Suaeda maritima has long been used as a model to investigate the cellular basis of salt tolerance in plants, contributing significantly to the accepted emphases on compatible solutes and osmotic adjustment, selected transporters, and vacuolar sequestration. Physiological studies are slowly being extended toward transcriptomics.
Heritiera littoralis (Malvaceae), the Indo-West Pacific looking glass mangrove is capable of growing in full strength sea water, it is generally found at the terrestrial […]
The genus Rhizophora contains more species of mangrove than any other. Their tangled prop root systems – illustrated in the header photo – are the […]
Schrenkiella parvula – a 7 chromosome member of the Brassicaceae – has an eXtreme ability, in the natural world, to function in the hypersaline conditions surrounding Lake Tuz in central Anatolia, Turkey. It is also notable for its tolerance of high levels of other cations, especially Li+ and Mg2+ and of Boron. These extreme adaptations were central to the initial decision to sequence the genome of this species.
E. salsugineum (formerly Thellungiella salsuginea) was originally selected as a model organism because of its ability, in the natural world, to function in saline, cold, and freezing conditions, and for its efficient mobilization of resources in poor or degraded soils.