Characterization of the ecophysiological responses of three pomegranate cultivars to salinity

Olmo, Ángel Rubio; Garcı́a-Sánchez, Francisco; Simón, I.; Lidón, Vicente; Alfosea-Simón, Marina; Zapata, José María Cámara; Martínez-Nicolás, Juan José; Simón-Grao, Silvia

doi:10.32615/ps.2019.103

Cited by 12 publications

(8 citation statements)

References 31 publications

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“…More tolerance in some accessions in the present study and better biochamical and physiological performance can be attributed to these mechanisms. The decrease in plant growth, under NaCl exposure, can be attributed to the changes in osmotic pressure by salinity, as a result of excessive ion accumulation in plants, followed by nutritional disequilibrium (Munns, 2002;Olmo et al, 2019). Leaf area influences photosynthetic performance and the buildup of photosynthetic products.…”

Section: Discussionmentioning

confidence: 99%

Photosynthesis and chlorophyll fluorescence of Iranian licorice (Glycyrrhiza glabra l.) accessions under salinity stress

2022

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While salinity is increasingly becoming a prominent concern in arable farms around the globe, various treatments can be used for the mitigation of salt stress. Here, the effective presence of Azotobacter sp. inoculation (A1) and absence of inoculation (A0) was evaluated on Iranian licorice plants under NaCl stress (0 and 200 mM) (S0 and S1, respectively). In this regard, 16 Iranian licorice (Glycyrrhiza glabra L.) accessions were evaluated for the effects on photosynthesis and chlorophyll fluorescence. Leaf samples were measured for photosynthetic pigments (via a spectrophotometer), stomatal and trichome-related features (via SEM), along with several other morphological and biochemical features. The results revealed an increase in the amount of carotenoids that was caused by bacterial inoculation, which was 28.3% higher than the non-inoculated treatment. Maximum initial fluorescence intensity (F0) (86.7) was observed in the ‘Bardsir’ accession. Meanwhile, the highest variable fluorescence (Fv), maximal fluorescence intensity (Fm), and maximum quantum yield (Fv/Fm) (0.3, 0.4, and 0.8, respectively) were observed in the ‘Eghlid’ accession. Regarding anatomical observations of the leaf structure, salinity reduced stomatal density but increased trichome density. Under the effect of bacterial inoculation, salinity stress was mitigated. With the effect of bacterial inoculation under salinity stress, stomatal length and width increased, compared to the condition of no bacterial inoculation. Minimum malondialdehyde content was observed in ‘Mahabad’ accession (17.8 μmol/g FW). Principle component analysis (PCA) showed that ‘Kashmar’, ‘Sepidan’, ‘Bajgah’, ‘Kermanshah’, and ‘Taft’ accessions were categorized in the same group while being characterized by better performance in the aerial parts of plants. Taken together, the present results generally indicated that selecting the best genotypes, along with exogenous applications of Azotobacter, can improve the outcomes of licorice cultivation for industrial purposes under harsh environments.

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Section: Discussionmentioning

confidence: 99%

Photosynthesis and chlorophyll fluorescence of Iranian licorice (Glycyrrhiza glabra l.) accessions under salinity stress

2022

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“…As for stomatal conductance and transpiration, the increase in electrical conductivity negatively affected the CO 2 assimilation rate (A), which decrease by 21.04% as the salinity of irrigation water increased from 0.3 to 6.3 dS m -1 (Figure 2D). This decrease in the CO 2 assimilation rate of pomegranate seedlings with the increase in salinity levels of irrigation water is directly related to the reduction of stomatal conductance, in addition to the increase in intercellular CO 2 concentration, clearly indicating that salinity may have increased mesophilic resistance to the entry of atmospheric CO 2 into carboxylation sites and/or reduced enzymatic activities associated with the photosynthetic carbon metabolism, and this effect is common in plants grown under saline conditions (Cruz et al, 2017;Olmo et al, 2019).…”

Section: Resultsmentioning

confidence: 96%

Physiological changes of pomegranate seedlings under salt stress and nitrogen fertilization

Soares

Oliveira

Lima

et al. 2021

Rev. bras. eng. agríc. ambient.

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“…The extent of stomatal closure induced by salinity has been shown to be genotype dependent (Zarei et al, 2016). The suppression of A and g s was documented after two weeks of salinization in -Salinity also affected the water relations of most woody Melgar et al, 2008;Olmo et al, 2019;Zarei et al, 2016). In olive, a crop that shares similar environmental and cultur-J o u r n a l o f H o r t i c u l t u r a l S c i e n c e (LWP) and relative water content occurred even at low levels of salinity , albeit symptoms of toxicity and permanent damage appeared at higher NaCl than those causing comparable damage in other fruit trees (Rhoades et al, 1992).…”

Section: German Society For Horticultural Sciencementioning

confidence: 98%

“…Woody species may adapt to salinity via a number of physiological mechanisms. A decrease in stomatal conductance (g s ), which reduces transpiration and increases water dium tolerance to salinity and leads to a reduced accumulation of toxic ions into the leaves and prolonged leaf longevity Khayyat et al, 2014;Melgar et al, 2008;Olmo et al, 2019;Sun et al, 2018). Both non-stomatal and stomatal factors were responsible for the short-term changes in leaf photosynthetic rate (A induced by exposure to salinity for one week (Golombek and Lüdders, 1993).…”

Section: German Society For Horticultural Sciencementioning

confidence: 99%

Growth, gas exchange, water relations, fresh and dry matter partitioning in young fig (Ficus carica L.) plants irrigated with saline water

Caruso¹,

Palai²,

Macheda³

et al. 2022

Europ.J.Hortic.Sci

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BackgroundFicus carica L. Objectives to determine survival, growth, biomass distribution, leaf gas exchange, and water relations. Methods typical experiment plants were irrigated with saline water at either 50, 100, or 200 mM NaCl concentration for seven-eight weeks. In year 1 we added two additional concentrations: 300 (then adjusted after one week to 250 for the remaining six weeks) and Results plant water status. Leaf photosynthetic rate (A) and stomatal conductance (g s ) decreased as salinity was increased beyond 50 mM NaCl after 18 days of stress in both years. Leaf chlorophyll concentrations were unaltered by salinity. Shoot growth stopped after two weeks of salinization at 100 mM NaCl and beyond. Leaf beginning of salinization due to extensive leaf drop. Plant dry weight for the 50, 100, and 200 mM NaCl respectively. The canopy-to-root ratio (both fresh and range. Conclusions of safe growth beyond previously reported threshunder saline conditions provided tolerant cultivars are planted.

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Characterization of the ecophysiological responses of three pomegranate cultivars to salinity

Cited by 12 publications

References 31 publications

Photosynthesis and chlorophyll fluorescence of Iranian licorice (Glycyrrhiza glabra l.) accessions under salinity stress

Photosynthesis and chlorophyll fluorescence of Iranian licorice (Glycyrrhiza glabra l.) accessions under salinity stress

Physiological changes of pomegranate seedlings under salt stress and nitrogen fertilization

Growth, gas exchange, water relations, fresh and dry matter partitioning in young fig (Ficus carica L.) plants irrigated with saline water

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