Your search keyword '"Grisafi, Francesca"' showing total 2 results

1. Does short-term potassium fertilization improve recovery from drought stress in laurel?

Author

Oddo, Elisabetta, Inzerillo, Simone, Grisafi, Francesca, Sajeva, Maurizio, Salleo, Sebastiano, and Nardini, Andrea

Subjects

LAURUS nobilis, XYLEM, POTASSIUM fertilizers, WATER vapor, GAS exchange in plants, HYDRAULIC conductivity, EFFECT of drought on plants

Abstract

Xylem hydraulic conductance varies in response to changes in sap solute content, and in particular of potassium (K+) ion concentration. This phenomenon, known as the ‘ionic effect’, is enhanced in embolized stems, where it can compensate for cavitation-induced loss of hydraulic conductance. Previous studies have shown that in well-watered laurel plants (Laurus nobilis L.), potassium concentration of the xylem sap and plant hydraulic conductance increased 24 h after fertilization with KCl. The aim of this work was to test whether water-stressed laurel plants, grown under low potassium availability, could recover earlier from stress when irrigated with a KCl solution instead of potassium-free water. Two-year-old potted laurel seedlings were subjected to water stress by suspending irrigation until leaf conductance to water vapour (gL) dropped to ∼30% of its initial value and leaf water potential (ψL) reached the turgor loss point (ψTLP). Plants were then irrigated either with water or with 25 mM KCl and monitored for water status, gas exchange and plant hydraulics recovery at 3, 6 and 24 h after irrigation. No significant differences were found between the two experimental groups in terms of ψL, gL, plant transpiration, plant hydraulic conductance or leaf-specific shoot hydraulic conductivity. Analysis of xylem sap potassium concentration showed that there were no significant differences between treatments, and potassium levels were similar to those of potassium-starved but well-watered plants. In conclusion, potassium uptake from the soil solution and/or potassium release to the xylem appeared to be impaired in water-stressed plants, at least up to 24 h after relief from water stress, so that fertilization after the onset of stress did not result in any short-term advantage for recovery from drought. [ABSTRACT FROM AUTHOR]

Published

2014

2. Short-term effects of potassium fertilization on the hydraulic conductance of Laurus nobilis L.

Author

Oddo, Elisabetta, Inzerillo, Simone, La Bella, Francesca, Grisafi, Francesca, Salleo, Sebastiano, and Nardini, Andrea

Subjects

PLANT fertilization, LAURUS nobilis, XYLEM, PLANT shoots, EFFECT of drought on plants, EFFECT of potassium on plants, GENETIC regulation in plants, PLANT nutrition, PLANT roots

Abstract

This study reports experimental evidence on the effect of short-term potassium fertilization on potassium uptake, tissue concentration and hydraulic conductance of pot-grown laurel plants. Potassium uptake and loading into the xylem of laurel seedlings increased within 24 h after fertilization. Potassium was not accumulated in roots and leaves, but the [K+] of xylem sap was 80% higher in fertilized plants (+K) than in potassium-starved plants (−K), as a likely result of recirculation between xylem and phloem. Increased xylem sap [K+] resulted in a 45% increase in transpiration rate, a 30% increase in plant hydraulic conductance (Kplant) and a 120% increase in leaf-specific conductivity of the shoot (kshoot). We suggest that this increase was due to ion-mediated up-regulation of xylem hydraulics, possibly caused by the interaction of potassium ions with the pectic matrix of intervessel pits. The enhancement of hydraulic conductance following short-term potassium fertilization is a phenomenon that can be of advantage to plants for maintaining cell turgor, stomatal aperture and gas exchange rates under moderate drought stress. Our data provide additional support for the important role of potassium nutrition in agriculture and forestry. [ABSTRACT FROM AUTHOR]

Published

2011