1. Magnetic resonance imaging of sugar beet taproots in soil reveals growth reduction and morphological changes during foliarCercospora beticolainfestation
- Author
-
Ulrich Schurr, Fabio Fiorani, Dagmar van Dusschoten, Marcus Jansen, Siegfried Jahnke, Simone Schmittgen, Ralf Metzner, and Uwe Rascher
- Subjects
magnetic resonance imaging (MRI) ,Physiology ,Taproot ,Plant Science ,Plant Roots ,Ascomycota ,Cercospora ,Leaf spot ,Cercospora leaf spot ,Cambium ,Plant Diseases ,morphological taproot changes ,biology ,Inoculation ,fungi ,non-invasive phenotyping ,food and beverages ,Cercospora beticola ,biology.organism_classification ,Magnetic Resonance Imaging ,Plant Leaves ,Fungicide ,ddc:580 ,Agronomy ,Sugar beet ,Beta vulgaris ,Research Paper - Abstract
Highlight By employing magnetic resonance imaging to study below-ground sugar beet development, early changes in taproot growth and anatomy could be correlated with the first symptoms of Cercospora leaf spot disease., Cercospora leaf spot (CLS) infection can cause severe yield loss in sugar beet. Introduction of Cercospora-resistant varieties in breeding programmes is important for plant protection to reduce both fungicide applications and the risk of the development of fungal resistance. However, in vivo monitoring of the sugar-containing taproots at early stages of foliar symptoms and the characterization of the temporal development of disease progression has proven difficult. Non-invasive magnetic resonance imaging (MRI) measurements were conducted to quantify taproot development of genotypes with high (HS) and low (LS) levels of susceptibility after foliar Cercospora inoculation. Fourteen days post-inoculation (dpi) the ratio of infected leaf area was still low (~7%) in both the HS and LS genotypes. However, during this period, the volumetric growth of the taproot had already started to decrease. Additionally, inoculated plants showed a reduction of the increase in width of inner cambial rings while the width of outer rings increased slightly compared with non-inoculated plants. This response partly compensated for the reduced development of inner rings that had a vascular connection with Cercospora-inoculated leaves. Hence, alterations in taproot anatomical features such as volume and cambial ring development can be non-invasively detected already at 14 dpi, providing information on the early impact of the infection on whole-plant performance. All these findings show that MRI is a suitable tool to identify promising candidate parent lines with improved resistance to Cercospora, for example with comparatively lower taproot growth reduction at early stages of canopy infection, for future introduction into breeing programmes.
- Published
- 2015
- Full Text
- View/download PDF