Add to ORKGAn Australian native grass, Microlaena stipoides, has been targeted for accelerated domestication utilising a combination of mutation breeding and high throughput genomics. In its natural environment, ecotypes of M .stipoides have shown tolerances to a suite of Australia\u27s environmental challenges including drought, frost, shade, salinity and acid soil. M .stipoides is a perennial species with high water use efficiency and once established becomes a zero-till crop
Climate change in Australia is expected to influence crop growing conditions through direct increase...
Perennial wheat could improve grain production systems in Australia by rectifying many environmental...
A novel strategy linking physiology with plant breeding, molecular biology and computer simulation m...
Global cereal production is sourced from approximately only 0.2% of the world’s grass (Poaceae) spec...
Australia is home to 10% of the world’s 10,000 grass species (Figure 1) and yet none of the currentl...
A native Australian perennial grass has been targeted for accelerated domestication utilising a comb...
Australian grasses represent a significant and diverse resource that has not been subjected to domes...
Global food demand, climatic variability and reduced land availability are driving the need for dome...
<div><p>Global food demand, climatic variability and reduced land availability are driving the need ...
With global cereal production sourced from approximately only 0.2% of the world’s grass (Poaceae) sp...
Due to geographic isolation and a short agricultural history, plant species from Australia have not ...
This research investigated the potential to domesticate an Australian native grass (Microlaena stipo...
Here, we review the current genetic approaches for grass improvement and their potential for the enh...
In the low rainfall environments of Australia, yield is commonly reduced and downgrading at receival...
There is uncertainty about future climatic predictions; however there is little doubt amongst expert...
Climate change in Australia is expected to influence crop growing conditions through direct increase...
Perennial wheat could improve grain production systems in Australia by rectifying many environmental...
A novel strategy linking physiology with plant breeding, molecular biology and computer simulation m...
Global cereal production is sourced from approximately only 0.2% of the world’s grass (Poaceae) spec...
Australia is home to 10% of the world’s 10,000 grass species (Figure 1) and yet none of the currentl...
A native Australian perennial grass has been targeted for accelerated domestication utilising a comb...
Australian grasses represent a significant and diverse resource that has not been subjected to domes...
Global food demand, climatic variability and reduced land availability are driving the need for dome...
<div><p>Global food demand, climatic variability and reduced land availability are driving the need ...
With global cereal production sourced from approximately only 0.2% of the world’s grass (Poaceae) sp...
Due to geographic isolation and a short agricultural history, plant species from Australia have not ...
This research investigated the potential to domesticate an Australian native grass (Microlaena stipo...
Here, we review the current genetic approaches for grass improvement and their potential for the enh...
In the low rainfall environments of Australia, yield is commonly reduced and downgrading at receival...
There is uncertainty about future climatic predictions; however there is little doubt amongst expert...
Climate change in Australia is expected to influence crop growing conditions through direct increase...
Perennial wheat could improve grain production systems in Australia by rectifying many environmental...
A novel strategy linking physiology with plant breeding, molecular biology and computer simulation m...