Response of leaf photosynthesis, chlorophyll content and yield of hydroponic tomatoes to different water salinity levels

Al-Gaadi, Khalid A.; Tola, ElKamil; Madugundu, Rangaswamy; Zeyada, Ahmed M.; Alameen, Ahmed A.; Edrris, Mohamed K.; Edrees, Haroon F.; Mahjoop, Omer

doi:10.1371/journal.pone.0293098

PLoS ONE

2024

DOI: 10.1371/journal.pone.0293098

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Response of leaf photosynthesis, chlorophyll content and yield of hydroponic tomatoes to different water salinity levels

Khalid A. Al-Gaadi,

ElKamil Tola,

Rangaswamy Madugundu

et al.

Abstract: Tomato (Solanum lycopersicum L.) is an important vegetable crop that grows easily under controlled conditions, such as in greenhouses and hydroponics. To overcome freshwater scarcity, researchers are searching for alternatives to groundwater sources such as desalinated water (saline water) for irrigation. High salinity in irrigation water alters physiological functions and crop development, thereby reducing the yield. Best management practices and the use of grafted tomato plants on salt-tolerant rootstocks ca… Show more

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Cited by 6 publications

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Developing dual‐state ultra‐efficient emissive carbon dots as internal and external artificial antenna of chloroplasts to enhance plant‐photosynthesis

Zhao,

Wang,

et al. 2024

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Introducing fluorescent nanomaterials as artificial antennas of chloroplasts offers a promising approach to enhancing light harvesting in photosynthesis. However, this technology is limited by the dependence of the fluorescence efficiency of nanomaterials on dispersed states that cannot enable nanomaterials inside and outside leaves to play an antenna role. Here, we developed solution and solid dual‐state ultra‐efficient blue emissive carbon dots (DuB2‐CDs) by regulating the content of graphitic‐N, surface hydroxyl groups. and C–Si bonds based on a four‐component microwave synthesis. The as‐prepared DuB2‐CDs showed intense blue emission in aqueous solution and solid state, with absolute photoluminescence quantum yields of 84.04% and 95.69%, respectively. These features guaranteed that the internal (DuB2‐CDs infiltrating the mesophyll system) and external (DuB2‐CDs remaining on the surface of leaves) artificial antennas can simultaneously enhance the solar energy utilization efficiency of chloroplasts. Compared with the control groups without antenna use and internal antenna use only, the foliar application of DuB2‐CDs substantially enhanced the electron‐transport rate, net photosynthesis rate, psbA gene expression, NADPH production, and other plant physiological parameters of living plant during photosynthesis. This work provided a promising strategy for realizing dual‐state ultra‐efficient emissive CDs while maximizing living plant‐photosynthesis augmentation.

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Developing dual‐state ultra‐efficient emissive carbon dots as internal and external artificial antenna of chloroplasts to enhance plant‐photosynthesis

Zhao,

Wang,

et al. 2024

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Goat and sheep manure based vermicompost and vermi‐leachate as a nutrient source in drip hydroponic tomatoes (Solanum lycopersicum) and Swiss chard (Beta vulgaris)

