Division of Agriculture and Natural Resources
Division of Agriculture and Natural Resources
Division of Agriculture and Natural Resources
University of California
Division of Agriculture and Natural Resources

New GMO alfalfa holds exciting possibilities, UC expert says

Growers can produce more nutritious alfalfa using new low-lignin variety, says UCCE's Dan Putnam.
Good news for dairy cows. Science has found a way to produce alfalfa with less lignin, a component of the plant that has no nutritional value. The new alfalfa variety – genetically modified in a way that puts brakes on the lignin-producing gene – was deregulated by USDA in November.

“In general, a reduced lignin trait in alfalfa is very welcome,” said Dan Putnam, UC Cooperative Extension specialist in the Department of Plant Sciences at UC Davis. “The low-lignin trait has some interesting potential implications for dairy cows and other ruminants, as well as for yield, agronomic efficiency, and even energy and water use efficiency.”

The new variety, called KK179, was developed by Forage Genetics International, Monsanto and the Nobel Foundation. Some of the field testing took place at UC Davis and the UC Intermountain Research and Extension Center in Tulelake, Calif.

KK179 differs from most other GMO agricultural crops in that the modification improves the plant quality. Other common modifications, such as glyphosate resistance and addition of a Bt gene, were designed to help with pest control.

Another difference is the source of the modified gene, Putnam said. In glyphosate-resistant (Roundup Ready) alfalfa, for example, the plant was modified by inserting a bacteria gene. Gene segments reducing lignin were derived from alfalfa itself.

Lignin is a fibrous part of cell walls in plants. It strengthens stems, helping the plant grow upright. However, its concentration in alfalfa is high compared to other forages, a drawback for what is considered the premiere forage of dairy cows.

“Farmers often try to cut early to reduce lignin,” Putnam said. “Unfortunately, yields are decreased by early cutting, often by many tons per acre. If growers were able to harvest later and still obtain good quality, yields would improve.”

That leads to the potential energy- and water-conserving aspects of the KK179 alfalfa.

“If growers reduce harvests by one each year and increase yields with no quality penalty, energy use would decline,” Putnam said. “Also, the amount of milk produced per unit of water used to grow the feed may be increased.”

KK179 won't be for everybody, Putnam cautions. Some export markets reject GMO technology, so growers should check whether their markets will accept alfalfa with the low-lignin trait. Another concern is the possibility of gene flow for farmers who grow alfalfa seed for organic production or export.

“Further research and experience by farmers and researchers are needed to fully understand the importance and implications of reduced-lignin alfalfa on farms,” Putnam said, “but this trait holds some very exciting possibilities.”

An initiative to enhance competitive and sustainable food systems is part of the UC Division of Agriculture and Natural Resources Strategic Vision 2025

Posted on Tuesday, December 16, 2014 at 8:13 AM
Tags: alfalfa (19), Dan Putnam (16), GMO (19)

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