Setup: Six polytunnels, divided into 16 plots for a total of 96 experimental planting areas.
In a new project funded by Meat and Livestock Australia's MLA Donor Company, Western Sydney University is investing in the construction of new pasture research infrastructure to gain insights into the outcomes and performance of grass and legume pasture systems as Australia's climate becomes warmer, with more variable rainfall and operating environments become less certain.
Within the PAstures and Climate Extreme (PACE) research program, researchers will be testing combinations of plant species, rainfall additions or exclusions (drought), warming from infra-red heat lamps and the performance of pasture systems under future predicted climate scenarios.
Construction of the new infrastructure commenced in November 2016 with the installation of new electrical lines, and commencement of the new rainfall exclusion shelters, root-separation barriers and site layout.
Impacts of Rainfall and Temperature Extremes On Pasture Systems
Grasses and legumes are the primary foodstock for the meat and dairy industries, with an estimated value of more than $16.5 billion in cattle, sheep, wool, dairy and meat production (Australian Bureau of Statistics). The sustainable management of grazing systems depends on the availability of high-quality forage, year-round.
A key question facing the industry is how will predicted climate scenarios affect the productivity, quality and resilience of pasture systems in coming decades. According to the IPCC Report (2013), Australia will experience more severe and frequent heatwaves, greater frequency and longer droughts, and increased flooding periods. These events will be marked by greater climate variability, including:
- Longer periods between rainfall events
- Changes in the seasonality of rainfall
- Record-breaking temperatures
- Unprecedented combinations of temperature and water stress
The net effect of these predictions is that our perception of 'extreme' production conditions in 2016 is likely to be considered 'normal' by 2050 or earlier.
Developing Adaptation Strategies
The new PACE facility and research program will enable us to 'stress-test' different combinations of plant species, including, combinations of C3 and C4 grasses, and legumes by exposing them to increased or reduced rainfall, increased temperatures, drought or periodic flooding, or any number of other scenarios.
The plantings will also investigate the important roles of soil microbes in pasture ecosystems. Our ongoing research from across the Institute on soil biology, insect-plant interactions and climate impacts on plants and animals supports this new research direction, offering the grazing and dairy industries new ways to proactively manage the impacts of climate change and extreme events on the feedbase that underpins their success.
The PACE Newsletters
The PACE Experimental Planting Trials
The polytunnels prevent natural rainfall from reaching the experimental plots so that we can apply rainfall according to exact scenarios.
The experimental plots include Biserrula, lucerne, rye grass, Phalaris and a mix of other grasslands and grazing species.
Biomass harvesting enables us to connect the water treatments with eventual yields so that we can estimate performance under future climates.
The PACE facility and research program is funded by Meat and Livestock Australia and Dairy Australia with co-investment from Western Sydney University.