Mehdi Seif | University of Tehran (original) (raw)
Papers by Mehdi Seif
Journal of Plant Growth Regulation, 2020
Photosynthesis and stomata dynamically respond to transient changes in light intensity; however, ... more Photosynthesis and stomata dynamically respond to transient changes in light intensity; however, information regarding their long-term responses to the light intensity is limited. In the current study, biophysical properties of photosynthetic apparatus and stomatal characteristics of lettuce plants were investigated in response to long-term exposure to different photosynthetic photon flux densities (PPFDs) [75, 150, 300, and 600 µmol m −2 s −1 ]. Contrary to leaf growth, SLA decreased with increasing light intensity (i.e., thicker leaves under higher light intensity). Improving effect of higher light intensity on leaf fresh and dry weights was time dependent, in a way that the largest difference in biomass gain was observed following 40 days of exposure to the light treatments. Depending on the leaf developmental stages, exposure to higher light intensities caused faster development of photosynthesis system [in terms of improvement in the maximum quantum efficiency of photosystem II (PSII) and non-photochemical quenching (NPQ)] compared to lower light intensities. PSII performance index on an absorption basis was the highest under 600 PPFD. Small-sized stomata with narrow pore apertures were observed in plants grown under 75 PPFD; however, due to improvement in photosynthetic capacity and also the growth of the plants, water use efficiency (WUE) increased in a light intensity-dependent manner and the highest WUE was detected in 600 PPFD-exposed plants. In conclusion, exposing lettuce plants to higher light intensities (non-stress threshold levels) results in higher accumulation of biomass, faster development of photosynthetic system, and improved WUE.
Scientific Reports, 2020
Gamma-Aminobutyric acid (GABA) accumulates in plants following exposure to heavy metals. To inves... more Gamma-Aminobutyric acid (GABA) accumulates in plants following exposure to heavy metals. To investigate the role of GABA in cadmium (Cd) tolerance and elucidate the underlying mechanisms, GABA (0, 25 and 50 µM) was applied to Cd-treated maize plants. Vegetative growth parameters were improved in both Cd-treated and control plants due to GABA application. Cd uptake and translocation were considerably inhibited by GABA. Antioxidant enzyme activity was enhanced in plants subjected to Cd. Concurrently GABA caused further increases in catalase and superoxide dismutase activities, which led to a significant reduction in hydrogen peroxide, superoxide anion and malondealdehyde contents under stress conditions. Polyamine biosynthesis-responsive genes, namely ornithine decarboxylase and spermidine synthase, were induced by GABA in plants grown under Cd shock. GABA suppressed polyamine oxidase, a gene related to polyamine catabolism, when plants were exposed to Cd. Consequently, different form...
Physiology and Molecular Biology of Plants, 2019
Light spectrum of growing environment is a determinant factor for plant growth and photosynthesis... more Light spectrum of growing environment is a determinant factor for plant growth and photosynthesis. Plants under different light spectra exhibit different growth and photosynthetic behaviors. To unravel the effects of light spectra on plant growth, photosynthetic pigments and electron transport chain reactions, purple and green basil varieties were grown under five different light spectra including white (W: 400-730 nm), blue (B: 400-500 nm), red (R: 600-700 nm) and two combinations of R and B lights (R50B50 and R70B30), with same PPFD (photosynthetic photon flux density). Almost all values for shoot and root growth traits were higher in purple variety and were improved by combinational R and B lights (especially under R70B30), while they were negatively influenced by B monochromatic light when compared to growth traits of W-grown plants. Highest concentration of photosynthetic pigments was detected in R70B30. Biophysical properties of photosynthetic electron transport chain showed higher florescence intensity at all steps of OJIP kinetics in plants grown under R light in both varieties. Oxygen evolving complex activity (F v /F o) and PSII maximum quantum efficiency (F v /F m) in R-grown plants were lower than plants grown under other light spectra. Values for parameters related to specific energy fluxes per reaction center (ABS/RC, TR o /RC, ET o /RC and DI o /RC) were increased under R light (especially for purple variety). Performance index was significantly decreased under R light in both varieties. In conclusion, light spectra other than RB combination, induced various limitations on pigmentations, efficiency of electron transport and growth of basil plants and the responses were cultivar specific.