Mupambwa,

Nyambe,

Matomola

et al. 2024

J of Sust Agri & Env

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IntroductionSmall stock animal manures have the potential to be used in arid countries to produce vermi‐leachate or vermi‐teas that can be effectively utilised in the hydroponic production of both leafy and fruity vegetables.Materials & MethodsOur study evaluated the potential of sheep and goat manure vermicompost (SGMVC) as an amendment to cocopeat at varying levels, as well as sheep and goat manure vermi‐leachate (SGMVL) diluted at 5%, 10%, and 20%, on crop phytotoxicity, seedling growth, and crop growth and yield.ResultsThe 100% inorganic Hygrotech fertiliser and SGML showed consistently high values for relative root elongation (RRE) and germination index (GI), with values above 90% for most treatments. However, the treatments with less SGMVC incorporation showed phytotoxic effects, with cocopeat alone having the lowest GI and RRE values. However, for direct seed germination, all treatments showed germination percentages above 80% for Swiss chard and above 70% for tomato, including the cocopeat alone treatment, indicating the complementary effects of the SGMVL irrigation source. For Swiss chard, the use of 10% and 20% leachate alone resulted in a 141.8% and 137.5% lower leaf area, respectively, compared to the treatments irrigated with Hygrotech fertiliser. Similarly, for tomatoes, the use of 10% and 20% leachate alone resulted in 129.2% and 143.4% lower leaf areas, respectively, compared to the Hygrotech irrigated treatments. For Swiss chard, the application of 0% VC resulted in an overall 43% reduction in leaf yield, whereas in tomato, it resulted in an overall 44% reduction in tomato fruit yield. The increased yield under 50% VC clearly indicated increased nutrient availability and enhanced water holding capacity of the media compared to when no SGMVC was added.ConclusionThis study showed that Swiss chard and tomato have different nutrient requirements, and the use of SGMVC should not be based on blanket recommendations from one crop. In addition, the use of reduced inorganic soluble fertilisers in combination with SGMVC has no economic benefits, as this reduced yield is almost proportional to the level of soluble fertiliser reduction.

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Evaluation of the Resistance of Bitter Cucumber (Momordica charantia) to Saline Stress through Physical, Biochemical, and Physiological Analysis

Ostaci,

Slabu,

Marta

et al. 2024

Horticulturae

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Momordica charantia is a climbing plant often used in traditional medicine to treat a large number of diseases, including diabetes. Salinity is one of the main stressors faced by plants, affecting almost half of irrigated agricultural land and constantly increasing. The aim of this study was to determine the resistance of some bitter cucumber genotypes to salt stress by means of dry matter analysis, chlorophyll a, chlorophyll b, malondialdehyde content, chlorophyll fluorescence, and potassium (K)/silicon (Si) and calcium (Ca)/silicon (Si) atomic ratios. Two varieties of bitter cucumber and three experimental lines were used for the experiment. Treatments with different saline solutions (100 mM of NaCl and 200 mM of NaCl) were applied and compared with an untreated control (0 mM of NaCl). The analyses revealed an increase in the dry matter content of the varieties subjected to salt stress. The Line 4 genotype showed an increase of up to 37.2% compared to the control when treated with 200 mM of NaCl. Following the analysis of the chlorophyll a content, a 38% decrease in its amount compared to the control was observed when treated with 100 mM of saline and 58.6% when treated with 200 mM of NaCl in genotype Line 4. Line 3 showed an increase in the chlorophyll a content compared to the control by 53% in the case of saline treatment with 200 mM. After the analysis of the chlorophyll b content, a 44% decrease was revealed in the case of Line 4 in the variant treated with 100 mM compared to the control and a 61% decrease in the 200 mM NaCl treatment. The highest increase in the concentration of malondialdehyde was recorded in the case of Line 4 in the variant treated with 200 mM of NaCl by 41% compared to the control. The maximum quantum yield of PS II decreased in the treated variants compared to the control plants. The most pronounced difference compared to the control was registered in the case of Line 4, where the treatment with 100 mM of NaCl caused a decrease of 16%, and the treatment with 200 mM caused a decrease of 25%. In the case of the atomic ratio, significant decreases in K and Ca were observed in the NaCl-treated variants. The observed differences between the values obtained for each studied genotype highlight the different degrees of their resistance to salinity.

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Response of leaf photosynthesis, chlorophyll content and yield of hydroponic tomatoes to different water salinity levels

Cited by 6 publications

References 32 publications

Developing dual‐state ultra‐efficient emissive carbon dots as internal and external artificial antenna of chloroplasts to enhance plant‐photosynthesis

Developing dual‐state ultra‐efficient emissive carbon dots as internal and external artificial antenna of chloroplasts to enhance plant‐photosynthesis

Goat and sheep manure based vermicompost and vermi‐leachate as a nutrient source in drip hydroponic tomatoes (Solanum lycopersicum) and Swiss chard (Beta vulgaris)

Evaluation of the Resistance of Bitter Cucumber (Momordica charantia) to Saline Stress through Physical, Biochemical, and Physiological Analysis

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