Leaf growth and biomass accumulation in radish inoculated with rhizosphere microorganisms: Leaf growth and biomass accumulation in radish
Seeds of Raphanus sativus L. var. Champion were inoculated with commercial strains of rhizospheric fungi+bacteria. A completely randomized experiment was designed with four treatments: Chromobacterium violaceum+Acinetobacter calcoaceticus (BiofosfoBuap®, T1), Azospirillum brasilense (AzoFer), Glom...
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| Formato: | Online |
| Lenguaje: | eng |
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Facultad de Ciencias Agrarias-UNCuyo
2020
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| Acceso en línea: | https://revistas.uncu.edu.ar/ojs3/index.php/RFCA/article/view/2899 |
| id |
I11-R107article-2899 |
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Universidad Nacional de Cuyo |
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Revistas en línea |
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Revista de la Facultad de Ciencias Agrarias |
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Revista de la Facultad de Ciencias Agrarias |
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I-11 |
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R-107 |
| language |
eng |
| format |
Online |
| author |
Rodríguez-Larramendi , Luis Alfredo Guevara Hernández, Francisco La O-Arias, Manuel Alejandro Reyes-Muro, Luis Campos-Saldaña, Rady Alejandra Salas-Marina, Miguel Ángel |
| spellingShingle |
Rodríguez-Larramendi , Luis Alfredo Guevara Hernández, Francisco La O-Arias, Manuel Alejandro Reyes-Muro, Luis Campos-Saldaña, Rady Alejandra Salas-Marina, Miguel Ángel Leaf growth and biomass accumulation in radish inoculated with rhizosphere microorganisms: Leaf growth and biomass accumulation in radish Raphanus sativus L rhizospheric fungi and bacteria absolute growth rate relative growth rate net assimilation rate Mexico Raphanus sativus L hongos rizosféricos y tasa de crecimiento relativa tasa de crecimiento relativa de bacterias tasa de asimilación neta México |
| author_facet |
Rodríguez-Larramendi , Luis Alfredo Guevara Hernández, Francisco La O-Arias, Manuel Alejandro Reyes-Muro, Luis Campos-Saldaña, Rady Alejandra Salas-Marina, Miguel Ángel |
| author_sort |
Rodríguez-Larramendi , Luis Alfredo |
| title |
Leaf growth and biomass accumulation in radish inoculated with rhizosphere microorganisms: Leaf growth and biomass accumulation in radish |
| title_short |
Leaf growth and biomass accumulation in radish inoculated with rhizosphere microorganisms: Leaf growth and biomass accumulation in radish |
| title_full |
Leaf growth and biomass accumulation in radish inoculated with rhizosphere microorganisms: Leaf growth and biomass accumulation in radish |
| title_fullStr |
Leaf growth and biomass accumulation in radish inoculated with rhizosphere microorganisms: Leaf growth and biomass accumulation in radish |
| title_full_unstemmed |
Leaf growth and biomass accumulation in radish inoculated with rhizosphere microorganisms: Leaf growth and biomass accumulation in radish |
| title_sort |
leaf growth and biomass accumulation in radish inoculated with rhizosphere microorganisms: leaf growth and biomass accumulation in radish |
| description |
Seeds of Raphanus sativus L. var. Champion were inoculated with commercial strains of rhizospheric fungi+bacteria. A completely randomized experiment was designed with four treatments: Chromobacterium violaceum+Acinetobacter calcoaceticus (BiofosfoBuap®, T1), Azospirillum brasilense (AzoFer), Glomus intraradices (MicorrizaFer), and uninoculated control. Each treatment had 20 replicates. The objective was to evaluate the effect of the different treatments on leaf growth, taproot length and dry weight, dry weight of leaves and tubers, and fresh tuber weight. Net assimilation rate (NAR), absolute growth rate (AGR), and relative growth rate (RGR) were calculated. Thirty three days after sowing (das), plants inoculated with C. violaceum+A. calcoaceticus had 52.67% more leaf area than the control, and 42 das they had 72.30% more leaf area. Thirty three das, treatments with C. violaceum+A. calcoaceticus and A. brasilense had 49.66% and 45.52% more dry leaf weight than the control. Fresh weight of tubers for the same two treatments was 65.03% and 63.11% higher than the control 33 das, respectively, and 80.70% and 74.56% higher 42 das. Co-inoculation with C. violaceum+A. calcoaceticus and inoculation with A. brasilense alone promoted growth of radish tubers as a consequence of increased leaf area and biomass as well as an increase in net assimilation rate.
