Researchers in Australia have developed a form of salt-tolerant wheat that could help address the global food crisis by allowing farmers to grow crops in soil with high salinity, Inhabitat reports.
They created the new
form of wheat by crossing a modern strain with an ancient species, a pairing
that resulted in a hearty new kind of plant that can withstand soil that most
commercial forms of wheat can’t survive in. The researchers believe this new
super-wheat will allow farmers to grow more food crops on land previously
thought to be off limits to agriculture.
Read the article HERE.
The wheat was developed using
non-genetically modified crop breeding techniques — think good old fashion
genetics, no DNA splitting involved — and was revealed in an article in the
journal Nature Biotechnology. The research was completed by a team at the
University of Adelaide in Australia and the group says they are the first in
the world to prove the development of a salt-tolerant agricultural crop.
“This work is significant as salinity
already affects over 20 percent of the world’s agricultural soils, and salinity
poses an increasing threat to food production due to climate change,” said Dr
Rana Munns, one of the researchers in the project.
“Salinity is a particular issue in the
prime wheat-growing areas of Australia, the world’s second-largest wheat
exporter after the United States. With global population estimated to reach
nine billion by 2050, and the demand for food expected to rise by 100 percent
in this time, salt-tolerant crops will be an important tool to ensure future
food security.”
Most plants have no salt tolerance and thus
rising sea levels could spell disaster for global crops. As the global ice caps
melt and sea levels rise, salty sea water mixes with fresh water sources on
land and seeps into soil causing plants normally grown there to perish.
“The salt-tolerant gene (known as
TmHKT1;5-A) works by excluding sodium from the leaves. It produces a protein
that removes the sodium from the cells lining the xylem, which are the ‘pipes’
plants use to move water from their roots to their leaves,” said lead
researcher Dr Matthew Gilliham. The researchers are now working to use their
breeding process to develop a salt-tolerant strain of bread wheat.
Read the article HERE.
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