Nutrient Deficiency Tolerance in Citrus Is Dependent on Genotype or Ploidy Level

Nutrient Deficiency Tolerance in Citrus Is Dependent on Genotype or Ploidy Level

Plants require essential minerals for their growth and development that are mainly acquired from soil by their roots. Nutrient deficiency is an environmental stress that can seriously affect fruit production and quality. In citrus crops, rootstock/scion combinations are frequently employed to enhanc...

Full description

Bibliographic Details
Main Authors: Julie Oustric, Raphaël Morillon, François Luro, Stéphane Herbette, Paul Martin, Jean Giannettini, Liliane Berti, Jérémie Santini
Format: Article
Language:English
Published: Frontiers Media S.A. 2019-02-01
Series:Frontiers in Plant Science
Subjects:
antioxidant
citrus
nutrient deficiency
oxidative stress
photosynthesis
polyploid
Online Access:https://www.frontiersin.org/article/10.3389/fpls.2019.00127/full
id doaj-1f7f3c3c283b4d428991fdbf43a415ab
record_format Article
spelling doaj-1f7f3c3c283b4d428991fdbf43a415ab2020-11-24T21:35:55ZengFrontiers Media S.A.Frontiers in Plant Science1664-462X2019-02-011010.3389/fpls.2019.00127424687Nutrient Deficiency Tolerance in Citrus Is Dependent on Genotype or Ploidy LevelJulie Oustric0Raphaël Morillon1François Luro2Stéphane Herbette3Paul Martin4Jean Giannettini5Liliane Berti6Jérémie Santini7CNRS, Laboratoire Biochimie and Biologie Moléculaire du Végétal, UMR 6134 SPE, Université de Corse, Corsica, FranceEquipe “Amélioration des Plantes à Multiplication Végétative”, UMR AGAP, Département BIOS, CIRAD, Petit-Bourg, GuadeloupeUMR AGAP Corse, Station INRA/CIRAD, San-Giuliano, FranceUCA, INRA, PIAF, Clermont-Ferrand, FranceAREFLEC, San-Giuliano, FranceCNRS, Laboratoire Biochimie and Biologie Moléculaire du Végétal, UMR 6134 SPE, Université de Corse, Corsica, FranceCNRS, Laboratoire Biochimie and Biologie Moléculaire du Végétal, UMR 6134 SPE, Université de Corse, Corsica, FranceCNRS, Laboratoire Biochimie and Biologie Moléculaire du Végétal, UMR 6134 SPE, Université de Corse, Corsica, FrancePlants require essential minerals for their growth and development that are mainly acquired from soil by their roots. Nutrient deficiency is an environmental stress that can seriously affect fruit production and quality. In citrus crops, rootstock/scion combinations are frequently employed to enhance tolerance to various abiotic stresses. These tolerances can be improved in doubled diploid genotypes. The aim of this work was to compare the impact of nutrient deficiency on the physiological and biochemical response of diploid (2x) and doubled diploid (4x) citrus seedlings: Volkamer lemon, Trifoliate orange × Cleopatra mandarin hybrid, Carrizo citrange, Citrumelo 4475. Flhorag1 (Poncirus trifoliata + and willow leaf mandarin), an allotetraploid somatic hybrid, was also included in this study. Our results showed that depending on the genotype, macronutrient and micronutrient deficiency affected certain physiological traits and oxidative metabolism differently. Tetraploid genotypes, mainly Flhorag1 and Citrumelo 4475, appeared resistant compared to the other genotypes as indicated by the lesser decrease in photosynthetic parameters (Pnet, Fv/Fm, and Gs) and the lower accumulation of oxidative markers (MDA and H2O2) in roots and leaves, especially after long-term nutrient deficiency. Their higher tolerance to nutrient deficiency could be explained by better activation of their antioxidant system. For the other genotypes, tetraploidization did not induce greater tolerance to nutrient deficiency.https://www.frontiersin.org/article/10.3389/fpls.2019.00127/fullantioxidantcitrusnutrient deficiencyoxidative stressphotosynthesispolyploid
collection DOAJ
language English
