Abstract
Soil fungi establish mutualistic interactions with the roots of most vascular land plants. Arbuscular mycorrhizal (AM) fungi are among the most extensively characterised mycobionts to date. Current approaches to quantifying the extent of root colonisation and the abundance of hyphal structures in mutant roots rely on staining and human scoring involving simple yet repetitive tasks which are prone to variation between experimenters. We developed Automatic Mycorrhiza Finder (AMFinder) which allows for automatic computer vision-based identification and quantification of AM fungal colonisation and intraradical hyphal structures on ink-stained root images using convolutional neural networks. AMFinder delivered high-confidence predictions on image datasets of roots of multiple plant hosts (Nicotiana benthamiana, Medicago truncatula, Lotus japonicus, Oryza sativa) and captured the altered colonisation in ram1-1, str, and smax1 mutants. A streamlined protocol for sample preparation and imaging allowed us to quantify mycobionts from the genera Rhizophagus, Claroideoglomus, Rhizoglomus and Funneliformis via flatbed scanning or digital microscopy, including dynamic increases in colonisation in whole root systems over time. AMFinder adapts to a wide array of experimental conditions. It enables accurate, reproducible analyses of plant root systems and will support better documentation of AM fungal colonisation analyses. AMFinder can be accessed at https://github.com/SchornacklabSLCU/amfinder.
Highlights
Soil fungi establish mutualistic interactions with the roots of > 85% of vascular land plants (Brundrett & Tedersoo, 2018)
We trained the AMFinder convolutional neural networks (CNNs) using images of ink-stained roots of N. benthamiana plants inoculated with R. irregularis (Fig. 2a,b; Tables 1, 2)
We showcased the usefulness of CNN2 by quantifying intraradical hyphal structures on whole root systems harvested at 2, 3 and 4 wpi (Fig. 5f). These results demonstrate that AMFinder allows for in silico quantification of arbuscular mycorrhiza (AM) fungal colonisation of plant roots over time, including in whole root systems
Summary
Soil fungi establish mutualistic interactions with the roots of > 85% of vascular land plants (Brundrett & Tedersoo, 2018). These interactions, termed mycorrhizas, lead either to the formation of a dense hyphal sheath surrounding the root surface (ectomycorrhizas) or to fungal hyphae penetrating host tissues (endomycorrhizas) (Brundrett, 2007). Arbuscular mycorrhizal fungal hyphae grow toward plant roots following the exchange of diffusible chemical cues (Luginbuehl & Oldroyd, 2017). At root surface penetration points, hyphae differentiate into swollen or branched structures termed hyphopodia. Following entry and crossing of the root epidermis, hyphae spread between cortical cells (Arum-type colonization) or via intracellular passages of cortical cells (Paris-type colonization)
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