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  • Phosphorus deficiency changes carbon isotope fractionation and triggers exudate reacquisition in tomato plants.

Phosphorus deficiency changes carbon isotope fractionation and triggers exudate reacquisition in tomato plants.

Scientific reports (2020-10-01)
Raphael Tiziani, Youry Pii, Silvia Celletti, Stefano Cesco, Tanja Mimmo
ABSTRACT

Plant roots are able to exude vast amounts of metabolites into the rhizosphere in response to phosphorus (P) deficiency. Causing noteworthy costs in terms of energy and carbon (C) for the plants. Therefore, it is suggested that exudates reacquisition by roots could represent an energy saving strategy of plants. This study aimed at investigating the effect of P deficiency on the ability of hydroponically grown tomato plants to re-acquire specific compounds generally present in root exudates by using 13C-labelled molecules. Results showed that P deficient tomato plants were able to take up citrate (+ 37%) and malate (+ 37%), particularly when compared to controls. While glycine (+ 42%) and fructose (+ 49%) uptake was enhanced in P shortage, glucose acquisition was not affected by the nutritional status. Unexpectedly, results also showed that P deficiency leads to a 13C enrichment in both tomato roots and shoots over time (shoots-+ 2.66‰, roots-+ 2.64‰, compared to control plants), probably due to stomata closure triggered by P deficiency. These findings highlight that tomato plants are able to take up a wide range of metabolites belonging to root exudates, thus maximizing C trade off. This trait is particularly evident when plants grew in P deficiency.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
D-Fructose-1-13C, 99 atom % 13C
Sigma-Aldrich
Citric acid-1,5-13C2, 98 atom % 13C