Salinity is one of the main stresses that negatively affect plant growth and development. The present research aims to reduce
the harmful effects of salinity by Chitosan- Selenium nanoparticles. A factorial experiment was arranged based on a ran-
domized completely design with three replicates, and one-year old grafted C. sinensis (cv. Valencia) seedlings imposed to
control, and salinity stress by NaCl (100 mM). Two weeks after starting salinity stress the seedlings treated with distillated
water (WT), Chitosan (CS; 0.1% W: V), 20 mg L−1 Selenium nanoparticles (Se NPs), and 10 and 20 mg L−1 Chitosan-
Selenium (CS/Se NPs). Salinity stress continued about three month to appeared visual salinity stress symptoms. Then, evalu-
ated the growth and biochemical parameters of seedlings, and concentration of elements in leaves. Our result showed, the
salinity stress increased accumulation of Sodium (Na) by 112%, while decreased Potassium (K), Zinc (Zn) and Phosphorus
(P) by 15, 12 and 28%, respectively in compared to non-saline conditions in leaves. Due to accumulation of Na intense,
occurred an increase in reactive oxygen species (ROS) 39% and Malondialdehyde (MDA) by 118%, damaged cell membrane
that appeared as a decrease in membrane stability index (MSI) by 29%. Also, activated the antioxidant system by increase
in phenol, flavonoids and anthocyanin, increased osmolyts production such as, soluble carbohydrates (45%) and proline
(347%). Furthermore, growth parameters such as leaf number, shoot fresh weight, root and shoot dry weight decreased by
58, 45, 19, and 43%, respectively. On the other hand, foliar spraying with CS/Se NPs (20 mg L −1 ) under the salinity stress
conditions improved the negative effects of salinity stress by decrease in accumulation of Na (19%) and Na/K ratio (21%),
due to decrease in the content of ROS (37%) and MDA (20%), and increase in MSI (47%). Finally, improved the growth
parameters such as leaf number (268%), fresh weight of roots (32%) and shoots (26%), and dry weight of roots (19%). Our
results supported the positive effect of CS/Se NPs application at 20 mgL −1 on managing the negative effects of the salinity
stress on the quality of C. sinensis grafted seedlings by reducing Na accumulation and Na/K ratio, protecting against oxida-
tive damage, regulating membrane stability and improving seedling growth.