Effects of NaCl stress on growth and ion homeostasis in pomegranate tissues

Liu, Cuiyu; Yan, Mi; Huang, Xianbin; Yuan, Zhaohe

doi:10.17660/ejhs.2020/85.1.5

Cited by 12 publications

(2 citation statements)

References 48 publications

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“…The importance of estimate vegetative growth characteristics which considered the major index to evaluate transplant's salt resistance since they show a normally adaptation with the moderate level and with no obvious injuring symptoms in Tunisi cv. pomegranate was noticed by Liu et al ( 2018) Also, the above-mentioned results are in line with Cuiyu et al (2020) where they proved that plant growth parameters increased with low or moderate salinity levels while increasing salinity stress will cause a reduction in all growth parameters in different pomegranate cultivars.…”

Section: -Effect Of Irrigation Water Salinity Levelssupporting

confidence: 79%

A- Alleviating the harmful impact of salinity stress with different levels by using some organic techniques on vegetative growth characteristics of Wonderful cv. Pomegranate transplants

2023

Horticulture Research Journal

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One of the major environmental stresses is salinity in soil and/or irrigation water which needs more understanding for its adverse effects on plant growth and soil in addition to limited attempts to improve plant salt tolerance. hence, Pot experiment was carried out during two successive seasons 2019 and 2020 under the greenhouse conditions in the nursery of Horticulture Research Institute, ARC, Giza, Egypt, to investigate the effect of compost, active halotolerant biofertilizers namely (Azotobacter chroococcum, Azospirillum lipoferum, Bacillus megaterium var. phosphaticum, Bacillus circulans) isolates and (Spirulina platensis L.) algae on vegetative growth measurements, aerial parts fresh and dry weights, root measurements, root fresh and dry weights were determined in Wonderful cv. pomegranate transplants grown under different levels of saline water irrigation (6000, 7000 and 8000 ppm.) to mitigate the harmful impact of salinity. The obtained results showed a noticeable decrease in all growth aspects, root measurements, fresh and dry weights of the transplants as response to the high levels of salty water, especially 8000 ppm. While, all the treatments had an observed promotion effects on those aforementioned parameters, Furthermore, the combined applications of organic and different biofertilizers present a mechanism of alleviating the damage impact of salts accumulation than the application of chemical fertilizers even under high concentrations of salinity. Overall, it could be suggested that Wonderful cv. transplants performed well at 6000 ppm when providing an ideal fertilization program with the natural organic and various biofertilizers used.

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Section: -Effect Of Irrigation Water Salinity Levelssupporting

confidence: 79%

A- Alleviating the harmful impact of salinity stress with different levels by using some organic techniques on vegetative growth characteristics of Wonderful cv. Pomegranate transplants

2023

Horticulture Research Journal

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“…Usually, this trait can be expressed in terms of biomass or root length. Fruit trees with a degree of tolerance to salinity show a decrease in root biomass (dry weight) at NaCl concentrations as high as 200 and 300 mM as in the case of pomegranate (Punica granatum; L.) [47]. In Vitis vinifera accessions, the root relative growth rate (RGRr) fell between 36% and 40% under 150 mM NaCl [48].…”

Section: Discussionmentioning

confidence: 99%

Effective Categorization of Tolerance to Salt Stress through Clustering Prunus Rootstocks According to Their Physiological Performances

2021

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The effects of climate change on traditional stone fruit producing areas, together with the generation of new varieties with lower chilling requirements that allow the cultivation of previously unexplored areas, are setting up a challenging scenario for the establishment of productive orchards that must be more efficient in their capacity to adapt to new edaphoclimatic conditions. In this context, the rootstock breeding programs are a key piece in the agronomic strategy to achieve this adaptation through the development of rootstocks compatible with the new varieties and capable of transferring their tolerance to stress. An effective categorization of phenotypes within the germplasm involved in a plant breeding program is of utmost importance. Through the measurement of physiological parameters in both roots and leaves, tolerance to saline stress (120 mM NaCl) was evaluated in seven Prunus rootstocks whose genetic background included representatives of the subgenera Prunus, Cerasus, and Amygdalus. To group the genotypes according to their physiological performance under salt stress, an agglomerative hierarchical clustering was applied. The genotypes were grouped into three clusters containing rootstocks very sensitive (‘Mazzard F12/1’), moderately tolerant (‘Maxma 60’, ‘Cab6P’ and ‘AGAF 0204-09’), and tolerant (‘Mariana 2624’, ‘Garnem’ and ‘Colt’) to salt stress. ‘Mariana 2624’, a plum-based rootstock, was identified as the most tolerant Prunus rootstock. The information reported is valuable both in the productive context, for the selection of the most appropriate rootstocks to establish an orchard, and in the context of plant breeding programs, when choosing parents with outstanding traits to obtain progenies tolerant to salt stress.

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Pomegranate and Salt Stress Responses—Assimilation Activities and Chlorophyll Fluorescence Performances: A Review

Khayyat,

Vazifeshenas,

Akbari

2024

Applied Fruit Science

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Effects of NaCl stress on growth and ion homeostasis in pomegranate tissues

Cited by 12 publications

References 48 publications

A- Alleviating the harmful impact of salinity stress with different levels by using some organic techniques on vegetative growth characteristics of Wonderful cv. Pomegranate transplants

A- Alleviating the harmful impact of salinity stress with different levels by using some organic techniques on vegetative growth characteristics of Wonderful cv. Pomegranate transplants

Effective Categorization of Tolerance to Salt Stress through Clustering Prunus Rootstocks According to Their Physiological Performances

Pomegranate and Salt Stress Responses—Assimilation Activities and Chlorophyll Fluorescence Performances: A Review

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