根际微生物促进梨和李砧木的离体根和组培苗的生长。

Rhizosphere microorganisms enhance in vitro root and plantlet development of Pyrus and Prunus rootstocks.

机构信息

IRTA Postharvest Programme, Edifici Fruitcentre, Parc Científic I Tecnològic Agroalimentari de Lleida, 25003, Lleida, Catalonia, Spain.

IRTA Plant In Vitro Culture Laboratory, Fruticulture Programme, Parc Científic I Tecnològic Agroalimentari de Lleida, 25003, Lleida, Catalonia, Spain.

出版信息

Planta. 2021 Mar 14;253(4):78. doi: 10.1007/s00425-021-03595-3.

DOI:10.1007/s00425-021-03595-3

PMID:33715081

Abstract

The in vitro application of rhizosphere microorganisms led to a higher rooting percentage in Pyrus Py12 rootstocks and increased plant growth of Pyrus Py170 and Prunus RP-20. The rooting of fruit tree rootstocks is the most challenging step of the in vitro propagation process. The use of rhizosphere microorganisms to promote in vitro rooting and plant growth as an alternative to the addition of chemical hormones to culture media is proposed in the present study. Explants from two Pyrus (Py170 and Py12) rootstocks and the Prunus RP-20 rootstock were inoculated with Pseudomonas oryzihabitans PGP01, Cladosporium ramotenellum PGP02 and Phoma sp. PGP03 following two different methods to determine their effects on in vitro rooting and plantlet growth. The effects of the microorganisms on the growth of fully developed Py170 and RP-20 plantlets were also studied in vitro. All experiments were conducted using vermiculite to simulate a soil system in vitro. When applied to Py12 shoots, which is a hard-to-root plant material, both C. ramotenellum PGP02 and Phoma sp. PGP03 fungi were able to increase the rooting percentage from 56.25% to 100% following auxin indole-3-butyric acid (IBA) treatment. Thus, the presence of these microorganisms clearly improved root development, inducing a higher number of roots and causing shorter roots. Better overall growth and improved stem growth of treated plants was observed when auxin treatment was replaced by co-culture with microorganisms. A root growth-promoting effect was observed on RP-20 plantlets after inoculation with C. ramotenellum PGP02, while P. oryzihabitans PGP01 increased root numbers for both Py170 and RP-20 and increased root growth over stem growth for RP-20. It was also shown that the three microorganisms P. oryzihabitans PGP01, C. ramotenellum PGP02 and Phoma sp. PGP03 were able to naturally produce auxin, including indole-3-acetic acid (IAA), at different levels. Overall, our results demonstrate that the microorganisms P. oryzihabitans PGP01 and C. ramotenellum PGP02 had beneficial effects on in vitro rooting and plantlet growth and could be applied to in vitro tissue culture as a substitute for IBA.

摘要

根际微生物的体外应用导致梨 Py12 砧木的生根率提高，并促进了梨 Py170 和李 RP-20 的植物生长。果树砧木的生根是体外繁殖过程中最具挑战性的步骤。本研究提出，使用根际微生物替代培养基中添加化学激素来促进体外生根和植物生长。将两个梨（Py170 和 Py12）砧木和李 RP-20 砧木的外植体接种于 Pseudomonas oryzihabitans PGP01、Cladosporium ramotenellum PGP02 和 Phoma sp. PGP03 中，采用两种不同的方法确定它们对体外生根和组培苗生长的影响。还研究了微生物对完全发育的 Py170 和 RP-20 组培苗生长的影响。所有实验均使用珍珠岩在体外模拟土壤系统进行。当应用于难以生根的植物材料 Py12 枝条时，两种真菌 C. ramotenellum PGP02 和 Phoma sp. PGP03 能够在添加生长素吲哚-3-丁酸（IBA）处理后将生根率从 56.25%提高到 100%。因此，这些微生物的存在明显改善了根系发育，诱导了更多的根，并导致根变短。当用微生物共培养代替生长素处理时，观察到处理植物的整体生长和茎生长得到改善。用 C. ramotenellum PGP02 接种后，观察到 RP-20 组培苗的根生长促进作用，而 P. oryzihabitans PGP01 增加了 Py170 和 RP-20 的根数量，并增加了 RP-20 的根生长相对于茎生长的比例。还表明，三种微生物 P. oryzihabitans PGP01、C. ramotenellum PGP02 和 Phoma sp. PGP03 能够以不同水平自然产生生长素，包括吲哚-3-乙酸（IAA）。总的来说，我们的结果表明，微生物 P. oryzihabitans PGP01 和 C. ramotenellum PGP02 对体外生根和组培苗生长有有益影响，可以作为 IBA 的替代品应用于体外组织培养。

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根际微生物促进梨和李砧木的离体根和组培苗的生长。

Rhizosphere microorganisms enhance in vitro root and plantlet development of Pyrus and Prunus rootstocks.

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