TY - JOUR
T1 - Improving salt tolerance in pepper by bio-priming with Padina pavonica and Jania rubens aqueous extracts
AU - Rinez, Imen
AU - Ghezal, Nadia
AU - Rinez, Asma
AU - Farooq, Muhammad
AU - Dbara, Soumaya
AU - Saad, Ines
AU - Haouala, Rabiaa
N1 - Publisher Copyright:
© 2018 Friends Science Publishers.
PY - 2018
Y1 - 2018
N2 - This study was conducted to evaluate the effect of seed bio-priming on the salinity tolerance of pepper (Capsicum annuum L. var Chargui). The pretreatment was carried out by the aqueous extracts of Padina pavonica (at 60 g/L) and Jania rubens (at 80 g/L). The tests were carried out at 0, 3 and 12 g/L of salt for germination and 0 and 3 g/L for the growth which was conducted in hydroponics. Seeds were soaked in these extracts, and two batches were considered (treated and un-treated (control)). The results showed that the effect of salt was harmful on the integrity of the membrane, respiration, and mineral (Potasium and Posphorus) compositions of pepper. Nevertheless, it increased proline, total soluble sugars, sodium and secondary metabolites accumulation. the pretreatment showed that the best tolerance to salt stress in pepper was due to a better oxidative status demonstrated by the reduction of oxidative damage (reduction of leakage of electrolytes and MDA content), accumulation of secondary metabolites, at better hydration resulting from more efficient osmotic adjustment due to the accumulation of osmotica (proline, total soluble sugar, potassium and phosphorus) and an increase in metabolic activity by the improving breathing. This technique of biological pretreatment may submit with agriculture an interesting tool to increase plant tolerance to salt stress and to find an alternative to any chemical use.
AB - This study was conducted to evaluate the effect of seed bio-priming on the salinity tolerance of pepper (Capsicum annuum L. var Chargui). The pretreatment was carried out by the aqueous extracts of Padina pavonica (at 60 g/L) and Jania rubens (at 80 g/L). The tests were carried out at 0, 3 and 12 g/L of salt for germination and 0 and 3 g/L for the growth which was conducted in hydroponics. Seeds were soaked in these extracts, and two batches were considered (treated and un-treated (control)). The results showed that the effect of salt was harmful on the integrity of the membrane, respiration, and mineral (Potasium and Posphorus) compositions of pepper. Nevertheless, it increased proline, total soluble sugars, sodium and secondary metabolites accumulation. the pretreatment showed that the best tolerance to salt stress in pepper was due to a better oxidative status demonstrated by the reduction of oxidative damage (reduction of leakage of electrolytes and MDA content), accumulation of secondary metabolites, at better hydration resulting from more efficient osmotic adjustment due to the accumulation of osmotica (proline, total soluble sugar, potassium and phosphorus) and an increase in metabolic activity by the improving breathing. This technique of biological pretreatment may submit with agriculture an interesting tool to increase plant tolerance to salt stress and to find an alternative to any chemical use.
KW - Aqueous extracts
KW - Capsicum annuum
KW - Jania rubens
KW - NaCl
KW - Padina pavonica
KW - Priming
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U2 - 10.17957/IJAB/15.0510
DO - 10.17957/IJAB/15.0510
M3 - Article
AN - SCOPUS:85042872061
SN - 1560-8530
VL - 20
SP - 513
EP - 523
JO - International Journal of Agriculture and Biology
JF - International Journal of Agriculture and Biology
IS - 3
ER -