Effects of inoculated mycorrhizal fungi and non‐mycorrhizal beneficial micro‐organisms on plant traits, nutrient uptake and root‐associated fungal community composition of the Cymbidium hybridum in greenhouse

Aims The aim of this study was to assess the effects of beneficial micro‐organisms on the growth, nutrient accumulation and root‐associated fungal species composition of pot orchids grown in the greenhouse. Methods and Results A greenhouse pot experiment was conducted to investigate the beneficial e...

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Bibliographic Details
Published in:Journal of applied microbiology 2021-07, Vol.131 (1), p.413-424
Main Authors: Liu, S., Liu, M., Liao, Q.‐G., Lü, F.‐B., Zhao, X.‐L.
Format: Article
Language:English
Subjects:
Accumulation
Calcium
Community composition
Composition
Cymbidium
Cymbidium hybridum
Endophytes
endophytic fungi
fungal community composition
Fungi
Greenhouses
Host plants
Inoculation
Inoculum
Microflora
nested PCR nutrient uptake
Nutrient uptake
orchid mycorrhiza
Plantlets
Roots
Shoots
Species composition
Translocation
Weight
Zinc
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Summary:Aims The aim of this study was to assess the effects of beneficial micro‐organisms on the growth, nutrient accumulation and root‐associated fungal species composition of pot orchids grown in the greenhouse. Methods and Results A greenhouse pot experiment was conducted to investigate the beneficial effects of a mycorrhizal fungus, Epulorhiza repens isolate ML01, an endophytic fungus, Umbelopsis nana isolate ZH3A‐3 and a mixed commercial inoculum Rem, alone or in combination. Nested PCR assays showed that both isolates ML01 and ZH3A‐3 can successfully establish in inoculated soil. All the inoculants significantly increased the plant total dry weight of Cymbidium hybridum ‘Golden Boy’, whereas only co‐inoculation with the endophytic fungus ZH3A‐3 and the Rem enhanced the fresh weight and height of host plants. The mycorrhizal fungus positively affected P, K, Ca, Mg content in shoots and Zn content in roots, while the endophytic fungus improved N, P, Ca accumulation in shoots and roots. Co‐inoculation with the Rem and ML01 improved root to shoot translocation of Fe and Zn. In addition, inoculation with ZH3A‐3, ML01+Rem and ZH3A‐3+Rem decreased the relative frequency of Fusarium sp. on orchid roots. Trichoderma sp. were isolated from the roots treated with ML01, ML01+Rem and ZH3A‐3+Rem. Conclusions Both mycorrhizal and endophytic fungi had the potential to create favourable microflora in the orchid roots and stimulate the growth of transplanted plantlets under greenhouse condition. Significance and Impact of the Study The newly isolated endophytic strain ZH3A‐3 showed significant application value in orchid production.
ISSN:1364-5072
1365-2672
DOI:10.1111/jam.14967