Responses of <i>Batis maritima</i> plants challenged with up to two‐fold seawater NaCl salinity

Debez, Ahmed; Saadaoui, Dhouha; Slama, Inès; Huchzermeyer, Bernhard; Abdelly, Chédly

doi:10.1002/jpln.200900222

Cited by 48 publications

(18 citation statements)

References 43 publications

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“…Debez et al [15] in cultivation of the halophyte Batis maritime had yield of 17 t ̸ ha of dry mass. These results are inferior to the dry mass productivity obtained in this research.…”

Section: Resultsmentioning

confidence: 99%

Behaviour of Salicornia neei Cultivated in Different Spacing and Irrigated with Desalinizer Tailings

Figueiredo

Fernandes

Gomes

et al. 2020

AIR

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The objective of this work was to evaluate the influence of line and row spacing on biomass yield and minerals absorbed by Salicornia neei irrigated with desalination reject. The experiment was conducted in beds at the headquarters of the Agronomic Institute of Pernambuco-IPA, Recife, Pernambuco, Brazil. The experimental design was randomized blocks with treatments consisting of six spacings between plants and rows: 5x5, 10x10, 15x15, 20x20, 30x30 and 40x40 cm, with three repetitions and 30 Salicornia neei plants per repetition. After six months, the aerial part of the plant was collected and analyzed bromatologically. It was statistically noticed that the 15x15 cm spacing between plants favored where most bromatological determinations: dry matter weight - DMW (9,353.0 kg/ha); total nitrogen - NT (3.09%); total protein - PT (19.31%); acid detergent fiber - ADF (30.50%); neutral detergent fiber - NDF (38.15%); total fiber - FT (26.71%) and ethereal extract - EE (1.91%). Regarding the phytoextraction by Salicornia neei, the most efficient spacing were: 20x20 cm for sodium - Na (15.5%); 30x30 cm for potassium - K (3.00%) and 40x40 cm for calcium - Ca (4.18%) and magnesium - Mg (3.90%), showing the potential use of Salicornia neei in soils affected by salts.

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“…Debez et al [15] in cultivation of the halophyte Batis maritime had yield of 17 t ̸ ha of dry mass. These results are inferior to the dry mass productivity obtained in this research.…”

Section: Resultsmentioning

confidence: 99%

Behaviour of Salicornia neei Cultivated in Different Spacing and Irrigated with Desalinizer Tailings

Figueiredo

Fernandes

Gomes

et al. 2020

AIR

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“…Halophyte responses to salinity are very well characterized, whereas their behavior under the combination of salinity and ID has not been documented so far. Therefore, the present study addressed the impact of salinity on iron uptake mechanisms (the proton extrusion and the FCR activity) of S. fruticosa, a plant native of a sabkha located in the semi-arid bioclimatic stage, where salinity often reaches seawater concentration [32]. Exposing S. fruticosa to Fe deficiency restricts significantly the plant biomass production, with roots being more impacted than shoots.…”

Section: Discussionmentioning

confidence: 99%

Insights into Physiological Responses of the Halophyte Suaeda fruticosa to Simultaneous Salinity and Iron Deficiency

Houmani

Debez

Slatni

et al. 2014

CLEAN Soil Air Water

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Physiological responses of the halophyte Suaeda fruticosa cultivated under combined effects of salinity and iron deficiency were addressed. Plants were grown hydroponically for one month with a complete nutrient solution containing iron (Fe) of 0 or 30 μM, without or with salinity (100 and 400 mM NaCl). Growth parameters, chlorophyll concentration, mineral status, Fe(III) chelate reductase (FCR) activity and the acidification capacity were evaluated. Fe deficiency restricted significantly the plant biomass production as well as Fe uptake. Interestingly, the exposure to salinity mitigated the impact of Fe shortage on the plant growth whereas the impacts of salinity and Fe deficiency were not additive with respect to the plant Fe status. Salinity had no effect on the root proton release except a slight reduction at 400 mM and the FCR activity. Interestingly, both Fe absorption and use efficiencies were significantly higher in salt‐treated plants under optimal Fe supply.

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“…Selective absorption of K + vs Na + from the medium by roots (SA) and the selective transport of K + vs Na + from root to shoot (ST) was calculated by using the following equations (Debez et al, 2010):…”

Section: Ionic Analysismentioning

confidence: 99%

Exploring the Potential of Quinoa Accessions for Salt Tolerance in Soilless Culture

Saleem¹,

Basra²,

Afzal³

et al. 2017

IJAB

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Pakistan has more than 6 million hectares of salt affected land and quinoa is tested as a facultative halophyte having super food characteristics. A hydroponic study was conducted to explore salt tolerance of two quinoa accessions, Ames-13737 (Q7) and PI-634919 (Q9) under a range of NaCl levels (0, 100, 200 and 300 mM) in wirehouse during 2016. Plant nursery was raised, and at four leaf stage, the seedlings were transferred to plastic tubs containing 20 L half strength Hoagland's solution as nutrient source. Salinity was developed incrementally to avoid osmotic shock after two days of transplanting. Results showed that growth (shoot length, root length and dry weight/plant) reduced drastically in Q9 by increasing the salinity level as compared to Q7. However, a comparable growth was observed in Q-7 at 0 and 100 mM i.e. the dry weight at 0 and 100 mM salinity were 0.8643 g and 0.8125 g, respectively. Furthermore, genotype Q7 was found better than Q9 by producing 10% more dry weight (0.2790 g) at the highest salinity level which was linked to 57% more leaf K + accumulation (28.64 mg K + g -1 dry weight) as compared to Q9 (12.54 mg K + g -1 dry weight). It is concluded that tolerance of Q7 to salt stress might be due to more absorption of K + by the roots at increased Na + level.

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Responses of Batis maritima plants challenged with up to two‐fold seawater NaCl salinity

Cited by 48 publications

References 43 publications

Behaviour of Salicornia neei Cultivated in Different Spacing and Irrigated with Desalinizer Tailings

Behaviour of Salicornia neei Cultivated in Different Spacing and Irrigated with Desalinizer Tailings

Insights into Physiological Responses of the Halophyte Suaeda fruticosa to Simultaneous Salinity and Iron Deficiency

Exploring the Potential of Quinoa Accessions for Salt Tolerance in Soilless Culture

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