Acta Horticulturae, 2018
Quality of irrigation water is a critical factor for greenhouse production. A high concentration ... more Quality of irrigation water is a critical factor for greenhouse production. A high concentration of soluble salts is the main reason for high electrical conductivity (EC) of irrigation water. The low water quality available for agriculture is the main problem in many places of the world. Plant growth-promoting bacteria are free-living soil bacteria that can help plant growth without having pathogenic effects. In the current study, three concentrations of NaCl (0, 40 and 80 mM, which resulted in EC of 1, 4 and 8 mS, respectively) were added to the irrigation water. Half of the salt-treated plants were fed with the rhizobacterium Bacillus subtilis (OD=0.6) to test whether it can reduce the problems of medium and high EC of irrigation water on lettuce plants, cultivated in Perlite medium. Growth parameters, including fresh and dry weights, leaf area, leaf number and plant height of control plants, were considerably improved by application of B. subtilis in the root medium of lettuce plants. Furthermore, the growth of plants exposed to medium and high EC was improved by the presence of B. subtilis in their rhizosphere. Polyphasic chlorophyll fluorescence transient parameters such as absorption flux, trapping flux and quantum yield for energy dissipation were decreased in plants with B. subtilis in their rhizosphere, while electron transport flux per reaction center was increased in B. subtilis-treated plants. In conclusion, B. subtilis can be used in the root medium of greenhouse plants to prevent the toxic effects of high EC of irrigation water.
AoB PLANTS, 2018
Photosynthesis is defined as a light-dependent process; however, it is negatively influenced by h... more Photosynthesis is defined as a light-dependent process; however, it is negatively influenced by high light (HL) intensities. To investigate whether the memory of growth under monochromatic or combinational lights can influence plant responses to HL, rose plants were grown under different light spectra [including red (R), blue (B), 70:30 % red:blue (RB) and white (W)] and were exposed to HL (1500 μmol m s) for 12 h. Polyphasic chlorophyll a fluorescence (OJIP) transients revealed that although monochromatic R- and B-grown plants performed well under control conditions, the functionality of their electron transport system was more sensitive to HL than that of the RB- and W-grown plants. Before exposure to HL, the highest anthocyanin concentration was observed in R- and B-grown plants, while exposure to HL reduced anthocyanin concentration in both R- and B-grown plants. Ascorbate peroxidase and catalase activities decreased, while superoxide dismutase activity was increased after expos...
Plant physiology and biochemistry : PPB, Jan 3, 2018
Gamma-Amino Butyric Acid (GABA) is a substantial component of the free amino acid pool with low c... more Gamma-Amino Butyric Acid (GABA) is a substantial component of the free amino acid pool with low concentration in plant tissues. Enhanced GABA content occurs during plant growth and developmental processes like seed germination. GABA level, basically, alters in response to many endogenous and exogenous stimuli. In the current study, GABA effects were studied on germination, photosynthetic performance and oxidative damages in salt-exposed lettuce plants. Three NaCl (0, 40 and 80 mM) and two GABA (0 and 25 μM) concentrations were applied on lettuce during two different developmental (seed germination and seedlings growth) stages. Negative effects of salinity on germination and plant growth were removed by GABA application. GABA significantly reduced mean germination time (MGT) in salt-exposed lettuce seeds. Although, salinity caused a significant decline in maximum quantum yield of photosystem II (F/F) during distinct steps of plant growth, GABA application improved F/F particularly on...
Acta Horticulturae, 2020
Light is one of the most important environmental factors that can affect plant growth and develop... more Light is one of the most important environmental factors that can affect plant growth and development. Previous studies indicated that plants under different light qualities exhibit different photosynthetic characteristics. However, there is limited study underlying related photosynthetic electron transport under different light qualities. To unravel the effects of light quality on photosynthetic electron transport chain, chrysanthemum (Chrysanthemum morifolium) plants were grown under four different light qualities including white (400-730 nm), blue monochromatic light (450 nm), red monochromatic light (635-665 nm) and a combination of red and blue (R:B=70:30), with the same photosynthetic photon flux density (PPFD) (250 µmol m-2 s-1). The results showed that using monochromatic light during growth of chrysanthemum led to some defects on electron transport chain, while using full visible spectrum (white light) or combination of red and blue lights resulted in normal performance of electron transport chain. Between monochromatic lights, using red light significantly increased dissipated energy flux, absorption and energy trapping fluxes per reaction center when compared with other light treatments. On the other hand, red light caused a significant decrease in the performance index for energy conservation, maximal quantum yield of primary photochemistry, quantum yield of electron transport and maximum quantum yield of photosystem II than other light treatments. Maximal quantum yield of primary photochemistry in monochromatic lights was considerably decreased when compared to white or RB lights. In conclusion, monochromatic lights can decrease efficiency of electron transport chain in the photosynthetic apparatus of the chrysanthemum plants.
