university of idaho

U.S. airline carriers collectively used more than 16 billion gallons of jet fuel in 2014. Given growing concerns over energy independence and the environment, commercial airlines are looking for secure and reliable alternative jet fuels that reduce global emissions.

To address this problem, researchers at Washington State University formed the Northwest Advanced Renewables Alliance (NARA) with biofuels company Gevo, Alaska Airlines, and several other partners across academia, industry, and government. As a result of NARA’s efforts, made possible by a $39.6 million grant from the USDA’s National Institute of Food and Agriculture (NIFA), Alaska Airlines is planning to use 1,000 gallons of NARA-produced biofuel in a demonstration flight scheduled for 2016.

This post is part of the Science Tuesday feature series on the USDA blog. Check back each week as we showcase stories and news from USDA’s rich science and research portfolio.

Indigenous people of the Andes Mountains in South America have farmed the nuña bean (a.k.a. “Peruvian Popping bean”) as a staple crop for centuries. Its colorful, nutty-flavored seed is especially prized for its tendency to pop open when roasted—a cooking method that requires less firewood than boiling in fuel-scarce regions.

At the Agricultural Research Service’s Western Regional Plant Introduction Station in Pullman, Washington, plant geneticist Ted Kisha curates an edible dry bean collection that includes 91 accessions of high-altitude nuña beans grown by Andean farmers in Peru, the origin for this legume member of the Phaseolus vulgaris family.

After searching 15 years for a way to combat a devastating disease among salmonids (salmon and trout), researchers at Washington State University (WSU) and the University of Idaho (UI) found an answer inside the fish itself.

Dr. Kenneth Cain’s team at UI’s Aquaculture Research Institute cultured a bacteria from the fish’s gut (designated Enterobacter C6-6) and found that it inhibited the growth of Flavobacterium psychrophilum, the organism that causes Coldwater Disease.

Cain and Dr. Douglas Call, his WSU-based research partner since 2001, found that by adding C6-6 to fish feed as a probiotic they could limit the damage caused by Coldwater Disease – but they’re not quite sure why.  “We know that C6-6 produces a toxin,” Call said.  “This toxin kills the bacteria although we’re trying to get more funding to figure out how this works in the fish itself.”