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Título

Iron deficiency causes changes in chlorophyll fluorescence due to the reduction in the dark of the Photosystem II acceptor side

AutorBelkhodja, Ramzi ; Morales Iribas, Fermín ; Quílez Marín, Rebeca ; López-Millán, Ana Flor ; Abadía Bayona, Anunciación ; Abadía Bayona, Javier
Fecha de publicación1998
EditorKluwer Academic Publishers
CitaciónPhotosynthesis Research 56: 265-276 (1998)
ResumenIron deficiency was found to affect the redox state of the Photosystem II acceptor side in dark-adapted, attached leaves of sugar beet (Beta vulgaris L.). Dark-adapted iron-deficient leaves exhibited relatively high F(o) and F(pl) levels in the Kautsky chlorophyll fluorescence induction curve when compared to the iron-sufficient controls. However, far-red illumination led to marked decreases in the apparent F(o) and F(pl) levels. Modulated fluorescence showed that far-red light decreased the fluorescence yield to the true F(o) levels by increasing photochemical quenching, without inducing changes in the level of non-photochemical quenching. In dark-adapted, iron-deficient leaves, far-red illumination induced a faster fluorescence decay in the μs-ms time domain, indicating an improvement in the electron transport after the primary quinone acceptor in the reducing side of Photosystem II. All these data indicate that in iron-deficient leaves the plastoquinone pool was reduced in the dark. The extent of the plastoquinone reduction in sugar beet depended on the chlorophyll concentration of the leaf, on the time of preillumination and on the duration of dark adaptation. The dark reduction of plastoquinone was observed not only in sugar beet but also in other plant species affected by iron deficiency both in controlled conditions and in the field.
URIhttp://hdl.handle.net/10261/121296
DOI10.1023/A:1006039917599
Identificadoresdoi: 10.1023/A:1006039917599
issn: 0166-8595
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