NORTH AMERICA In North America, the

NORTH AMERICA In North America, the USA is one of the world pioneering countries in the exploitation of induced mutation for plant improvement and has had many extraordinary successes. Significant progress has also been reported from Canada, and more recently Mexico.
USA Wheat: Stadler, a high-yielding wheat mutant released in Missouri, had early maturity, resistance to races of leaf rust and loose smut, as well as better lodging resistance. It was once grown on two million acres annually in the USA [24]. Barley: Luther, a barley mutant, had 20% increased yield, shorter straw, higher tillering, and better lodging resistance. About 120,000 acres were planted annually in three states of the USA - a gain of an estimated 1.1 million US dollars in one year. It was used extensively in cross-breeding and several mutants were released. Pennrad, a high yielding winter barley mutant was released in Pennsylvania, had winter hardiness, early ripening and better lodging resistance. It was grown on about 100,000 ha in the USA [24]. Beans: Sanilac, a high-yielding Navy pea bean mutant cultivar, developed after irradiation with X-rays and released in Michigan, was grown on more than 87,000 ha. Similarly, about 160,000 ha were planted with common bean cultivars Gratiot and Sea-way, developed likewise by cross-breeding with a Michelite mutant [5, 24]. Rice: The semi dwarf gene allele sd1 , which was induced through Gamma-ray mutagenesis, has enabled the American version of the “Green Revolution” in rice. Details of the sd1 allele and its contribution to the rice production in the USA (as well as in Egypt and Australia) are shown in this book [26]. Two grapefruit varieties, Star Ruby and Rio Red, both developed through thermal neutron mutagenesis [27], have become a widely grown variety during the past two decades. The fruits of both cultivars are sold under the trademark ‘Rio Star.’ ‘Rio Star’ grapefruit is currently grown on 75% of the grapefruit planting area in Texas. The development of the two radiation induced mutant cultivars is considered as the most significant breakthrough in grapefruit growing in Texas since the discovery of Ruby Red in 1929 [5].
Canada Rapeseed-Canola (Double zero rapeseed): Canola is Canada’s third most important grain export, after wheat and barley. Contribution of Canola cultivars to the Canadian economy has been outstanding. In 2000, Canada planted 5,564,000 ha under canola and earned 350.5 million US dollars. Mutant cultivars with low erucic acid and very low (more than 30μm/g) glucosinolates have been developed and released in Canada [5].
The strongest modification of oil composition with induced mutations has been the development and release of linseed cultivars of the ‘linola’ type in Australia and Canada. Zero is the low-linolenic acid genotype derived by EMS (ethyl methanesulphonate) mutagenesis of the Australian linseed cultivar Glenelg and recombination of two mutated genes [28].
Mexico In Mexico, promotion of radio-induced mutation breeding started in 1974. Two new wheat varieties, ‘Centauro’ and ‘Bajio Plus,’ were derived from ‘Salamanca’ seeds irradiated at 500Gy ; they showed increased yield and tolerance to lodging. Two soybean varieties, ‘Hector’ and ‘Esperanza’, were obtained by irradiation of seeds from variety ‘Suaqui 86’ at 150Gy . These new varieties exhibit an increased yield and reduction in dehiscence and lodging, being tolerant to white fly. ‘SalCer’ is another new soybean variety obtained through irradiation of seeds from line ISAEGBM2 at 200Gy . Its improved traits are higher yields and increased height to first pod [29].
LATIN AMERICA Argentina Colorado Irradiado, a groundnut mutant with high yield and fat content, induced by X-rays, occupied more than 80% of the groundnut area (280,000 ha) in Argentina in the 1970s [Prina, A.R., Personal communication, August 2008]. Puita INTA-CL, a rice mutant with high yield and herbicide resistance, released in 2005, has occupied more than 18% of the rice growing area (32,400 ha) in Argentina since then[Prina, A.R., Personal communication, August 2008]. Also planted in Brazil, Costa Rica, Paraguay and Bolivia, this mutant variety has contributed significantly to these Latin American countries’ economies and their food security.
Cuba Rice: Attempts to obtain a rice mutant variety with good agronomical characteristics and salinity tolerance have been successful in Cuba. The first mutant released from in vitro mutagenesis using proton radiations in Cuba is ‘GINES,’ which shows the best performance under saline conditions, and has been successfully introduced in rural areas of Pinar del Rio and Havana provinces [30]. Tomato: The very first tomato mutant released in Cuba, ‘Maybel,’ has shown very high performance under drought conditions and has been introduced in rural areas of different provinces of Cuba [31].
Peru Mutation breeding has been very successfully used in breeding barley, the fourth most important food crop in terms of area in Peru. Centenario, a barley mutant with high yield (37% over the parent cultivar), earliness (18 days), higher protein (10.3%), better test weight and resistance to yellow rust, was released in 2006, is replacing the traditional cultivars of the central highlands of Peru, and contributes significantly to the food security of the country [32]. Kiwicha (A maranthus caudatus ) is a native and ancient crop of the Andean Region. Centenario (MSA-011), a mutant with high yield, earliness (45 days), tolerance to salinity, wide adaptability, better grain color and size, as well as higher market price, was released in 2006 and has covered 40% of the total Peruvian land dedicated to kiwicha crops [32].
AUSTRALIA Rice: Nine rice varieties - ‘Amaroo; (1987), ‘Bogan’ (1987). ‘Echua’ (1989), ‘Harra’ (1991). ‘Illabong’ (1993), ‘Jarrah’ (1993), ‘Langi’ (1994), ‘Millin’ (1995), and ‘Namaga’ (1997)- have been introduced in Australia. Rice mutant variety Amaroo has covered 60-70% of the rice cultivation area of Australia, and on average yielded 8.9 t/ha grain with a potential of 13.3 t/ha [33].