Start date: 1/03/2024
Finish date: 1/03/2029
Description:
This project aims to overcome the field phenotyping bottleneck for impactful root traits that limits the capacity of breeders and agronomists to achieve step gains in crop productivity, by selecting genotypes and precision agronomic interventions that increase drought tolerance in wheat and sorghum.
Previous root phenotyping approaches using pots, root chambers or tubes have struggled to functionally relate root structure traits with root function, yield and yield stability. This project integrates the new functional high throughput phenotyping (HTP) approach for valuable root traits in the field, within the trait pipeline approach applied in pre-breeding and large multinational seed companies, where there is simultaneous development of screening methods and evaluation of trait value in relevant germplasm.
Additionalities are the scaling of the developed tools to inform agronomic research, and precision agriculture applications with the participating service providers. A key focus is to develop functional high-throughput in-field root phenotyping tools for traits that are valuable, show genetic diversity and agronomic application, and that will contribute to yield and yield stability.
This project is led by UQ, with collaborative research activities conducted by UQ, DPIRD and CSIRO. Seed companies and precision agriculture companies are actively involved in the project.
Funding partner:
GRDC