4.7 Article

Effects of olive root warming on potassium transport and plant growth

Journal

JOURNAL OF PLANT PHYSIOLOGY
Volume 218, Issue -, Pages 182-188

Publisher

ELSEVIER GMBH
DOI: 10.1016/j.jplph.2017.07.018

Keywords

Climate change; Olea europaea L.; Potassium transport; Root warming; Rubidium uptake; Vegetative growth

Categories

Funding

  1. Consejeria de Economia y Conocimiento de la Junta de Andalucia Incentivos a Proyectos de Investigacion de Excelencia [AGR/7152]
  2. Plan Propio de Investigacion de la Universidad de Cordoba
  3. Programa Operativo de fondos FEDER Andalucia

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Young olive (Olea europaea L.) plants generated from seed were grown in liquid hydroponic medium exposing the roots system for 33 days or 24 h to high temperature (37 degrees C) while the aerial part to 25 degrees C aiming to determine the prolonged and immediate effects of root warming on K+(Rb+) transport in the root and consequently on plant growth. The exposition of the root system to 37 degrees C for 24 h inhibited K+ (Rb+) transport from root to shoot having no effect on its uptake. However, when the root system was exposed permanently to 37 degrees C both the K+ (Rb+) uptake and translocation to the aerial part were inhibited as well as the growth in all plants organs. The ability of the root system to recover K+ (Rb+) uptake and transport capacity after being exposed to high temperature was also evaluated. Plants grown in a root medium at 37 degrees C for 31 days were transferred to another at 25 degrees C for 48 or 96 h. The recovery of K+ (Rb+) root transport capacity after high root temperature was slow. Any signal of recovery was observed after 48 h without stress: both potassium root uptake and subsequent transport to above organs were inhibited yet. Whereas 96 h without stress led to restore potassium upward transport capacity although the uptake was partially inhibited yet. The results obtained in this study have shown that the root system of young olive plants is very sensitive to high temperature related to root potassium transport and growth of the plant. Taking into account the two processes involved in root potassium transport, the discharge of K+ to the xylem vessels was more affected than the uptake at the initial phase of high root temperature stress. However, it was the first process to be re-established during recovery. All this could explain the symptoms frequently observed in olive orchards when dry and high temperature spells occur: a reduction in shoots growth and leaves with low levels of potassium contents and dehydration symptoms.

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