G. KAYA, "A plant-derived biostimulant Aminolom Enzimatico® application stimulates chlorophyll content, electrolyte leakage, stomata density and root yield of radishes under salinity stress," PeerJ , vol.13, no.1, 2025
KAYA, G. 2025. A plant-derived biostimulant Aminolom Enzimatico® application stimulates chlorophyll content, electrolyte leakage, stomata density and root yield of radishes under salinity stress. PeerJ , vol.13, no.1 .
KAYA, G., (2025). A plant-derived biostimulant Aminolom Enzimatico® application stimulates chlorophyll content, electrolyte leakage, stomata density and root yield of radishes under salinity stress. PeerJ , vol.13, no.1.
KAYA, GAMZE. "A plant-derived biostimulant Aminolom Enzimatico® application stimulates chlorophyll content, electrolyte leakage, stomata density and root yield of radishes under salinity stress," PeerJ , vol.13, no.1, 2025
KAYA, GAMZE. "A plant-derived biostimulant Aminolom Enzimatico® application stimulates chlorophyll content, electrolyte leakage, stomata density and root yield of radishes under salinity stress." PeerJ , vol.13, no.1, 2025
KAYA, G. (2025) . "A plant-derived biostimulant Aminolom Enzimatico® application stimulates chlorophyll content, electrolyte leakage, stomata density and root yield of radishes under salinity stress." PeerJ , vol.13, no.1.
@article{article, author={GAMZE KAYA}, title={A plant-derived biostimulant Aminolom Enzimatico® application stimulates chlorophyll content, electrolyte leakage, stomata density and root yield of radishes under salinity stress}, journal={PeerJ}, year=2025}