Abstract
Plants belonging to Vitis vinifera varieties are usually grafted on different rootstocks to enhance the plant defenses against pathogens and increase productivity under harsh environmental conditions. Particularly, in Emilia-Romagna region (Italy), Vitis vinifera cultivar Lambrusco can be grafted on a hybrid of V. berlandieri × V. riparia (5BB) or V. berlandieri × V. rupestris (1103P). However, the latter shows potassium absorption problems, with a consequent reduction in grapevine production. Since it has recently been demonstrated that the rootstock has the potential to select for different microorganisms at the root-soil interface, here we hypothesized that the potassium deficiency of 1103P could be partially accounted for by the peculiarities of the rootstock microbiome. We thus employed 16S rRNA sequencing to compare root and rhizosphere microbiomes in plants of V. vinifera cultivar Lambrusco grafted on the two aforementioned rootstocks. According to our findings, 1103P shows a reduced diversity in root and rhizosphere microbiomes, including members of potassium-solubilizing microorganisms, possibly explaining the inadequate potassium absorption of this hybrid. Besides confirming the importance of the rootstock as a determinant of the composition of plant microbiomes, our data indicate the relevance of rootstock-selected microbiomes as possible regulators of potassium absorption by V. vinifera.
Highlights
Multicellular organisms can no longer be considered individuals by the classical definitions of the term
We worked on Vitis vinifera cultivar Lambrusco collected at Istituto d’Istruzione Superiore (IIS) Ignazio Calvi located in Finale Emilia (Modena, Italy)
We analyzed two different groups of plants grafted onto different rootstocks: eight plants of V. vinifera grafted on the hybrid V. berlandieri × V. rupestris PAULSEN 1103 (1103P) and seven plants of V. vinifera grafted on the hybrid V. berlandieri × V. riparia KOBER 5BB (5BB)
Summary
Multicellular organisms can no longer be considered individuals by the classical definitions of the term. The plant microbiota includes the microorganisms that populate the thin layer of soil adhering to the roots (named as rhizosphere), those that inhabit the root surface (rhizoplane), Rootstock Microbiome in Vitis vinifera Cultivar Lambrusco and those colonizing the root interior as well as other inner tissues of the plant (endosphere) (Kloepper et al, 1980; Kowalchuk et al, 2002; Bulgarelli et al, 2013). It is important to preserve the plant growth from any injury, in particular from the Phylloxera infection. For this reason, all Vitis vinifera varieties are cultivated as scions and grafted on rootstocks of other Vitis species (Whiting, 2003). Rootstocks are important to prevent problems due to soil conditions, such as salinity or poor mineral nutrition (Habran et al, 2016)
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