The Australian Plant Phenomics Facility (APPF) is pleased to announce the new DroughtSpotter precision irrigation platform has been fully tested and commissioned, and is now ready to support your plant phenomics research.
The DroughtSpotter is a gravimetric platform with precision irrigation allowing accurate and reproducible water application for drought stress or related experiments.
A number of pilot projects were carried out to test the platform with excellent results.
Monash University researchers, led by Associate Professor Ros Gleadow, investigated the impacts of dhurrin (a chemical that is toxic to grazing animals) on drought tolerance in sorghum plants. Plants were grown under a range of drought stresses and then harvested throughout growth for biomass characterisation, metabolomics and transcriptomic responses.
“We found the DroughtSpotter to be an excellent platform to apply accurate, reproducible amounts of water to large numbers of individual plants for growth and compositional analysis under different levels of water limitation,”said Associate Professor Gleadow.
Led by Professor Steve Tyerman, researchers from the ARC Centre of Excellence in Plant Energy Biology at the University of Adelaide and TA EEA-CONICET Mendoza, Argentina investigated the relationship between hydraulic and stomatal conductance and its regulation by root and leaf aquaporins under water stress.
“A better understanding of these mechanisms is highly relevant to irrigation scheduling and to ensure sustainable vineyard management in a context of water scarcity” said Professor Tyerman.
“The DroughtSpotter platform allowed us to achieve precise control over soil moisture and vine water stress, which was the most critical aspect to the success of this project.”
To read the DroughtSpotter pilot project reports: “Drought Response in Low-Cyanogenic Sorghum bicolor Mutants” and “Investigating the relationship between hydraulic and stomatal conductance and its regulation by root and leaf aquaporins under progressive water stress and recovery, and exogenous application of ABA in grapevine”