High-Throughput Functional Phenotyping to Elucidate Abiotic Stress Responses in Plants AG2PI Webinar

AG2PI Field Day #12 - October 20, 2021
Plant-DiTech: High-Throughput Functional Phenotyping to Elucidate Abiotic Stress Responses in Plants
A plant's stress response in its constantly changing environment is highly complex and difficult to capture under standardized and repeatable conditions. We will demonstrate how our PlantArray technology captures the plant–water balance, continuously and simultaneously, which in turn allows for customized and precise set-up of drought stress conditions per plant. The output of key physiological parameters (e.g., whole plant transpiration canopy stomatal-conductance, biomass gain, water use efficiency and root flux) allows for functional characterization of stress responses. We then used high-resolution greenhouse data to correlate to a tomato drought stress experiment in the field and obtained a high correlation between cumulative transpiration in the greenhouse and total and red fruit weight in the field experiment.

GRYFN: Multi-Modal UAS Sensing Solutions for Field Phenomics
To exceed the growing demands of a hungry and changing world, plant breeders are turning from manual phenotyping methods to sensors and automated remote sensing. Data captured via remote sensing imagery and other modalities are valuable to breeding decisions, but these new tools bring unique requirements and challenges. In collaboration with Purdue University, GRYFN was awarded a sub-award from the TERRA program to focus on these high throughput phenotyping tools. GRYFN’s solutions offer research-ready, high-precision, multi-sensor UAV-based hardware and software that enable customers to obtain repeatable research quality data. We will discuss the problems addressed for multi-sensor integration design, calibration, processing, and operations as quality systems are developed that deliver reliable, consistent, and accurate data for any research team.