Highlights
The effect of rhizosphere bacteria and fungi on the leaf area of radish plants depends more on the leaves size than on the leaves number produced by the plant.
The better growth observed in plants inoculated with C. violaceum + A. calcoaceticus and A. brasilense might depend on the greater plant hormone synthesis.
The effects of C. violaceum + A. calcoaceticus on plant growth are better than a single microorganism inoculation and such effects depend on the enhanced co-inoculation.
Inoculating plants with C. violaceum + A. calcoaceticus promotes the tuber biomass increase over the taproot growth.
Inoculation with C. violaceum + A. calcoaceticus induces transfer of photosynthates from above ground part of the plant to the tuber in order to produce biomass.
Inoculation with C. violaceum + A. calcoaceticus favored accumulation of biomass in leaves and tubers, resulting in total plant biomass production, although not taproot length.
|
| publisher |
Facultad de Ciencias Agrarias-UNCuyo |
| publishDate |
2020 |
| url |
https://revistas.uncu.edu.ar/ojs3/index.php/RFCA/article/view/2899 |
| topic |
Raphanus sativus L rhizospheric fungi and bacteria absolute growth rate relative growth rate net assimilation rate Mexico Raphanus sativus L hongos rizosféricos y tasa de crecimiento relativa tasa de crecimiento relativa de bacterias tasa de asimilación neta México |
| topic_facet |
Raphanus sativus L rhizospheric fungi and bacteria absolute growth rate relative growth rate net assimilation rate Mexico Raphanus sativus L hongos rizosféricos y tasa de crecimiento relativa tasa de crecimiento relativa de bacterias tasa de asimilación neta México |
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AT rodriguezlarramendiluisalfredo leafgrowthandbiomassaccumulationinradishinoculatedwithrhizospheremicroorganismsleafgrowthandbiomassaccumulationinradish AT guevarahernandezfrancisco leafgrowthandbiomassaccumulationinradishinoculatedwithrhizospheremicroorganismsleafgrowthandbiomassaccumulationinradish AT laoariasmanuelalejandro leafgrowthandbiomassaccumulationinradishinoculatedwithrhizospheremicroorganismsleafgrowthandbiomassaccumulationinradish AT reyesmuroluis leafgrowthandbiomassaccumulationinradishinoculatedwithrhizospheremicroorganismsleafgrowthandbiomassaccumulationinradish AT campossaldanaradyalejandra leafgrowthandbiomassaccumulationinradishinoculatedwithrhizospheremicroorganismsleafgrowthandbiomassaccumulationinradish AT salasmarinamiguelangel leafgrowthandbiomassaccumulationinradishinoculatedwithrhizospheremicroorganismsleafgrowthandbiomassaccumulationinradish |
| _version_ |
1800220886493560832 |
| spelling |
I11-R107article-28992020-12-04T21:59:31Z Leaf growth and biomass accumulation in radish inoculated with rhizosphere microorganisms: Leaf growth and biomass accumulation in radish Leaf growth and biomass accumulation in radish inoculated with rhizosphere microorganisms: Leaf growth and biomass accumulation in radish Rodríguez-Larramendi , Luis Alfredo Guevara Hernández, Francisco La O-Arias, Manuel Alejandro Reyes-Muro, Luis Campos-Saldaña, Rady Alejandra Salas-Marina, Miguel Ángel Raphanus sativus L rhizospheric fungi and bacteria absolute growth rate relative growth rate net assimilation rate Mexico Raphanus sativus L hongos rizosféricos y tasa de crecimiento relativa tasa de crecimiento relativa de bacterias tasa de asimilación neta México Seeds of Raphanus sativus L. var. Champion were inoculated with commercial strains of rhizospheric fungi+bacteria. A completely randomized experiment was designed with four treatments: Chromobacterium violaceum+Acinetobacter calcoaceticus (BiofosfoBuap®, T1), Azospirillum brasilense (AzoFer), Glomus intraradices (MicorrizaFer), and uninoculated control. Each treatment had 20 replicates. The objective was to evaluate the effect of the different treatments on leaf growth, taproot length and dry weight, dry weight of leaves and tubers, and fresh tuber weight. Net assimilation rate (NAR), absolute growth rate (AGR), and relative growth rate (RGR) were calculated. Thirty three days after sowing (das), plants inoculated with C. violaceum+A. calcoaceticus had 52.67% more leaf area than the control, and 42 das they had 72.30% more leaf area. Thirty three