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Every Crop Needs Its Wild Relatives

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  • Every Crop Needs Its Wild Relatives

    ENN
    Environmental News Network

    Every Crop Needs Its Wild Relatives

    >From UN Environment Programme
    Monday, June 28, 2004

    COLOMBO/NAIROBI/ROME, 28 June 2004 -- A project aimed at boosting the
    conservation and use of the wild living relatives of some of the world's key
    crops is being launched today.

    The project, bringing together the biologically rich countries of Armenia,
    Bolivia, Madagascar, Sri Lanka and Uzbekistan, aims to improve key features
    of traditional crops, ranging from their economic and nutritional value to
    their ability to naturally fight disease.

    The importance of conserving wild crop relatives as future sources of novel
    traits is highlighted by recent developments with the tomato. An increase of
    0.1 per cent in the solid content of this fruit is worth around $10 million
    a year to processors in California.

    One wild living tomato has allowed plant breeders to boost, by 2.4 per cent
    or $250 million annually, the level of solids in commercial varieties.

    Meanwhile, three different wild peanuts have been used to breed commercial
    varieties resistant to root knot nematodes. It is helping to save peanut
    growers around the world an estimated $100 million a year.

    Researchers believe the new project, which is co-funded by the Global
    Environment Facility (GEF), will play its part in fighting hunger and
    improving the livelihoods of farmers across the globe.

    The project, called "In Situ Conservation of Crop Wild Relatives through
    Enhanced Management and Field Application", is being launched today in
    Colombo, Sir Lanka, by the International Plant Genetic Resources Institute
    (IPGRI) in collaboration with the United Nations Environment Programme
    (UNEP) and national and international partners. (See notes to editors.)

    It comes at a time of increasing concern over the loss of these precious
    genetic resources. For example, more than one in 20 of the species of
    Poaceae, the botanical family that includes cereal crops such as wheat,
    maize, barley and millet, are threatened with extinction from deforestation,
    habitat loss and intensive agriculture.

    Forests are rich in wild plants that may be new sources of novel genetic
    traits for improved crops including coffee, mango and rubber. During the
    1990s, 94 million hectares, or 2.4 per cent of total forest cover, was lost.

    The new scheme will pool existing information from a wide variety of sources
    on crop wild relatives in each of the five countries. An information
    exchange network will be set up allowing scientists and breeders to pinpoint
    promising traits for improving crop production. The project will pinpoint
    ways on how to best conserve the rich genetic resources of the countries
    concerned.

    The project will enhance conservation measures already undertaken and make
    available resources in order to build upon these. For example, Sri Lanka has
    carried out several actions to conserve crop wild relatives and raise
    awareness of their importance, but has no national strategy.

    Armenia and Uzbekistan have surveyed their crop wild relatives and created
    limited protected areas at least partly to conserve these plants. For
    example, Armenia's Erebuni Reserve is one of the few in the world
    deliberately established to conserve the wild living relatives of a key
    crop, in this case wild wheats.

    Bolivia and Madagascar need to extend surveys of where wild living crop
    relatives may be found and establish areas to protect them.


    Notes to Editors

    Some examples of the value of crop wild relatives Crop wild relatives make a
    huge contribution to plant breeding. It is estimated that between 1976 and
    1980, wild relatives contributed approximately $340 million per year in
    yield and disease resistance to the farm economy of the United States alone.

    In addition, improvements in molecular technology have made it easier and
    quicker to identify useful traits in wild relatives and to develop new and
    improved varieties.

    Wild relatives have increased the productivity of globally important crops
    such as barley, maize, oats, potatoes, rice and wheat.

    Breeders have also used them to boost the nutritional value of foods. For
    example, the high anti-cancer properties found in some varieties of broccoli
    originated in a Sicilian wild relative.

    Wild relatives have provided traits such as disease resistance, tolerance to
    extreme temperatures, tolerance to salinity (from a wild relative growing in
    the Galapagos Islands) and resistance to drought. They have also helped
    increase the nutritional value of the cultivated tomato by providing more
    Vitamin C and beta-carotene. One wild relative has made it possible to
    increase the solids content of the tomato by 2.4% worth $250 million a year
    in the state of California alone.

    Nutritional value By crossing cultivated broccoli with a wild Sicilian
    relative, scientists are breeding a variety that contain higher levels of
    the cancer fighting chemical, sulforaphane, an anti-oxidant that destroys
    compounds that can damage DNA. The new variety of broccoli contains 100
    times more sulforaphane.

    Wheat is the staple food for approximately one in three of the world's
    population. But diets based solely on cereals lack important nutrients such
    as iron, zinc and vitamin A.

    A wild relative of wheat, Triticum turgidum var dicoccoides, from the
    Eastern Mediterranean, was used to increase the protein content of bread and
    durum wheat. The International Centre for the Improvement of Wheat and Maize
    (CIMMYT) has shown that other wild relatives of wheat have up to 1.8 times
    more zinc and 1.5 times more iron in their grains than ordinary wheat and
    could be used to improve levels of these minerals in wheat varieties.

    Disease resistance In the 1970s an outbreak of grassy stunt virus devastated
    the rice fields of millions of farmers in South and South-East Asia. The
    virus, transmitted by the brown plant hopper, prevents the rice plant from
    producing flowers and grain.

    Scientists from the International Rice Research Institute (IRRI) screened
    more than 17,000 cultivated and wild rice samples for resistance to the
    disease.

    A wild relative of rice, Oryza nivara, growing in the wild in Uttar Pradesh
    was found to have one single gene for resistance to the grassy stunt virus.
    This gene is now routinely incorporated in all new varieties of rice grown
    across more than 100,000 km2 of Asian rice fields.

    Apart from UNEP, GEF and the IPGRI, the other agencies involved are the
    Botanic Gardens Conservation International, the United Nations Food and
    Agricultural Organization, IUCN-the World Conservation Union, UNEP's World
    Conservation Monitoring Centre and ZADI, the German Centre for Documentation
    and Information in Agriculture.


    For more information, please contact:

    For UNEP: Eric Falt, Spokesperson/Director of UNEP's Division of
    Communications and Public Information, in Nairobi, on tel: +254-20-623292,
    mobile: +254-733-682656, e-mail: [email protected] or Nick Nuttall, UNEP
    Head of Media, on tel: +254-20-623084, mobile: +254-733- 632755, e-mail:
    [email protected]


    For IPGRI: Jeremy Cherfas, Public Awareness Officer, in Rome, on tel:
    +39-066118-234, e-mail: [email protected]
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