Implication of Ions and Organic Solutes Accumulation in Amaranth (&amp;lt;i&amp;gt;Amaranthus cruentus&amp;lt;/i&amp;gt; L.) Salinity Resistance

Wouyou, Agapit; Prodjinoto, Hermann; Zanklan, Ahissou Séraphin; Vanpee, Brigitte; Lutts, Stanley; Gandonou, Christophe Bernard

doi:10.4236/ajps.2019.1012162

Cited by 7 publications

(11 citation statements)

References 55 publications

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“…For these reasons, our research was focused on Na + . Results of this study showed that salt stress induced a significant increase in Na + content in both leaves and roots corroborating several previous reports on vegetable species [34,25]. In some genotypes of sweet basil, similar result was reported [21,19].…”

Section: Effect Of Salt Stress On Plant Ion Contentsupporting

confidence: 92%

Response of African Basil (Ocimum gratissimum L.) to Salt Stress under Tropical Conditions in the Republic of Benin: Growth, Ions and Organic Solutes Accumulation

Loko¹,

Montcho²,

Agbossékpé³

et al. 2022

IJPSS

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Aims: This research aims at evaluating the effect of salt stress on plant growth, Na+, K+, proline and soluble sugars contents in leaves and roots of local cultivar of African basil in Republic of Benin. Study Design: The experiment was laid out in a Completely Randomized Design (CRD) having five treatments and three replications. Place and duration of Study: The experiment was carried out in screening house under natural conditions at the Center of Agricultural Research of Agonkanmey, Commune of Abomey-Calavi, Republic of Benin from January to February, 2020. Methodology: Five salt concentrations (0, 30, 60, 90 and 120 mM) were used to irrigate three weeks old plants for two weeks. After two weeks, plant growth, sodium (Na) and potassium (K), proline, and soluble sugars contents of leaves and roots were determined. Results: Salt stress induced a significant reduction (p = .05) in shoot growth from 60 mM NaCl but had no impact on the number of leaves and shoot water content. Root growth was significantly reduced (p = .05) already at 30 mM NaCl. Leaf and roots Na+, proline and soluble sugars contents significantly increased (p = .05) under salt stress whereas K+ content decreased significantly (p = .05) only in root. Conclusion: Salt stress reduces the growth of African basil plants due mainly to Na+ ion toxicity. The ionic selectivity ratio (K+/Na+) rather than the K+ ion content plays an important role in the response of basil plants to salt stress, while both proline and soluble sugars accumulation may contribute to osmotic adjustment.

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Section: Effect Of Salt Stress On Plant Ion Contentsupporting

confidence: 92%

Response of African Basil (Ocimum gratissimum L.) to Salt Stress under Tropical Conditions in the Republic of Benin: Growth, Ions and Organic Solutes Accumulation

Loko¹,

Montcho²,

Agbossékpé³

et al. 2022

IJPSS

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“…Salinity caused an increase in Na content and a decrease in K content in the leaves as well as in the roots in tomato cultivar Padma plants evaluated in this study. This response of plant ion nutrition to salt stress in a common behavior as reported by several authors [40,41,42,43,28], suggesting that the NaCl detrimental effect on plant growth was due mainly to both Na toxicity and K deficiency. As revealed by our results, the exogenous application of both calcium forms improved plant mineral nutrition by reducing Na accumulation and enhancing K accumulation in both leaves and roots.…”

Section: Implication Of Ions and Organic Solutes In The Ameliorative Effect Of Calcium On Plant Growth Under Salt Stresssupporting

confidence: 75%

“…As revealed by our results, the exogenous application of both calcium forms improved plant mineral nutrition by reducing Na accumulation and enhancing K accumulation in both leaves and roots. Reducing Na accumulation and enhancing K accumulation mainly in leaves is one of the common plant strategies to tolerate NaCl salt stress as reported in several glycophyte species [44,45,46,43,28]. In okra (Abelmoschus esculentus), Habib et al [42] reported that the foliar application of both pure glycine betaine and sugarbeet extract reduced the adverse effects of salt stress on plant growth, yield and leaf K content.…”

