Abstract
Summary The prevalence of sodium (Na)‐‘hyperaccumulator’ species, which exhibit abnormally large shoot sodium concentrations ([Na]shoot) when grown in nonsaline environments, was investigated among angiosperms in general and within the Caryophyllales order in particular.Shoot Na concentrations were determined in 334 angiosperm species, representing 35 orders, grown hydroponically in a nonsaline solution.Many Caryophyllales species exhibited abnormally large [Na]shoot when grown hydroponically in a nonsaline solution. The bimodal distribution of the log‐normal [Na]shoot of species within the Caryophyllales suggested at least two distinct [Na]shoot phenotypes within this order. Mapping the trait of Na‐hyperaccumulation onto the phylogenetic relationships between Caryophyllales families, and between subfamilies within the Amaranthaceae, suggested that the trait evolved several times within this order: in an ancestor of the Aizoaceae, but not the Phytolaccaceae or Nyctaginaceae, in ancestors of several lineages formerly classified as Chenopodiaceae, but not in the Amaranthaceae sensu stricto, and in ancestors of species within the Cactaceae, Portulacaceae, Plumbaginaceae, Tamaricaceae and Polygonaceae.In conclusion, a disproportionate number of Caryophyllales species behave as Na‐hyperaccumulators, and multiple evolutionary origins of this trait can be identified within this order.
Highlights
Sodium (Na) is not considered to be an essential element for plants (White & Brown 2010) it is required for the C4 photosynthetic pathway (Cheeseman, 2015) and some halophytes grow better when supplied Na (Greenway & Munns, 1980; Albert, 1982; Flowers & Colmer, 2008; Munns & Tester, 2008; Rozema & Schat, 2013)
The present study investigated the prevalence of “Na-hyperaccumulator” species, which exhibit abnormally large [Na]shoot (>4 mg Na g-1 dry matter) when grown in non-saline conditions (
The shoot fresh weight (FW) of Asparagus officinalis (P=0.0193) and Kosteletzkya virginica (P=0.0430) were less in plants irrigated with saline solutions than in those irrigated with non-saline solutions, whereas the shoot FWs of Atriplex hortensis (P=0.0090) were greater in plants irrigated with a saline solutions than those irrigated with non-saline solutions
Summary
Sodium (Na) is not considered to be an essential element for plants (White & Brown 2010) it is required (in micronutrient quantities) for the C4 photosynthetic pathway (Cheeseman, 2015) and some halophytes (euhalophytes) grow better when supplied Na (Greenway & Munns, 1980; Albert, 1982; Flowers & Colmer, 2008; Munns & Tester, 2008; Rozema & Schat, 2013). K+ phytoavailability, plant growth can benefit from a source of Na since Na+ can replace K+ as a cationic osmoticum in the vacuole (White, 2013). The accumulation of excessive Na concentrations in plant tissues is, detrimental to plant growth since Na+ interferes with metabolism in the cytoplasm, mitochondria and plastids (Flowers et al, 2015). Saline soils are generally dominated by NaCl, there are often significant concentrations of Ca2+, Mg2+, SO42- and CO32-. They are defined as having 2 dS m-1 in a saturated paste extract, which equates to a NaCl concentration of 20 mM, and pH
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