Functional Plant Biology, 2021
Light emitting diodes (LEDs) now enable precise light quality control. Prior to commercialisation... more Light emitting diodes (LEDs) now enable precise light quality control. Prior to commercialisation however, the plant response to the resultant light quality regime ought to be addressed. The response was examined here in chrysanthemum by evaluating growth, chlorophyll fluorescence (before and following water deficit), as well as stomatal anatomy (density, size, pore dimensions and aperture heterogeneity) and closing ability. Plants were grown under blue (B), red (R), a mixture of R (70%) and B (RB), or white (W; 41% B, 39% intermediate spectrum, 20% R) light LEDs. Although R light promoted growth, it also caused leaf deformation (epinasty) and disturbed the photosynthetic electron transport system. The largest stomatal size was noted following growth under B light, whereas the smallest under R light. The largest stomatal density was observed under W light. Monochromatic R light stimulated both the rate and the degree of stomatal closure in response to desiccation compared with the o...
Journal of Horticultural Science, 2018
Light is the driving force for plant photosynthesis. Different attributes of light (e.g. intensit... more Light is the driving force for plant photosynthesis. Different attributes of light (e.g. intensity, spectrum and duration) can influence plant growth and development. We studied growth and photosystem II performance ofEnglish marigold cut flowers under red (635-665 nm) and white (420-700 nm) LEDs. Although growing plants under red light resulted in morphological deformation such as leaf epinasty, it led to an early flowering and improved growth compared with white light-grown plants. In plants that were grown under red light, flowers were emerged 45 days after germination. In the time of flowering, there were 30 leaves (sum of rosette and lateral leaves) on the red light-grown plants, while 20 leaves were observed on white light-grown plants without flowering on day 45. Fast induction of chlorophyll fluorescence showed that fluorescence intensities of O-J-I-P phases in a typical fluorescence transient exhibited after a 20 min dark-adapted leaves were increased in red light-grown pla...
Agricultural Water Management
Notulae Botanicae Horti Agrobotanici Cluj-Napoca
Carbon dioxide (CO2) and light intensity are the two main environmental drivers known to play imp... more Carbon dioxide (CO2) and light intensity are the two main environmental drivers known to play important roles in crop growth and yield. In the current study, lettuce seedlings were exposed to four different light intensities [(75, 150, 300 and 600 Photosynthetic Photon Flux Density (PPFD)] and four different concentrations of CO2 (400, 800, 1200 and 1600 ppm). By increasing light intensity and CO2 concentration growth parameters such as fresh weight, dry weight and leaf area were stepwise increased from 75 to 300 PPFD and from 400 ppm to 1200 ppm CO2 concentration. Maximum fresh weight was observed in 300 PPFD under both 1200 ppm and 1600 ppm CO2 concentrations. Highest dry weight was obtained in plants exposed to 300 and 600 PPFD under both 1200 and 1600 ppm CO2 concentrations. Highest leaf area was detected in 300 PPFD under both 1200 and 1600 ppm CO2 concentrations. Widest stomatal pore aperture was detected in 600 PPFD under 400 ppm and 800 ppm CO2 concentrations. Evapotranspira...
Cells
GABA (gamma-aminobutyric acid) and melatonin are endogenous compounds that enhance plant response... more GABA (gamma-aminobutyric acid) and melatonin are endogenous compounds that enhance plant responses to abiotic stresses. The response of Vicia faba to different stressors (salinity (NaCl), poly ethylene glycol (PEG), and sulfur dioxide (SO2)) was studied after priming with sole application of GABA and melatonin or their co-application (GABA + melatonin). Both melatonin and GABA and their co-application increased leaf area, number of flowers, shoot dry and fresh weight, and total biomass. Plants treated with GABA, melatonin, and GABA + melatonin developed larger stomata with wider aperture compared to the stomata of control plants. The functionality of the photosynthetic system was improved in primed plants. To investigate the photosynthetic functionality in details, the leaf samples of primed plants were exposed to different stressors, including SO2, PEG, and NaCl. The maximum quantum yield of photosystem II (PS II) was higher in the leaf samples of primed plants, while the non-photo...
