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Título
Serratia strains isolated from the rhizosphere of raulí ( Nothofagus alpina ) in volcanic soils harbour PGPR mechanisms and promote raulí plantlet growth
Autor(es)
Palabras clave
Rhizobacteria
volcanic soil
plant nursery
indole acetic acid
bio-inoculant
forestry
root development
Clasificación UNESCO
2414 Microbiología
Fecha de publicación
2018
Editor
Springer
Citación
Martínez, O. A., Encina, C., Tomckowiack, C., Droppelmann, F., Jara, R., Maldonado, C., ... & Rivas, R. (2018). Serratia strains isolated from the rhizosphere of raulí (Nothofagus alpina) in volcanic soils harbour PGPR mechanisms and promote raulí plantlet growth. Journal of soil science and plant nutrition, 18(3), 804-819.
Resumen
[EN] Raulí is one of the most emblematic tree species of the Chilean temperate forests. Due to the high quality wood,
this tree has been used for furniture and handicrafts manufacturing, which has positioned raulí as one of the
most important commercial timber species in Chile. Currently, the international market demands sustainable
production system for forest production, more specifically in plantlets production. In this regard, plant growthpromoting
rhizobacteria (PGPR) inoculants may enhance the growth and survival of plantlets in nurseries,
which means an increase in the effectiveness of replanting operations. Therefore, the aim of the present study
was to isolate, characterize and screen rhizosphere-associated bacteria with PGPR potential, isolated from raulí
that growth in volcanic soils in southern Chile. A total of 1,261 bacterial strains were isolated from different
volcanic soils. Out of 1,261 isolates, 100 were selected based on their high levels of indole acetic acid (IAA)
production. These isolates were then subjected to screening for 1-aminocyclopropane-1-carboxylic acid deaminase
activity, and their ability to fix nitrogen was determined. From the 100 selected isolates, 7 were chosen for
producing the highest amount of IAA to continue with genetic characterization based on their 16S rRNA gene
sequences. These 7 isolates were characterized as members of the Serratia genus and were used to develop
multi-strain inoculant mixtures. Later, a nursery study followed to determine the effect of inoculation with the
Serratia strains on the growth of RA88 raulí clone plantlets. The nursery experiment demonstrated that Serratia
strains have the potential to increase the root collar diameter, height, relative chlorophyll content, biomass and
nitrogen content of raulí plantlets. The study concluded, that Serratia strains have the potential to be used as
biofertilizers to increase plant growth in nursery conditions.
URI
DOI
10.4067/S0718-95162018005002302
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