Sweet potato varieties developed to increase vitamin
A
Newswise, August 12, 2015 - Vitamin A deficiency is
the leading cause of preventable blindness in children. It also increases the
risk of disease and death from severe infections, according to the World Health
Organization. About 250 million preschool children across the world are vitamin
A deficient.
Many of these live in Africa and South-Eastern Asia.
Fortunately, vitamin deficiency is preventable. In
the United States, vitamin-fortified foods, like milk and cereals, are widely
accepted. Another method, bio-fortification, is a crop-based option. This is
the process of developing nutrient-rich varieties using molecular techniques or
conventional breeding. The result is produce that provides better nutrition,
right from the field.
Bio-fortification of sweet potatoes is a promising
method to combat vitamin A deficiency in South Africa. The orange-fleshed
vegetable already contains high levels of beta-carotene, which our bodies
convert to vitamin A. Sweet potatoes are also a staple in the South African
diet.
“Sweet potato is very popular in Africa,” says
Sunette Laurie, a senior researcher with the Agricultural Research Council in
Pretoria, South Africa. In South Africa, sweet potatoes are a traditional crop
for rural families.
“We realized it would be great if we could develop a local
variety [of sweet potato] which has good yield, high dry mass, and desirable
taste attributes, and promote it to combat vitamin A deficiency,” says Laurie.
“Those traits are actually very important. Africans
prefer sweet potatoes with a higher dry matter content, a firm texture and a
sweet taste,” says Laurie. Imported varieties were too moist, too low in dry
matter content, or had low yield and could not adapt to South African growing
conditions.
“We had to start breeding projects to get the right attributes into
the varieties,” says Laurie.
Laurie and her colleagues tested 12 varieties of
sweet potatoes. Because growing conditions can vary widely, researchers planted
in three different areas: humid subtropical, drier subtropical and temperate.
“We wanted a variety that could adapt to different
climates,” says Laurie. “We were also aware of the possibility that consumers
could have different taste preferences in the different provinces.” As a
result, the researchers also set up tasting panels for the different varieties.
Two varieties, Impilo and Purple Sunset, are the
most promising. Impilo adapted well to the different growing conditions, had
acceptable dry mass, good taste, medium-sized roots for market, and a good
yield. However, its light orange flesh means less beta-carotene. Purple Sunset
is a darker-fleshed variety, but has lower yields and less adaptability to the
different growing conditions.
According to Laurie, both varieties are widely
accepted by farmers and consumers. They each go a long way in preventing
vitamin A deficiency. A 4.4-ounce serving of Impilo provides 113% of the daily
vitamin A requirement of a 4-8 year old. Purple Sunset provides 261%. A third
variety, Bophelo, has higher beta-carotene than Impilo and fares better in
taste tests.
Laurie is now involved in efforts to expand the use
of these local varieties. Processing facilities are starting to use sweet
potatoes to make flour, bread, muffins, and other products, all of which can
help combat vitamin A deficiency across the continent.
“There are so many
options,” says Laurie, “and we are trying to get international development
funds to set up more agro-processing units.”
In the meantime, Laurie and her colleagues are
continuing to breed better varieties of sweet potatoes.
“We would like to have
varieties with more tolerance--to diseases, such as leaf and stem blight, and
pests such as weevils,” she says. “Ideally we would be able to develop a
variety that resembles Bophelo with more resistance.”
The study is published in Crop Science.
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