2024 : 11 : 22
Hamid Reza Roosta

Hamid Reza Roosta

Academic rank: Professor
ORCID: https://orcid.org/0000-0001-6110-8144
Education: PhD.
ScopusId: 23036696800
HIndex:
Faculty: Agriculture and Environment
Address: Arak University
Phone:

Research

Title
Improving strawberry plant resilience to salinity and alkalinity through the use of diverse spectra of supplemental lighting
Type
JournalPaper
Keywords
Abiotic stresses, Chlorophyll fluorescence, LED, Photosynthesis
Year
2024
Journal BMC Plant Biology
DOI
Researchers Mohammad Reza Malekzadeh Shamsabad ، Hamid Reza Roosta ، Majid Esmaeilizadeh ، Piotr Dabrowski ، Mohamad Hazem Kalaji

Abstract

Background This study explores the impact of various light spectra on the photosynthetic performance of strawberry plants subjected to salinity, alkalinity, and combined salinity/alkalinity stress. We employed supplemental lighting through Light-emitting Diodes (LEDs) with specific wavelengths: monochromatic blue (460 nm), monochromatic red (660 nm), dichromatic blue/red (1:3 ratio), and white/yellow (400–700 nm), all at an intensity of 200 μmol m- 2 S- 1. Additionally, a control group (ambient light) without LED treatment was included in the study. The tested experimental variants were: optimal growth conditions (control), alkalinity (40 mM NaHCO3), salinity (80 mM NaCl), and a combination of salinity/alkalinity. Results The results revealed a notable decrease in photosynthetic efficiency under both salinity and alkalinity stresses, especially when these stresses were combined, in comparison to the no-stress condition. However, the application of supplemental lighting, particularly with the red and blue/red spectra, mitigated the adverse effects of stress. The imposed stress conditions had a detrimental impact on both gas exchange parameters and photosynthetic efficiency of the plants. In contrast, treatments involving blue, red, and blue/red light exhibited a beneficial effect on photosynthetic efficiency compared to other lighting conditions. Further analysis of JIP-test parameters confirmed that these specific light treatments significantly ameliorated the stress impacts. Conclusions In summary, the utilization of blue, red, and blue/red light spectra has the potential to enhance plant resilience in the face of salinity and alkalinity stresses. This discovery presents a promising strategy for cultivating plants in anticipation of future challenging environmental conditions.