Litcius/Paper detail

SeedGerm: a cost‐effective phenotyping platform for automated seed imaging and machine‐learning based phenotypic analysis of crop seed germination

Joshua Colmer, Carmel M. O’Neill, Rachel Wells, Aaron Bostrom, Daniel Reynolds, Danny Websdale, Gagan Shiralagi, Lu Wei, Qiaojun Lou, Thomas Le Cornu, Joshua Ball, Jim Renema, Gema Flores Andaluz, René Benjamins, Steven Penfield, Ji Zhou

2020New Phytologist129 citationsDOIOpen Access PDF

Abstract

Efficient seed germination and establishment are important traits for field and glasshouse crops. Large-scale germination experiments are laborious and prone to observer errors, leading to the necessity for automated methods. We experimented with five crop species, including tomato, pepper, Brassica, barley, and maize, and concluded an approach for large-scale germination scoring. Here, we present the SeedGerm system, which combines cost-effective hardware and open-source software for seed germination experiments, automated seed imaging, and machine-learning based phenotypic analysis. The software can process multiple image series simultaneously and produce reliable analysis of germination- and establishment-related traits, in both comma-separated values (CSV) and processed images (PNG) formats. In this article, we describe the hardware and software design in detail. We also demonstrate that SeedGerm could match specialists' scoring of radicle emergence. Germination curves were produced based on seed-level germination timing and rates rather than a fitted curve. In particular, by scoring germination across a diverse panel of Brassica napus varieties, SeedGerm implicates a gene important in abscisic acid (ABA) signalling in seeds. We compared SeedGerm with existing methods and concluded that it could have wide utilities in large-scale seed phenotyping and testing, for both research and routine seed technology applications.

Topics & Concepts

GerminationRadicleBiologyCropAgronomyAbscisic acidMachine learningArtificial intelligenceComputer scienceGeneBiochemistrySeed Germination and PhysiologyLeaf Properties and Growth MeasurementPlant nutrient uptake and metabolism
SeedGerm: a cost‐effective phenotyping platform for automated seed imaging and machine‐learning based phenotypic analysis of crop seed germination | Litcius