Phosphate starvation during the transition phase increases the sex ratio and 12-oxo-phytodienoic acid contents in females of Urtica dioica.

The transition phase in plants, which is marked by the onset of flowering and seed production, is very sensitive to the physical environment. Moreover, dimorphic plant species can show important sex-related differences in the response to nutrient availability. How availability of inorganic phosphate (Pi) during the transition phase influences sex ratios and whether or not male and female plants respond differently to nutrient stress is still however very poorly understood. Here, we examined whether contrasting Pi availability during the transition phase may influence sexual differentiation in stinging nettle ( U. dioica L.) plants. We also evaluated to what extent males and females respond differently to varying Pi concentrations in terms of nutrient accumulation, C and N isotopic composition, photo-oxidative stress and hormone profiling. Results showed that reduced Pi availability delays plant maturation in males, causing as well an increase in the sex ratio towards females. Females showed enhanced lipid peroxidation (as indicated by higher lipid hydroperoxide contents) compared to males under Pi starvation, but sexes did not differ in photosystem II efficiency. Furthermore, reduced Pi availability led to enhanced 12- oxo -phytodienoic acid contents, the immediate precursor of jasmonic acid, particularly in females. This increase was, however, not accompanied by increases in other jasmonates, neither free nor conjugated jasmonic acid, thus suggesting a specific role for 12- oxo -phytodienoic acid in chemical defense in females under Pi starvation. Sex biased ratios in favour of females over males and enhanced 12- oxo -phytodienoic acid contents in the former under Pi starvation illustrate the great adaptive capacity of dimorphic species to reduced nutrient availability. [ABSTRACT FROM AUTHOR]