Section: Implication Of Ions and Organic Solutes In The Ameliorative Effect Of Calcium On Plant Growth Under Salt Stressmentioning

confidence: 99%

“…Our results showed that the salinity increased the content of soluble sugars in the leaves and roots of tomato plants which is a general trend in plants submitted to salt stress as reported in several plant species such as sugarcane (Saccharum sp.) [46,47]; amaranth [43] and euphrates poplar (Populus euphratica) [48]. The exogenous application of calcium did not induce any significant change in soluble sugars content indicating that these solutes did not mediate the ameliorative effect of calcium on the growth of tomato plants submitted to NaCl salt stress.…”

Section: Implication Of Ions and Organic Solutes In The Ameliorative Effect Of Calcium On Plant Growth Under Salt Stressmentioning

confidence: 99%

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Ions and Organic Solutes as Implicated in the Ameliorative Effect of Exogenous Application of Calcium on Salt Stressed Tomato (Lycopersicon esculentum Mill.) Plants

Henry

Sossa

Noumavo

et al. 2021

IJPSS

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Aims: This study evaluated the role of sodium, potassium, proline and soluble sugars accumulation in the ameliorative effect of an exogenous application of calcium on the detrimental effect of salinity on tomato plants. Study Design: The experiment was implemented as a Completely Randomized Design (RCD) with four treatments and three replications. Place and Duration of Study: The experiment was realized in a green house of the Faculty of Agronomical Sciences, University of Abomey-Calavi, Benin Republic from June to July 2020. Methodology: Three weeks old plants of the tomato cultivar “Padma” was submitted in pots to four treatments comprising the control (without NaCl); salt stress (120 mM NaCl) and a combination of 120 mM NaCl and exogenous application of 40 mM CaSO4 or Ca (NO3)2 by irrigation every two days. Plants growth, sodium (Na) and potassium (K) as well as proline and soluble sugars contents of leaves and roots were determined after two weeks. Results: Salt effect reduced significantly plant growth at P =.05, root K content at P =.05 and leaf K/Na ratio at P =.01 whereas it increased significantly leaf Na at P =.05 and root soluble sugars content at P =.05. The application of exogenous calcium (Ca) induced a significant amelioration of plant growth at P =.01 more marked with CaSO4 than with Ca (NO3)2. This treatment induced a significant decrease at P =.01 in leaf and root Na content and a significant increase at P =.05 in root K content only for CaSO4, a significant increase at P =.01 in leaf K/Na ratio and a significant increase at P =.01 in leaf and root proline content only for Ca(NO3)2. Conclusion: The ameliorative effect of both forms of calcium was due mainly to sodium (Na) exclusion from leaves and potassium (K) accumulation associated to a maintain of high K/Na ratio mainly in leaves. The importance of proline accumulation as an indicator of this ameliorative effect was associated only to Ca(NO3)2.

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“…Par ailleurs, plusieurs travaux ont révélé que la réduction de la croissance des plantes d'amarante sous l'effet de la salinité est principalement la conséquence de l'accumulation d'ions devenant toxiques (Na + et Cl -) pour les activités métaboliques de la plante (Omami, 2005 ;Odjegba et Chukwunwike., 2012). En effet, ces ions peuvent perturber la capacité de la plante à contrôler l'accumulation d'autres ions importants (Wouyou et al, 2019). Parmi ces ions, l'ion sodium (Na + ) occupe une place de choix.…”

Section: Introductionunclassified

Effet améliorateur d’un apport extérieur de calcium et de potassium sous différentes formes sur la tolérance à la salinité de l’amarante (Amaranthus cruentus L.)

Atou¹,

Henry²,

Mensah³

et al. 2020

JABs

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Implication of Ions and Organic Solutes Accumulation in Amaranth (<i>Amaranthus cruentus</i> L.) Salinity Resistance

Cited by 7 publications

References 55 publications

Response of African Basil (Ocimum gratissimum L.) to Salt Stress under Tropical Conditions in the Republic of Benin: Growth, Ions and Organic Solutes Accumulation

Response of African Basil (Ocimum gratissimum L.) to Salt Stress under Tropical Conditions in the Republic of Benin: Growth, Ions and Organic Solutes Accumulation

Ions and Organic Solutes as Implicated in the Ameliorative Effect of Exogenous Application of Calcium on Salt Stressed Tomato (Lycopersicon esculentum Mill.) Plants

Effet améliorateur d’un apport extérieur de calcium et de potassium sous différentes formes sur la tolérance à la salinité de l’amarante (Amaranthus cruentus L.)

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