das, treatments with C. violaceum+A. calcoaceticus and A. brasilense had 49.66% and 45.52% more dry leaf weight than the control. Fresh weight of tubers for the same two treatments was 65.03% and 63.11% higher than the control 33 das, respectively, and 80.70% and 74.56% higher 42 das. Co-inoculation with C. violaceum+A. calcoaceticus and inoculation with A. brasilense alone promoted growth of radish tubers as a consequence of increased leaf area and biomass as well as an increase in net assimilation rate. Highlights The effect of rhizosphere bacteria and fungi on the leaf area of radish plants depends more on the leaves size than on the leaves number produced by the plant. The better growth observed in plants inoculated with C. violaceum + A. calcoaceticus and A. brasilense might depend on the greater plant hormone synthesis. The effects of C. violaceum + A. calcoaceticus on plant growth are better than a single microorganism inoculation and such effects depend on the enhanced co-inoculation. Inoculating plants with C. violaceum + A. calcoaceticus promotes the tuber biomass increase over the taproot growth. Inoculation with C. violaceum + A. calcoaceticus induces transfer of photosynthates from above ground part of the plant to the tuber in order to produce biomass. Inoculation with C. violaceum + A. calcoaceticus favored accumulation of biomass in leaves and tubers, resulting in total plant biomass production, although not taproot length. Seeds of Raphanus sativus L. var. Champion were inoculated with commercial strains of rhizospheric fungi+bacteria. A completely randomized experiment was designed with four treatments: Chromobacterium violaceum+Acinetobacter calcoaceticus (BiofosfoBuap®, T1), Azospirillum brasilense (AzoFer), Glomus intraradices (MicorrizaFer), and uninoculated control. Each treatment had 20 replicates. The objective was to evaluate the effect of the different treatments on leaf growth, taproot length and dry weight, dry weight of leaves and tubers, and fresh tuber weight. Net assimilation rate (NAR), absolute growth rate (AGR), and relative growth rate (RGR) were calculated. Thirty three days after sowing (das), plants inoculated with C. violaceum+A. calcoaceticus had 52.67% more leaf area than the control, and 42 das they had 72.30% more leaf area. Thirty three das, treatments with C. violaceum+A. calcoaceticus and A. brasilense had 49.66% and 45.52% more dry leaf weight than the control. Fresh weight of tubers for the same two treatments was 65.03% and 63.11% higher than the control 33 das, respectively, and 80.70% and 74.56% higher 42 das. Co-inoculation with C. violaceum+A. calcoaceticus and inoculation with A. brasilense alone promoted growth of radish tubers as a consequence of increased leaf area and biomass as well as an increase in net assimilation rate. Highlights The effect of rhizosphere bacteria and fungi on the leaf area of radish plants depends more on the leaves size than on the leaves number produced by the plant. The better growth observed in plants inoculated with C. violaceum + A. calcoaceticus and A. brasilense might depend on the greater plant hormone synthesis. The effects of C. violaceum + A. calcoaceticus on plant growth are better than a single microorganism inoculation and such effects depend on the enhanced co-inoculation. Inoculating plants with C. violaceum + A. calcoaceticus promotes the tuber biomass increase over the taproot growth. Inoculation with C. violaceum + A. calcoaceticus induces transfer of photosynthates from above ground part of the plant to the tuber in order to produce biomass. Inoculation with C. violaceum + A. calcoaceticus favored accumulation of biomass in leaves and tubers, resulting in total plant biomass production, although not taproot length. Facultad de Ciencias Agrarias-UNCuyo 2020-12-01 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion application/pdf https://revistas.uncu.edu.ar/ojs3/index.php/RFCA/article/view/2899 Revista de la Facultad de Ciencias Agrarias UNCuyo; Vol. 52 No. 2 (2020): June-December; 78-87 Revista de la Facultad de Ciencias Agrarias UNCuyo; Vol. 52 Núm. 2 (2020): Julio-Diciembre; 78-87 1853-8665 0370-4661 eng https://revistas.uncu.edu.ar/ojs3/index.php/RFCA/article/view/2899/2973 |
