- Author: Emily C. Dooley, UC Davis
The findings could help growers produce more wheat without expanding operation
A team of scientists from University of California, Davis, have identified a new gene variant in wheat that can increase the amount of the grain produced, new research published in the journal PLOS Genetics finds.
Wheat is a staple of food diets worldwide and the gene discovery could allow farmers to grow more food without increasing land use. Increased yield could also lower consumer prices, making the crop more accessible.
“We have a growing human population that.../h2>
- Author: Jeannette E. Warnert
To the tune of Mary Hopkin's iconic 60s hit, Those Were the Days, a team of UC animal scientists ask whether those bygone times people remember nostalgically would be up to the challenge of feeding the world today.
"People have a romantic image of farming in the past," said Alison Van Eenennaam, UC Cooperative Extension specialist in the UC Davis Department of Animal Science. "It may be remembered as bucolic, but there wasn't enough food being produced to cope with world population growth."
Van Eenennaam, an expert in animal genomics and biotechnology, rewrote the song and posed the question, Were those the days?, with historical photos of Americans...
- Author: Iqbal Pittalwala
On the Jeopardy show, the clues could easily be: “It’s new and attractive. It’s juicy and sweet. And it’s low-seeded and peels easily.”
To which the answer would be, “What is ‘KinnowLS’?”
‘KinnowLS’ – the LS is short for low seeded – is the latest citrus variety released by researchers at the University of California, Riverside.
Large-sized for a mandarin, the fruit has an orange rind color. The rind is thin and extremely smooth. The 10-11 segments in each fruit are fleshy and deep orange in color.
‘KinnowLS’ matures during February through April, and does well in hot climates. It was developed by mutation breeding of the mandarin cultivar ‘
- Author: Janet Byron
By assigning a simple, 15-digit identification number to cows, UC researchers can track each one from conception to carcass, garnering valuable data for studies on cattle fertility, genetics, and health, and helping to select breeding animals with desirable beef characteristics such as flavor and tenderness.
In today’s beef market, an individual cow may change ownership many times during its lifetime as it travels from the ranch of its birth, to stocker and feedlot, to slaughterhouse, and finally supermarket or steakhouse. In the process, valuable data is lost along with the ability to “trace back” particular steaks to the original cow.
For several years, UC Davis researchers have been attaching a round, electronic ear...