Thermal history parameters drive changes in physiology and cold hardiness of young grapevine plants during winter

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cic.isFulltexttruees
cic.isPeerReviewedtruees
cic.lugarDesarrolloUniversidad Nacional de Mar del Plataes
cic.lugarDesarrolloInstituto Nacional de Tecnología Agropecuariaes
cic.lugarDesarrolloConsejo Nacional de Investigaciones Científicas y Técnicases
cic.lugarDesarrolloUniversidad Nacional de San Juanes
cic.lugarDesarrolloWashington State Universityes
cic.lugarDesarrolloUniversidad Nacional de Cuyoes
cic.versioninfo:eu-repo/semantics/publishedVersiones
dc.date.accessioned2019-07-19T14:39:11Z
dc.date.available2019-07-19T14:39:11Z
dc.identifier.urihttps://digital.cic.gba.gob.ar/handle/11746/10147
dc.titleThermal history parameters drive changes in physiology and cold hardiness of young grapevine plants during winteren
dc.typeArtículoes
dcterms.abstractVitis vinifera is mainly cultivated in temperate areas, where seasons are well defined and winter conditions might be severe. To survive under these conditions during the dormant season, grapevines sense environmental parameters to trigger different protective mechanisms that lead to cold hardiness (CH). Crop yield and sustainability will be determined according to the level of CH reached in each organ. Moreover, different cultivars of V. vinifera exhibit different behavior throughout the dormant season, attaining a different status of CH. However, there is scarce information concerning how the same cultivar behaves under contrasting thermal environments. The aim of our research was to unveil how CH varies in trunks of the same cultivar under two contrasting environments and define which are the main thermal and biochemical parameters involved in this process. We submitted 2-year old plants of the same clone of cv. Malbec to two different thermal conditions: natural winter (control) and artificially warm winter (treatment). CH status, thermal and biochemical parameters in trunks were measured periodically over the dormant season, and this experiment was repeated for three years. Our results suggest that grapevine trunks subjected to a different environment reach dissimilar CH status, except at the end of winter. In addition, we determined that daily minimum temperature is the main thermal parameter that drives changes in CH. Also, we found that the total soluble sugars have the greatest relative weight in determining the CH compared with the other compounds evaluated. These results have practical implications in the establishment of vineyards for new growing regions. Moreover, with rising minimum temperature predicted by climate change scenarios, grapevines may be more vulnerable to cold events during the dormant season.en
dcterms.creator.authorGonzalez Antivilo, Franciscoes
dcterms.creator.authorPaz, Rosalía Cristinaes
dcterms.creator.authorEcheverria, Marielaes
dcterms.creator.authorKeller, Markuses
dcterms.creator.authorTognetti, Jorge Albertoes
dcterms.creator.authorBorgo, Robertoes
dcterms.creator.authorRoig Juñent, Fideles
dcterms.extentp. 227-236es
dcterms.identifier.otherdoi:10.1016/j.agrformet.2018.07.017es
dcterms.identifier.urlRecurso onlinees
dcterms.isPartOf.issuevol. 262es
dcterms.isPartOf.seriesAgricultural and Forest Meteorologyes
dcterms.issued2018
dcterms.languageIngléses
dcterms.licenseAttribution-NonCommercial-ShareAlike 4.0 International (BY-NC-SA 4.0)es
dcterms.subjectwinter seasonen
dcterms.subjectacclimationen
dcterms.subjectdeacclimationen
dcterms.subjecttemperatureen
dcterms.subjectvitis viniferaen
dcterms.subjectclimate changeen
dcterms.subject.materiaAgronomía, reproducción y protección de plantases

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