Evaluation of aluminium tolerance in grapevine rootstocks
Contribuinte(s) |
UNIVERSIDADE DE SÃO PAULO |
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Data(s) |
19/10/2012
19/10/2012
2009
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Resumo |
Aluminum (Al) toxicity is a major worldwide agricultural problem. At low pH, Al speciates into the soluble and phyto-toxic form Al(3+), inhibiting the root growth and affecting plant development. In Brazil, agriculture in acidic soils with elevated concentration of Al has significantly increased in the last decades. Therefore, in order to achieve efficient agriculture practices, the selection of plant cultivars with improved Al resistance has become crucial in this type of soils. In this work we have evaluated the Al resistance of six genotypes of grapevine rootstocks. The grapevine hardwood cuttings were grown in nutrient solution in the absence and presence of 250 and 500 mu M Al at pH 4.2. The phenotypic indexes of relative root growth, fresh and dry root weight, root area, hematoxylin staining profile, and Al content were evaluated for all six genotypes. These phenotypic indexes allowed us to identify the `Kober 5BB`, `Gravesac`, `Paulsen 1103`, and `IAC 766` grapevine rootstocks genotypes as the ones with the highest resistance to Al. Likewise, `IAC 572` and `R110` genotypes were the most Al-sensitive cultivars. We evaluated the root organic acid exudation profile in the most Al-resistant (`Kober 5BB`) and most Al-sensitive (`R110`) in plantlets cultivated in vitro in the absence and presence of 100, 200, and 400 mu M of Al. Among several compounds detected, citrate was the only organic acid related to the Al resistance phenotype observed in the `Kober 5BB` genotype. The high constitutive citrate exudation observed in `Kober 5BB` strongly suggests that exudation of this particular organic acid may impart Al-resistance/a melioration in grapevine. |
Identificador |
VITIS, v.48, n.4, p.167-173, 2009 0042-7500 |
Idioma(s) |
eng |
Publicador |
JKI-INSTITUT REBENZUCHTUNG |
Relação |
Vitis |
Direitos |
restrictedAccess Copyright JKI-INSTITUT REBENZUCHTUNG |
Palavras-Chave | #Vitis spp. #abiotic stress #aluminum-tolerance #aluminum-toxicity #organic acid exudation #root growth #TRITICUM-AESTIVUM L #WHEAT #TOXICITY #TRANSPORTER #PLANTS #MAIZE #RESISTANCE #MECHANISMS #PHYSIOLOGY #CULTIVARS #Horticulture |
Tipo |
article original article publishedVersion |