Journal of Plant Growth Regulation, 2020
Photosynthesis and stomata dynamically respond to transient changes in light intensity; however, ... more Photosynthesis and stomata dynamically respond to transient changes in light intensity; however, information regarding their long-term responses to the light intensity is limited. In the current study, biophysical properties of photosynthetic apparatus and stomatal characteristics of lettuce plants were investigated in response to long-term exposure to different photosynthetic photon flux densities (PPFDs) [75, 150, 300, and 600 µmol m −2 s −1 ]. Contrary to leaf growth, SLA decreased with increasing light intensity (i.e., thicker leaves under higher light intensity). Improving effect of higher light intensity on leaf fresh and dry weights was time dependent, in a way that the largest difference in biomass gain was observed following 40 days of exposure to the light treatments. Depending on the leaf developmental stages, exposure to higher light intensities caused faster development of photosynthesis system [in terms of improvement in the maximum quantum efficiency of photosystem II (PSII) and non-photochemical quenching (NPQ)] compared to lower light intensities. PSII performance index on an absorption basis was the highest under 600 PPFD. Small-sized stomata with narrow pore apertures were observed in plants grown under 75 PPFD; however, due to improvement in photosynthetic capacity and also the growth of the plants, water use efficiency (WUE) increased in a light intensity-dependent manner and the highest WUE was detected in 600 PPFD-exposed plants. In conclusion, exposing lettuce plants to higher light intensities (non-stress threshold levels) results in higher accumulation of biomass, faster development of photosynthetic system, and improved WUE.
Scientific Reports, 2020
Gamma-Aminobutyric acid (GABA) accumulates in plants following exposure to heavy metals. To inves... more Gamma-Aminobutyric acid (GABA) accumulates in plants following exposure to heavy metals. To investigate the role of GABA in cadmium (Cd) tolerance and elucidate the underlying mechanisms, GABA (0, 25 and 50 µM) was applied to Cd-treated maize plants. Vegetative growth parameters were improved in both Cd-treated and control plants due to GABA application. Cd uptake and translocation were considerably inhibited by GABA. Antioxidant enzyme activity was enhanced in plants subjected to Cd. Concurrently GABA caused further increases in catalase and superoxide dismutase activities, which led to a significant reduction in hydrogen peroxide, superoxide anion and malondealdehyde contents under stress conditions. Polyamine biosynthesis-responsive genes, namely ornithine decarboxylase and spermidine synthase, were induced by GABA in plants grown under Cd shock. GABA suppressed polyamine oxidase, a gene related to polyamine catabolism, when plants were exposed to Cd. Consequently, different form...
Physiology and Molecular Biology of Plants, 2019
Light spectrum of growing environment is a determinant factor for plant growth and photosynthesis... more Light spectrum of growing environment is a determinant factor for plant growth and photosynthesis. Plants under different light spectra exhibit different growth and photosynthetic behaviors. To unravel the effects of light spectra on plant growth, photosynthetic pigments and electron transport chain reactions, purple and green basil varieties were grown under five different light spectra including white (W: 400-730 nm), blue (B: 400-500 nm), red (R: 600-700 nm) and two combinations of R and B lights (R50B50 and R70B30), with same PPFD (photosynthetic photon flux density). Almost all values for shoot and root growth traits were higher in purple variety and were improved by combinational R and B lights (especially under R70B30), while they were negatively influenced by B monochromatic light when compared to growth traits of W-grown plants. Highest concentration of photosynthetic pigments was detected in R70B30. Biophysical properties of photosynthetic electron transport chain showed higher florescence intensity at all steps of OJIP kinetics in plants grown under R light in both varieties. Oxygen evolving complex activity (F v /F o) and PSII maximum quantum efficiency (F v /F m) in R-grown plants were lower than plants grown under other light spectra. Values for parameters related to specific energy fluxes per reaction center (ABS/RC, TR o /RC, ET o /RC and DI o /RC) were increased under R light (especially for purple variety). Performance index was significantly decreased under R light in both varieties. In conclusion, light spectra other than RB combination, induced various limitations on pigmentations, efficiency of electron transport and growth of basil plants and the responses were cultivar specific.
