Metabolic mapping of drought tolerance: revealing how citrus rootstocks
modulate plant metabolism under varying water availability
- Simone Silva,
- Marcela Miranda,
- Camila Cunha,
- Adilson Domingues,
- Juliana Aricetti,
- Camila Caldana,
- Eduardo Machado,
- Rafael Ribeiro
Camila Caldana
Max Planck Institute of Molecular Plant Physiology
Author ProfileRafael Ribeiro
University of Campinas
Corresponding Author:rvr@unicamp.br
Author ProfileAbstract
Water stress is a major environmental factor affecting Citrus spp. and
Rangpur lime is a drought-tolerant rootstock used to improve orange
yield in rainfed orchards. Aiming a comprehensive spatio-temporal
evaluation of citrus responses to drought, we combined
morpho-physiological analyses with metabolic profiling of roots and
leaves of Valencia orange scions grafted onto Rangpur lime, Swingle
citrumelo or Sunki mandarin rootstocks under water deficit. Plant
responses were evaluated during the initial phase of reduction in water
availability, when water deficit was maximum and after rehydration.
Fifty-eight primary metabolites were modulated by water deficit, mainly
amino acids, organic acids and sugars. Metabolic changes indicated
adjustments related to osmotic, energetic and redox processes under low
water availability, which were dependent on rootstock and varied between
roots and leaves and along the experimental period. Water deficit
induced minor metabolic changes in Swingle citrumelo rootstock, while
Sunki mandarin invested more energy in protective compounds. Regarding
the drought tolerant rootstock, our data revealed a more advantageous
strategy of Rangpur lime when facing water deficit, which combines cell
protection through the reinforcement of antioxidant metabolism and the
maintenance of energy supply to first improve root growth during water
shortage and then shoot growth just after rewatering.