LEAF NUTRIENT CONTENT AND PHYSIOLOGICAL RESPONSES OF PHYSIC NUT SUBMITED TO SALT STRESS AND PHOSPHORUS

Aiming to evaluate gas exchange and concentration of macro and micronutrients in leaves of physic nut grown under saline conditions, an experiment was conducted in protected ambient adopting a randomized block design in factorial scheme combining five levels of irrigation water salinity ECw (0.6; 1.2; 1.8; 2.4 and 3.0 dS m(-1)) and two levels of phosphorus (135 and 200 g plant(-1)) and with four replications. Each plant was grown in pots with a capacity of 200 L. The gas exchange rates (leaf temperature, transpiration, stomatal conductance and photosynthesis) were obtained using a portable photosynthesis meter (IRGA), in the fourth expanded leaf from the apex of the plant. To determine the nutrient content of the plant, the limbo located between the fourth and fifth leaf below the inflorescence was used. The determination of nutrients followed the methodology described by Silva (1999). It was found that the salinity level of irrigation water affected the variables of gas exchange and accumulation of the minerals which has following sequence: K > N > Ca > Cl > Na > Mg > P > S > Fe > Mn > Zn > Cu. With the exception of copper all evaluated nutrients and increased with increasing salinity of irrigation water. The lowest dose of P2O5 used was sufficient to allow the development of the plant during the experimental period, there was no effect of its increase in photosynthetic parameters evaluated.