format Article
sources DOAJ
author Julie Oustric
Raphaël Morillon
François Luro
Stéphane Herbette
Paul Martin
Jean Giannettini
Liliane Berti
Jérémie Santini
spellingShingle Julie Oustric
Raphaël Morillon
François Luro
Stéphane Herbette
Paul Martin
Jean Giannettini
Liliane Berti
Jérémie Santini
Nutrient Deficiency Tolerance in Citrus Is Dependent on Genotype or Ploidy Level
Frontiers in Plant Science
antioxidant
citrus
nutrient deficiency
oxidative stress
photosynthesis
polyploid
author_facet Julie Oustric
Raphaël Morillon
François Luro
Stéphane Herbette
Paul Martin
Jean Giannettini
Liliane Berti
Jérémie Santini
author_sort Julie Oustric
title Nutrient Deficiency Tolerance in Citrus Is Dependent on Genotype or Ploidy Level
title_short Nutrient Deficiency Tolerance in Citrus Is Dependent on Genotype or Ploidy Level
title_full Nutrient Deficiency Tolerance in Citrus Is Dependent on Genotype or Ploidy Level
title_fullStr Nutrient Deficiency Tolerance in Citrus Is Dependent on Genotype or Ploidy Level
title_full_unstemmed Nutrient Deficiency Tolerance in Citrus Is Dependent on Genotype or Ploidy Level
title_sort nutrient deficiency tolerance in citrus is dependent on genotype or ploidy level
publisher Frontiers Media S.A.
series Frontiers in Plant Science
issn 1664-462X
publishDate 2019-02-01
description Plants require essential minerals for their growth and development that are mainly acquired from soil by their roots. Nutrient deficiency is an environmental stress that can seriously affect fruit production and quality. In citrus crops, rootstock/scion combinations are frequently employed to enhance tolerance to various abiotic stresses. These tolerances can be improved in doubled diploid genotypes. The aim of this work was to compare the impact of nutrient deficiency on the physiological and biochemical response of diploid (2x) and doubled diploid (4x) citrus seedlings: Volkamer lemon, Trifoliate orange × Cleopatra mandarin hybrid, Carrizo citrange, Citrumelo 4475. Flhorag1 (Poncirus trifoliata + and willow leaf mandarin), an allotetraploid somatic hybrid, was also included in this study. Our results showed that depending on the genotype, macronutrient and micronutrient deficiency affected certain physiological traits and oxidative metabolism differently. Tetraploid genotypes, mainly Flhorag1 and Citrumelo 4475, appeared resistant compared to the other genotypes as indicated by the lesser decrease in photosynthetic parameters (Pnet, Fv/Fm, and Gs) and the lower accumulation of oxidative markers (MDA and H2O2) in roots and leaves, especially after long-term nutrient deficiency. Their higher tolerance to nutrient deficiency could be explained by better activation of their antioxidant system. For the other genotypes, tetraploidization did not induce greater tolerance to nutrient deficiency.
topic antioxidant
citrus
nutrient deficiency
oxidative stress
photosynthesis
polyploid
url https://www.frontiersin.org/article/10.3389/fpls.2019.00127/full
work_keys_str_mv AT julieoustric nutrientdeficiencytoleranceincitrusisdependentongenotypeorploidylevel
AT raphaelmorillon nutrientdeficiencytoleranceincitrusisdependentongenotypeorploidylevel
AT francoisluro nutrientdeficiencytoleranceincitrusisdependentongenotypeorploidylevel
AT stephaneherbette nutrientdeficiencytoleranceincitrusisdependentongenotypeorploidylevel
AT paulmartin nutrientdeficiencytoleranceincitrusisdependentongenotypeorploidylevel
AT jeangiannettini nutrientdeficiencytoleranceincitrusisdependentongenotypeorploidylevel
AT lilianeberti nutrientdeficiencytoleranceincitrusisdependentongenotypeorploidylevel
AT jeremiesantini nutrientdeficiencytoleranceincitrusisdependentongenotypeorploidylevel
_version_ 1725943345388191744

Similar Items