Ozone-induced impairment of night-time stomatal closure in O3-sensitive poplar clone is affected by nitrogen but not by phosphorus enrichment

Abstract

Nocturnal transpiration may be a key factor influencing water use in plants. Tropospheric ozone (O₃) and availability of nutrients such as nitrogen (N) and phosphorus (P) in the soil can affect daytime water use through stomata, but the combined effects of O₃, N and P on night-time stomatal conductance (g_s) are not known. We investigated the effects of O₃ and soil availability of N and P on nocturnal g_s and the dynamics of stomatal response after leaf severing in an O₃-sensitive poplar clone (Oxford) subjected to combined treatments over a growing season in an O₃ free air controlled exposure (FACE) facility. The treatments were two soil N levels (0 and 80 kg N ha^-1; N0 and N80), three soil P levels (0, 40 and 80 kg P ha^-1; P0, P40 and P80) and three O₃ levels (ambient concentration, AA [35.0 ppb as hourly mean]; 1.5 × AA; 2.0 × AA). The analysis of stomatal dynamics after leaf severing suggested that O₃ impaired stomatal closure execution. As a result, nocturnal g_s was increased by 2.0 × AA O₃ in August (+39%) and September (+108%). Night-time g_s was correlated with POD₀ (phytotoxic O₃ dose) and increased exponentially after 40 mmol m^-2 POD₀. Such increase of nocturnal g_s was attributed to the emission of ethylene due to 2.0 × AA O₃ exposure, while foliar abscisic acid (ABA) or indole-3-acetic acid (IAA) did not affect g_s at night. Interestingly, the O₃-induced stomatal opening at night was limited by N treatments in August, but not limited in September. Phosphorus decreased nocturnal g_s, although P did not modify the O₃-induced stomatal dysfunction. The results suggest that the increased nocturnal g_s may be associated with a need to improve N acquisition to cope with O₃ stress.

Keywords: Nitrogen; Phosphorus; Poplar; Stomatal sluggishness; Tropospheric ozone.