The averageyield advantage of hybri

The average
yield advantage of hybrids over varieties is about 10–15%.
Rice hybrids adapted to tropical conditions have been developed
at IRRI (Virmani 2003) and by the national programmes of most
of the countries in tropical Asia but have met with limited success.
At present, only about 2 million hectares are planted to hybrid rice
outside of China. Main reason for lack of success of hybrids on
large-scale adoption is limited yield advantage of hybrids over
varieties. Most of the breeding programmes in tropics have utilized
the indica germplasm in hybrid development, which has limited
genetic diversity. However, magnitude of heterosis is related to
genetic diversity. In their super hybrid breeding programme,
Chinese scientists have developed parental lines with variable
amount of japonica alleles in otherwise indica background. These
hybrids have better heterosis. In this context, use of NPT-IJ lines
in the breeding programme for hybrid development should help
improve the heterosis. In the United States, two-line hybrids have
been produced using temperature-sensitive male sterile lines. Male
sterile female lines are tropical japonicas and restorers are indicas.
These hybrids are reported to have as much as 25% yield
advantage over varieties.
Chinese Scientists under the leadership of Professor Yuan
Long Peng initiated super hybrid rice breeding programme for
improving the level of heterosis. Like the NPT breeding
programme, they proposed the following ideotype (Yuan 2001).
1 Moderate tillering capacity
2 Heavy (5 g/panicle) and drooping panicles at maturity
3 Plant height slightly taller (about 100 cm)
4 Top three leaves with following characteristics:
• Flag leaf length about 50 and 55 cm for the second and
third leaves. All three leaves should be above panicle
height
• Should remain erect until maturity. Leaf angles of flag,
2nd and 3rd leaves should be 5, 10 and 20°, respectively.
• Should be narrow and V shaped (2 cm when flattened)
• Should be thick and dark green
• Leaf area index (LAI) of top three leaves should be about
6.0
5 HI of 0.55
Many hybrids of this ideotype have been developed by
Chinese breeders.
Exploiting the Wild Species Germplasm
Crop gene pools can be widened through hybridization of crop
varieties with wild species, weedy races as well as intra-subspecific
crosses. Such gene pools can be exploited for improving
many traits including yield. For example, Lawrence and Frey at
the Iowa State University reported that a quarter of BC2-BC4
segregants between cultivated Avena sativa and wild Avena
sterilis crosses were significantly higher in grain yield than the
cultivated recurrent parent. Nine lines in this study when tested
over years and sites had agronomic traits similar to the recurrent
parent and 10–29% higher grain yield (Lawerence and Frey
434 G. S. KHUSH
1976). Xiao et al. (1996) reported that some backcross
derivatives from a cross between an Oryza rufipogon accession
from Malaysia and cultivated rice out yielded the recurrent parent
by as much as 18%. They identified two QTL from wild species,
which contributed to yield increase. NERICA rices developed at
WARDA through interspecific hybridization between tropical
japonica variety ‘Morobrekan’ and an accession of Oryza glaberrima
have higher yield and wide adaption to African environment.
Dr Brar and his colleagues at IRRI have developed
numerous breeding lines with improved yield potential from
crosses between elite breeding lines and wild species of Oryza.