Type of Anion Largely Determines Salinity Tolerance in Four Species.

The aim of the present study was to compare the effect of various salts composed of different cations (Na, K) and anions (chloride, nitrate, nitrite) on growth, development and ion accumulation in three species with accessions from sea coast habitats ( and ) and from an inland habitat. Plants were cultivated in soil in an experimental automated greenhouse during the autumn-winter season. Nitrite salts strongly inhibited growth of all species, but was the least sensitive. Negative effects of chloride salts were rather little-pronounced, but nitrates resulted in significant growth stimulation, plant growth and development. Effects of Na and K at the morphological level were relatively similar, but treatment with K salts resulted in both higher tissue electrolyte levels and proportion of senescent leaves, especially for chloride salts. Increases in tissue water content in leaves were associated with anion type, and were most pronounced in nitrate-treated plants, resulting in dilution of electrolyte concentration. At the morphological level, salinity responses of and were similar, but at the developmental and physiological level, and showed more similar salinity effects. In conclusion, the salinity tolerance of all coastal species was high, but the inland species was the least tolerant to salinity. Similarity in effects between Na and K could be related to the fact that surplus Na and K has similar fate (including mechanisms of uptake, translocation and compartmentation) in relatively salt-tolerant species. However, differences between various anions are most likely related to differences in physiological functions and metabolic fate of particular ions.