Processing tomato response to arbuscular mycorrhizal fungi application under conventional production practice

Processing tomato response to arbuscular mycorrhizal fungi application under conventional production practice

The potential effect of pre-inoculation of processing tomato (Solanum lycopersicum L.) plants with arbuscular mycorrhizal fungi (AMF) on yield and fruit properties was investigated in conventional production. Tomato seeds were sown in seedling trays filled with a substrate non-inoculated (AMF-) or i...

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Main Authors: Kristina Grozić, Igor Pasković, Tomislav Radić, Marina Lukić, Paula Žurga, Igor Palčić, Branimir Urlić, Mia Brkljača, Dean Ban, Joško Kaliterna, Jana Klanjac, Nikola Major, Zdravko Matotan, Smiljana Goreta Ban
Format: Article
Language:Bulgarian
Published: University of Zagreb, Faculty of Agriculture 2021-03-01
Series:Journal of Central European Agriculture
Subjects:
antioxidant activity
fruit quality
funneliformis mosseae
lycopene
mineral acquisition
mycorrhizal colonization
rhizophagus irregularis
tomato seedlings
total phenolic content
trace elements
Online Access:https://jcea.agr.hr/articles/772951_Processing_tomato_response_to_arbuscular_mycorrhizal_fungi_application_under_conventional_production_practice_en.pdf
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spelling doaj-e11d896aa7ef401eb042821bdcb4235c2021-03-30T12:15:11ZbulUniversity of Zagreb, Faculty of AgricultureJournal of Central European Agriculture1332-90492021-03-01221728510.5513/JCEA01/22.1.2856Processing tomato response to arbuscular mycorrhizal fungi application under conventional production practiceKristina GrozićIgor PaskovićTomislav RadićMarina LukićPaula ŽurgaIgor PalčićBranimir UrlićMia BrkljačaDean BanJoško KaliternaJana KlanjacNikola MajorZdravko MatotanSmiljana Goreta BanThe potential effect of pre-inoculation of processing tomato (Solanum lycopersicum L.) plants with arbuscular mycorrhizal fungi (AMF) on yield and fruit properties was investigated in conventional production. Tomato seeds were sown in seedling trays filled with a substrate non-inoculated (AMF-) or inoculated (AMF+) by selected mycorrhizal strains. Seedlings were transplanted in Terra rossa soil and grown in conditions with mineral fertilization and irrigation. Tomato fruits were sampled at harvest. Tomato plants under both treatments had high levels of mycorrhizal colonization, due to applied inoculum (AMF+) or indigenous (AMF-) inoculum present in the soil. Applied AMF+ treatment increased P and decreased K content in tomato fruits. Content of trace elements such as As and V significantly increased, while Pb content significantly decreased in the fruits of AMF+ when compared to the AMF- treatment. No significant effect of AMF+ treatment was observed on yield, fruit quality (soluble solids, pH, total acidity, fruit firmness), lycopene and antioxidant activity of tomato fruits. The overall results suggest that processing tomato is highly susceptible to the indigenous AMF, while seedlings inoculation with selected AMF improves only total phenolic and P fruit content. This means that AMF have a potential application in commercial processing tomato production, however a targeted adaptation of management decissions is required for more extensive results.https://jcea.agr.hr/articles/772951_Processing_tomato_response_to_arbuscular_mycorrhizal_fungi_application_under_conventional_production_practice_en.pdfantioxidant activityfruit qualityfunneliformis mosseaelycopenemineral acquisitionmycorrhizal colonizationrhizophagus irregularistomato seedlingstotal phenolic contenttrace elements
collection DOAJ
language Bulgarian
format Article
sources DOAJ
author Kristina Grozić
Igor Pasković
Tomislav Radić
Marina Lukić
Paula Žurga
Igor Palčić
Branimir Urlić
Mia Brkljača
Dean Ban
Joško Kaliterna
Jana Klanjac
Nikola Major
Zdravko Matotan
Smiljana Goreta Ban
spellingShingle Kristina Grozić
Igor Pasković
Tomislav Radić
Marina Lukić
Paula Žurga
Igor Palčić
Branimir Urlić
Mia Brkljača
Dean Ban
Joško Kaliterna
Jana Klanjac
Nikola Major
Zdravko Matotan
Smiljana Goreta Ban
Processing tomato response to arbuscular mycorrhizal fungi application under conventional production practice
Journal of Central European Agriculture
antioxidant activity
fruit quality
funneliformis mosseae
lycopene
mineral acquisition
mycorrhizal colonization
rhizophagus irregularis
tomato seedlings
total phenolic content
trace elements
author_facet Kristina Grozić
Igor Pasković
Tomislav Radić
Marina Lukić
Paula Žurga
Igor Palčić
Branimir Urlić
Mia Brkljača
Dean Ban
Joško Kaliterna
Jana Klanjac
Nikola Major
Zdravko Matotan
Smiljana Goreta Ban
author_sort Kristina Grozić
title Processing tomato response to arbuscular mycorrhizal fungi application under conventional production practice
title_short Processing tomato response to arbuscular mycorrhizal fungi application under conventional production practice
title_full Processing tomato response to arbuscular mycorrhizal fungi application under conventional production practice
title_fullStr Processing tomato response to arbuscular mycorrhizal fungi application under conventional production practice
title_full_unstemmed Processing tomato response to arbuscular mycorrhizal fungi application under conventional production practice
title_sort processing tomato response to arbuscular mycorrhizal fungi application under conventional production practice
publisher University of Zagreb, Faculty of Agriculture
series Journal of Central European Agriculture
issn 1332-9049
publishDate 2021-03-01
description The potential effect of pre-inoculation of processing tomato (Solanum lycopersicum L.) plants with arbuscular mycorrhizal fungi (AMF) on yield and fruit properties was investigated in conventional production. Tomato seeds were sown in seedling trays filled with a substrate non-inoculated (AMF-) or inoculated (AMF+) by selected mycorrhizal strains. Seedlings were transplanted in Terra rossa soil and grown in conditions with mineral fertilization and irrigation. Tomato fruits were sampled at harvest. Tomato plants under both treatments had high levels of mycorrhizal colonization, due to applied inoculum (AMF+) or indigenous (AMF-) inoculum present in the soil. Applied AMF+ treatment increased P and decreased K content in tomato fruits. Content of trace elements such as As and V significantly increased, while Pb content significantly decreased in the fruits of AMF+ when compared to the AMF- treatment. No significant effect of AMF+ treatment was observed on yield, fruit quality (soluble solids, pH, total acidity, fruit firmness), lycopene and antioxidant activity of tomato fruits. The overall results suggest that processing tomato is highly susceptible to the indigenous AMF, while seedlings inoculation with selected AMF improves only total phenolic and P fruit content. This means that AMF have a potential application in commercial processing tomato production, however a targeted adaptation of management decissions is required for more extensive results.
topic antioxidant activity
fruit quality
funneliformis mosseae
lycopene
mineral acquisition
mycorrhizal colonization
rhizophagus irregularis
tomato seedlings
total phenolic content
trace elements
url https://jcea.agr.hr/articles/772951_Processing_tomato_response_to_arbuscular_mycorrhizal_fungi_application_under_conventional_production_practice_en.pdf
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