Akademik Veri Yönetim Sistemi
ENVIRONMENT, DEVELOPMENT AND SUSTAINABILITY A MULTIDISCIPLINARY APPROACH TO THE THEORY AND PRACTICE OF SUSTAINABLE DEVELOPMENT, cilt.27, sa.3, ss.1-25, 2025 (SCI-Expanded)
This study aimed to determine the effects of selected plant growth-promoting silver nanoparticles (AgNPs) on certain physiological traits, plant growth, enzyme activity, and plant nutrient content of lettuce grown under different irrigation regimes. In this research, four irrigation regimes were tested as experiments in a randomized complete block design layout: I100 (full irrigation), I80 (20% deficit), I60 (40% deficit), and I40 (60% deficit). Additionally, four nanoparticle doses (AgNP0, 0 ppm; AgNP20, 20 ppm; AgNP40, 40 ppm; and AgNP80, 80 ppm) were applied to the crop. The results demonstrated that the head diameter of lettuce decreased by 28% and 30% under the I60 and I40 water stress conditions, respectively. However, AgNPs enhanced the head diameter of lettuce by 10.9% compared to the control (non-application of AgNPs). The application of AgNPs increased the nutrient content of lettuce, including potassium (K), sodium (Na), iron (Fe), copper (Cu), and manganese (Mn), by 38%, 19%, 23%, 367%, and 20%, respectively. Plant height was 98.2% higher in the full irrigation treatment (I100) than in the 40% irrigation treatment (I40). Dry matter content was 10.2% higher in the AgNP80 treatment compared to the AgNP0 treatment. In addition, the highest catalase (CAT) enzyme content was obtained in the AgNP40 treatment. The present research suggests that applying AgNPs represents a sustainable and eco-friendly strategy for improving lettuce’s plant growth and nutrient uptake under water stress conditions. Therefore, AgNPs can be used in drought stress tolerance studies.