PLoS ONE (Jan 2016)

Balancing Water Uptake and Loss through the Coordinated Regulation of Stomatal and Root Development.

  • Christopher Hepworth,
  • Carla Turner,
  • Marcela Guimaraes Landim,
  • Duncan Cameron,
  • Julie E Gray

DOI
https://doi.org/10.1371/journal.pone.0156930
Journal volume & issue
Vol. 11, no. 6
p. e0156930

Abstract

Read online

Root development is influenced by nutrient and water availabilities. Plants are able to adjust many attributes of their root in response to environmental signals including the size and shape of the primary root, lateral roots and root hairs. Here we investigated the response of roots to changes in the levels of leaf transpiration associated with altered stomatal frequency. We found that plants with high stomatal density and conductance produce a larger rooting area and as a result have enhanced phosphate uptake capacity whereas plants with low stomatal conductance produce a smaller root. Manipulating the growth environment of plants indicated that enhanced root growth is most likely a result of an increased demand for water rather than phosphate. Plants manipulated to have an increase or reduction in root hair growth show a reduction or increase respectively, in stomatal conductance and density. Our results demonstrate that plants can balance their water uptake and loss through coordinated regulation of both stomatal and root development.