Acta Horticulturae, 2018
Quality of irrigation water is a critical factor for greenhouse production. A high concentration ... more Quality of irrigation water is a critical factor for greenhouse production. A high concentration of soluble salts is the main reason for high electrical conductivity (EC) of irrigation water. The low water quality available for agriculture is the main problem in many places of the world. Plant growth-promoting bacteria are free-living soil bacteria that can help plant growth without having pathogenic effects. In the current study, three concentrations of NaCl (0, 40 and 80 mM, which resulted in EC of 1, 4 and 8 mS, respectively) were added to the irrigation water. Half of the salt-treated plants were fed with the rhizobacterium Bacillus subtilis (OD=0.6) to test whether it can reduce the problems of medium and high EC of irrigation water on lettuce plants, cultivated in Perlite medium. Growth parameters, including fresh and dry weights, leaf area, leaf number and plant height of control plants, were considerably improved by application of B. subtilis in the root medium of lettuce plants. Furthermore, the growth of plants exposed to medium and high EC was improved by the presence of B. subtilis in their rhizosphere. Polyphasic chlorophyll fluorescence transient parameters such as absorption flux, trapping flux and quantum yield for energy dissipation were decreased in plants with B. subtilis in their rhizosphere, while electron transport flux per reaction center was increased in B. subtilis-treated plants. In conclusion, B. subtilis can be used in the root medium of greenhouse plants to prevent the toxic effects of high EC of irrigation water.
AoB PLANTS, 2018
Photosynthesis is defined as a light-dependent process; however, it is negatively influenced by h... more Photosynthesis is defined as a light-dependent process; however, it is negatively influenced by high light (HL) intensities. To investigate whether the memory of growth under monochromatic or combinational lights can influence plant responses to HL, rose plants were grown under different light spectra [including red (R), blue (B), 70:30 % red:blue (RB) and white (W)] and were exposed to HL (1500 μmol m s) for 12 h. Polyphasic chlorophyll a fluorescence (OJIP) transients revealed that although monochromatic R- and B-grown plants performed well under control conditions, the functionality of their electron transport system was more sensitive to HL than that of the RB- and W-grown plants. Before exposure to HL, the highest anthocyanin concentration was observed in R- and B-grown plants, while exposure to HL reduced anthocyanin concentration in both R- and B-grown plants. Ascorbate peroxidase and catalase activities decreased, while superoxide dismutase activity was increased after expos...
Plant physiology and biochemistry : PPB, Jan 3, 2018
Gamma-Amino Butyric Acid (GABA) is a substantial component of the free amino acid pool with low c... more Gamma-Amino Butyric Acid (GABA) is a substantial component of the free amino acid pool with low concentration in plant tissues. Enhanced GABA content occurs during plant growth and developmental processes like seed germination. GABA level, basically, alters in response to many endogenous and exogenous stimuli. In the current study, GABA effects were studied on germination, photosynthetic performance and oxidative damages in salt-exposed lettuce plants. Three NaCl (0, 40 and 80 mM) and two GABA (0 and 25 μM) concentrations were applied on lettuce during two different developmental (seed germination and seedlings growth) stages. Negative effects of salinity on germination and plant growth were removed by GABA application. GABA significantly reduced mean germination time (MGT) in salt-exposed lettuce seeds. Although, salinity caused a significant decline in maximum quantum yield of photosystem II (F/F) during distinct steps of plant growth, GABA application improved F/F particularly on...
Acta Horticulturae, 2020
Light is one of the most important environmental factors that can affect plant growth and develop... more Light is one of the most important environmental factors that can affect plant growth and development. Previous studies indicated that plants under different light qualities exhibit different photosynthetic characteristics. However, there is limited study underlying related photosynthetic electron transport under different light qualities. To unravel the effects of light quality on photosynthetic electron transport chain, chrysanthemum (Chrysanthemum morifolium) plants were grown under four different light qualities including white (400-730 nm), blue monochromatic light (450 nm), red monochromatic light (635-665 nm) and a combination of red and blue (R:B=70:30), with the same photosynthetic photon flux density (PPFD) (250 µmol m-2 s-1). The results showed that using monochromatic light during growth of chrysanthemum led to some defects on electron transport chain, while using full visible spectrum (white light) or combination of red and blue lights resulted in normal performance of electron transport chain. Between monochromatic lights, using red light significantly increased dissipated energy flux, absorption and energy trapping fluxes per reaction center when compared with other light treatments. On the other hand, red light caused a significant decrease in the performance index for energy conservation, maximal quantum yield of primary photochemistry, quantum yield of electron transport and maximum quantum yield of photosystem II than other light treatments. Maximal quantum yield of primary photochemistry in monochromatic lights was considerably decreased when compared to white or RB lights. In conclusion, monochromatic lights can decrease efficiency of electron transport chain in the photosynthetic apparatus of the chrysanthemum plants.
