Ammonium (15N) metabolism in cotton under salt stress

Plant growth and metabolism is impaired under stress conditions, resulting in decreased crop yields. The purpose of this investigation was to evaluate the NaCl stress effects on NH⁺ ₄ metabolism in cotton plants at vegetative and reproductive stages of growth.

Cotton (Gossypium hirsutum L.) plants grown in normal (control) and NaCl treated Hoagland solutions were analyzed for distribution of N¹⁵ in NH⁺ ₄ plus amide‐N, free α‐amino‐N, total soluble‐N and protein‐N after the plants were provided ¹⁵NH₄NO₃ in nutrient solutions for 6, 12 and 24 h. The concentration of protein‐¹⁵N was enhanced under a low level of NaCl (‐0.4 MPa osmotic potential) at the vegetative growth stage. The difference between the protein‐¹⁵N concentration of the moderately salinized (‐0.8 MPa) plants and the controls was not significant. A high level of NaCl (‐1.2 MPa) significantly decreased protein‐N content of plants compared with the controls and any other level of salinity. The NaCl increased accumulation of NH₄ ⁺ plus amide‐N, free (α‐amino‐N, and total soluble‐N in cotton shoots, at both stages of growth. Low osmotic potential (high osmotic pressure) of the nutrient solution induced by excessive amounts of NaCl in nutrient solution inhibited NH⁺ ₄ metabolism and decreased protein synthesis, thus resulting in accumulation of soluble N‐compounds. The ionic effect probably contributed also to inhibition of protein synthesis.