that can occur.

Written by Beth Lebwohl
Image Credit: travlinman43.

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Pamela Ronald

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