Arcadia Biosciences launches triple stack rice

Date:02-25-2014

The U.S.-based agricultural biotechnology company Arcadia Biosciences recently announced the development of rice featuring a combination of fertilizer efficiency and stress tolerance traits. Field trials of rice incorporating the "triple-stack" technology, which includes nitrogen use efficiency (NUE), water use efficiency (WUE) and salt tolerance (ST), have shown substantial yield increases over conventional rice.

In two years of field trials, Arcadia's triple-stack rice produced yield increases of 13-18% under various nitrogen application rates, 12-17% under water stress conditions, and 15% under combined stress. Parallel trials under salt stress in greenhouse conditions showed yield increases as high as 42%. These results clearly demonstrate the ability to combine multiple efficiency and resiliency traits to develop plants with robust performance under multiple conditions. The company is developing similar trait stacks in other crucial food and feed crops, including wheat and soybeans.

As one of the world’s most widely cultivated food crops, rice plays a critical role in food security for more than half of the world’s population. In a recent report, the International Food Policy Research Institute (IFPRI) predicted that maintaining food security in the face of climate change and population growth will require a combination of technologies that target broad-based yield improvement, abiotic stresses such as heat and drought, and improved nitrogen use efficiency.

“Rice and wheat provide the foundation of nutrition for a very large portion of our global population,” said Eric Rey, president and CEO of Arcadia. “Our results with triple-stack rice clearly demonstrate the potential of developing crops with enhanced yield performance under a broad range of growing conditions. Considering the impact of climate instability on crop yields and food security, trait combinations such as Arcadia’s triple-stack technology will play a critical role in sustaining future generations.”