Using cutting edge genomic tools to dissect the molecular control of hybrid vigour in cereals. Hybrid cereals grow in a wide range of environments, require less water and produce more grain from less land. This project will generate an enhanced capacity to rapidly develop new hybrid cereal varieties. The Australian community will benefit by having enhanced food security using less water and less land. The Australian community will also benefit because land and water will be released to the envir ....Using cutting edge genomic tools to dissect the molecular control of hybrid vigour in cereals. Hybrid cereals grow in a wide range of environments, require less water and produce more grain from less land. This project will generate an enhanced capacity to rapidly develop new hybrid cereal varieties. The Australian community will benefit by having enhanced food security using less water and less land. The Australian community will also benefit because land and water will be released to the environment, or to support other industries and their communities, or to grow other crops. The wide environmental adaptation of these hybrid cereals will allow the Australian community to respond flexibly to adverse climatic changes. Read moreRead less
Biofertiliser technology for improved yields and environmental sustainability of rice and wheat crops. Australia faces the double challenge of improving the efficiency of its crop production while minimising the agricultural impact on its fragile biodiversity. Our project will meet this challenge by providing the technology for using natural biofertilisers in cereal crops. This will reduce our heavy reliance on chemical fertilisers - with associated soil loss, salinity and acidity, and high dema ....Biofertiliser technology for improved yields and environmental sustainability of rice and wheat crops. Australia faces the double challenge of improving the efficiency of its crop production while minimising the agricultural impact on its fragile biodiversity. Our project will meet this challenge by providing the technology for using natural biofertilisers in cereal crops. This will reduce our heavy reliance on chemical fertilisers - with associated soil loss, salinity and acidity, and high demand on scarce water resources - and significantly increase our crop yields. Our advances will help Australian farmers to reduce the costs and increase the productivity of our substantial export crops while improving their environmental sustainability.Read moreRead less
Mining the rice genome for alleles of value in rice improvement. Food production and quality are determined by the varieties of food plants that are used in agriculture. A high quality rice genome sequence became available in 2005. This project will mine the data in the sequence to identify genes associated with key production and quality traits. New technologies and strategies will be developed and applied. The discoveries will be of value for the model crop, rice and for other cereal and foo ....Mining the rice genome for alleles of value in rice improvement. Food production and quality are determined by the varieties of food plants that are used in agriculture. A high quality rice genome sequence became available in 2005. This project will mine the data in the sequence to identify genes associated with key production and quality traits. New technologies and strategies will be developed and applied. The discoveries will be of value for the model crop, rice and for other cereal and food crops. Human health benefits from the availability of technologies to combine desirable nutritional traits and attractiveness to humans. This ensures healthy foods will be produced and consumed.Read moreRead less