Salinity and waterlogging (root-zone hypoxia) are abiotic stresses that often occur together on saltland. It is widely recognised that these two factors interact to increase Na+ and/or Cl- concentrations in shoots, which can have adverse effects on plant growth and survival. This review expands on this understanding, providing evidence that the adverse effects of the interaction are also associated with a disturbance to plant K+ homeostasis. This conclusion is based on a comparative analysis of changes in ion concentrations and growth reported in the literature between species (glycophytes vs halophytes) and within a single species (Hordeum marinum L.). Comparisons between species show that hypoxia under saline conditions causes simultaneous increases in Na+ and Cl- concentrations and decreases in K+ concentrations in shoots and that these changes can all be related to changes in shoot dry mass. Comparisons between accessions of a single species (Hordeum maritima L.) strengthen the argument, with increases in Na+ and decreases in K+ being related to decreases in shoot relative growth rate.
History
Publication title
Functional Plant Biology
Volume
40
Issue
9
Pagination
872-882
ISSN
1445-4408
Department/School
Tasmanian Institute of Agriculture (TIA)
Publisher
CSIRO Publishing
Place of publication
Australia
Rights statement
Journal compilation copyright 2013 CSIRO
Repository Status
Restricted
Socio-economic Objectives
Environmentally sustainable plant production not elsewhere classified