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Authordc.contributor.authorGila, Pilar M. 
Authordc.contributor.authorGurovich, Luis es_CL
Authordc.contributor.authorSchaffer, Bruce es_CL
Authordc.contributor.authorAlcayaga Urbina, Julio es_CL
Authordc.contributor.authorRey, Sergio es_CL
Authordc.contributor.authorIturriaga, Rodrigo es_CL
Admission datedc.date.accessioned2010-01-22T18:16:48Z
Available datedc.date.available2010-01-22T18:16:48Z
Publication datedc.date.issued2008
Cita de ítemdc.identifier.citationJOURNAL OF PLANT PHYSIOLOGY Volume: 165 Issue: 10 Pages: 1070-1078 Published: 2008en_US
Identifierdc.identifier.issn0176-1617
Identifierdc.identifier.other10.1016/j.jplph.2007.07.014
Identifierdc.identifier.urihttps://repositorio.uchile.cl/handle/2250/118975
Abstractdc.description.abstractPhytomonitoring techniques for irrigation of avocado orchards indicate that plants respond very rapidly to fluctuations in soil water content. Root to leaf abscicic acid transport cannot fully explain the almost immediate response of stomata to either irrigation and/or sudden changes in climatic conditions. Therefore, we studied the existence of a fast conducting signal between roots and leaves, and the possible involvement of such a signal in the regulation of stomatal behavior. Two-year-old avocado trees were subjected to drying and re-watering cycles or changes in incident radiation (light or darkness). The difference in extracellular electrical potential between the leaf petiole and the base of stem (Delta VL-S) was continuously recorded. Stomatal conductance (gs) was also recorded for the same leaves that were used for voltage difference measurements. A sudden change in soil water content induced by root drying and re-watering was accompanied by a stow, significant change in the recorded Delta VL-S signal, which was fully developed at 52 and 32 min for root drying and re-watering, respectively. We found an inverse correlation (r = -0.56) between the change of Delta VL-S and the gs difference measured before and after each soil-drying treatment. Plants that were girdled to disrupt the phloem and then irrigated tended to have lower Delta VL-S differences over time than non-girdled irrigated plants, suggesting that the electrical signal was transmitted in the phloem. The existence of a fast signal transmitted from the root to the leaf that can be measured and correlated with stomatal control opens the possibility of developing a new phytomonitoring technique and/or artificially modifying plant responses by imposing agronomic management strategies aimed at rapid stomatal adaptation to changes in soil water content.en_US
Lenguagedc.language.isoenen_US
Publisherdc.publisherELSEVIERen_US
Keywordsdc.subjectSTOMATAL CONDUCTANCEen_US
Títulodc.titleRoot to leaf electrical signaling in avocado in response to light and soil water contenten_US
Document typedc.typeArtículo de revista


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