The level of relatedness affects self/nonself discrimination in<i>Eucalyptus urophylla</i>seedlings

Bertoli, Suzana Chiari; Neris, Daniel Moreira; Sala, Hélida Regina; Vieira, Willyam de Lima; Souza, Gustavo Maia

doi:10.1139/cjfr-2019-0376

Cited by 3 publications

(1 citation statement)

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“…The related neighbourhood reduced the growth of the roots and above-ground parts, what has not been observed in unrelated neighbours. Bertoli et al (2020) demonstrated that the ability to recognise related plants exists when analysing eucalyptus (Eucalyptus urophylla; Myrtaceae) seedlings. They found an inverse relationship: competition with individuals from other populations or half-siblings limited growth but not the competition with clonal specimens.…”

Section: Interactions With Microorganismsmentioning

confidence: 99%

Split-root system as a useful tool to study woody plant biology

Giertych

Leski

2023

Plant Soil

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The split-root system technique has been used to analyse plant biology for several decades, but woody plants have not received enough attention in this experimental approach. Historically, several methods have been developed, ranging from the simplest method of dividing a root into two parts and placing them in separate containers to more complex methods, such as grafting a second root from another plant. Each method has advantages and disadvantages that determine the goals of the experiment. Thus far, research using the split-root system has covered only 62 species of woody plants, mainly to investigate the water shortage effect on water acquisition. Many studies have also considered the significance of functional root-system diversity for plant fertilisation, which allows a better understanding of ion transport regulation mechanisms and some anatomical and functional features of woody plants. Ion uptake and transport have been studied frequently using isotope labelling. The split-root system method also offers interesting possibilities for studying the interactions of plants with other organisms. For example, this method was used to study root colonization strategies by mycorrhizal fungi. The comprehensive analysis of the split-root system technique in this review provides fine-scale information on the future concepts needed to study root-system biology, as the ability of roots to play a range of functions in the plant remains largely untested.

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Section: Interactions With Microorganismsmentioning

confidence: 99%