Functional Plant Biology, 2021
Light emitting diodes (LEDs) now enable precise light quality control. Prior to commercialisation... more Light emitting diodes (LEDs) now enable precise light quality control. Prior to commercialisation however, the plant response to the resultant light quality regime ought to be addressed. The response was examined here in chrysanthemum by evaluating growth, chlorophyll fluorescence (before and following water deficit), as well as stomatal anatomy (density, size, pore dimensions and aperture heterogeneity) and closing ability. Plants were grown under blue (B), red (R), a mixture of R (70%) and B (RB), or white (W; 41% B, 39% intermediate spectrum, 20% R) light LEDs. Although R light promoted growth, it also caused leaf deformation (epinasty) and disturbed the photosynthetic electron transport system. The largest stomatal size was noted following growth under B light, whereas the smallest under R light. The largest stomatal density was observed under W light. Monochromatic R light stimulated both the rate and the degree of stomatal closure in response to desiccation compared with the o...
Journal of Horticultural Science, 2018
Light is the driving force for plant photosynthesis. Different attributes of light (e.g. intensit... more Light is the driving force for plant photosynthesis. Different attributes of light (e.g. intensity, spectrum and duration) can influence plant growth and development. We studied growth and photosystem II performance ofEnglish marigold cut flowers under red (635-665 nm) and white (420-700 nm) LEDs. Although growing plants under red light resulted in morphological deformation such as leaf epinasty, it led to an early flowering and improved growth compared with white light-grown plants. In plants that were grown under red light, flowers were emerged 45 days after germination. In the time of flowering, there were 30 leaves (sum of rosette and lateral leaves) on the red light-grown plants, while 20 leaves were observed on white light-grown plants without flowering on day 45. Fast induction of chlorophyll fluorescence showed that fluorescence intensities of O-J-I-P phases in a typical fluorescence transient exhibited after a 20 min dark-adapted leaves were increased in red light-grown pla...
Agricultural Water Management
Notulae Botanicae Horti Agrobotanici Cluj-Napoca
Carbon dioxide (CO2) and light intensity are the two main environmental drivers known to play imp... more Carbon dioxide (CO2) and light intensity are the two main environmental drivers known to play important roles in crop growth and yield. In the current study, lettuce seedlings were exposed to four different light intensities [(75, 150, 300 and 600 Photosynthetic Photon Flux Density (PPFD)] and four different concentrations of CO2 (400, 800, 1200 and 1600 ppm). By increasing light intensity and CO2 concentration growth parameters such as fresh weight, dry weight and leaf area were stepwise increased from 75 to 300 PPFD and from 400 ppm to 1200 ppm CO2 concentration. Maximum fresh weight was observed in 300 PPFD under both 1200 ppm and 1600 ppm CO2 concentrations. Highest dry weight was obtained in plants exposed to 300 and 600 PPFD under both 1200 and 1600 ppm CO2 concentrations. Highest leaf area was detected in 300 PPFD under both 1200 and 1600 ppm CO2 concentrations. Widest stomatal pore aperture was detected in 600 PPFD under 400 ppm and 800 ppm CO2 concentrations. Evapotranspira...
Cells
GABA (gamma-aminobutyric acid) and melatonin are endogenous compounds that enhance plant response... more GABA (gamma-aminobutyric acid) and melatonin are endogenous compounds that enhance plant responses to abiotic stresses. The response of Vicia faba to different stressors (salinity (NaCl), poly ethylene glycol (PEG), and sulfur dioxide (SO2)) was studied after priming with sole application of GABA and melatonin or their co-application (GABA + melatonin). Both melatonin and GABA and their co-application increased leaf area, number of flowers, shoot dry and fresh weight, and total biomass. Plants treated with GABA, melatonin, and GABA + melatonin developed larger stomata with wider aperture compared to the stomata of control plants. The functionality of the photosynthetic system was improved in primed plants. To investigate the photosynthetic functionality in details, the leaf samples of primed plants were exposed to different stressors, including SO2, PEG, and NaCl. The maximum quantum yield of photosystem II (PS II) was higher in the leaf samples of primed plants, while the non-photo...