Anatomical patterns of condensed tannin in fine roots of tree species from a cool-temperate forest
| Autor: | Mizue Ohashi, Miwa Kobatake, Natsuko Tanikawa, Izuki Endo, Tatsuro Nakaji, Naoki Makita |
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| Rok vydání: | 2020 |
| Předmět: |
chemistry.chemical_classification
Herbivore biology Temperate forest Plant Science Forests biology.organism_classification Original Articles (Part of a Focus Issue on Root Biology) Plant Roots Trees Arbuscular mycorrhiza Ectomycorrhiza medicine.anatomical_structure chemistry Stele Cortex (anatomy) Mycorrhizae Botany medicine Proanthocyanidins Condensed tannin Woody plant |
| Zdroj: | Ann Bot |
| ISSN: | 1095-8290 |
| Popis: | Background and AimsCondensed tannin (CT) is an important compound in plant biological structural defence and for tolerance of herbivory and environmental stress. However, little is known of the role and location of CT within the fine roots of woody plants. To understand the role of CT in fine roots across diverse species of woody dicot, we evaluated the localization of CT that accumulated in root tissue, and examined its relationships with the stele and cortex tissue in cross-sections of roots in 20 tree species forming different microbial symbiotic groups (ectomycorrhiza and arbuscular mycorrhiza).MethodsIn a cool-temperate forest in Japan, cross-sections of sampled roots in different branching order classes, namely, first order, second to third order, fourth order, and higher than fourth order (higher order), were measured in terms of the length-based ratios of stele diameter and cortex thickness to root diameter. All root samples were then stained with ρ-dimethylaminocinnamaldehyde solution and we determined the ratio of localized CT accumulation area to the root cross-section area (CT ratio).Key ResultsStele ratio tended to increase with increasing root order, whereas cortex ratio either remained unchanged or decreased with increasing order in all species. The CT ratio was significantly positively correlated to the stele ratio and negatively correlated to the cortex ratio in second- to fourth-order roots across species during the shift from primary to secondary root growth. Ectomycorrhiza-associated species mostly had a higher stele ratio and lower cortex ratio than arbuscular mycorrhiza-associated species across root orders. Compared with arbuscular mycorrhiza species, there was greater accumulation of CT in response to changes in the root order of ectomycorrhiza species.ConclusionsDifferent development patterns of the stele, cortex and CT accumulation along the transition from root tip to secondary roots could be distinguished between different mycorrhizal associations. The CT in tissues in different mycorrhizal associations could help with root protection in specific branching orders during shifts in stele and cortex development before and during cork layer formation. |
| Databáze: | OpenAIRE |
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