Zhu Hui-juan scite author profile

We investigated the effects of increasing soil NaCl concentration on intracellular compartmentalization of salt and on the activities of antioxidant enzymes (superoxide dismutase (SOD), ascorbic peroxidase (APX), catalase (CAT) and glutathione reductase (GR)) and their role in the regulation of reactive oxygen species (ROS; O(2)(-*) and H(2)O(2)) in leaves and xylem sap of salt-tolerant Populus euphratica Oliv. and salt-sensitive P. popularis cv. 35-44. Mesophyll cells of P. euphratica exhibited a high capacity for NaCl exclusion and compartmentalization of salt in vacuoles compared with P. popularis. In P. popularis, the salt treatment resulted in large accumulations of Na(+) and Cl(-) in leaves that induced significant increases in O(2)(-*) and H(2)O(2) production despite marked increases in the activities of antioxidant enzymes in leaves and xylem sap. Separation of the isoforms of leaf SOD, APX and CAT by polyacrylamide gel electrophoresis followed by in-gel activity staining revealed that the salt-induced activities of APX and CAT were the result of increases in activities of all the isoenzymes. Leaf injury and shedding of aged leaves occurred following the oxidative burst in P. popularis, indicating that the increased activities of antioxidant enzymes in P. popularis were insufficient to counter the harmful effects of ROS at high soil NaCl concentrations. Unlike P. popularis plants, P. euphratica plants did not exhibit an oxidative burst in response to the NaCl treatments, because of (1) a high salt exclusion capacity and effective compartmentalization of salt in vacuoles, and (2) up-regulation of antioxidant enzymatic activities after the onset of salt stress. We conclude that P. euphratica plants subjected to saline conditions control ROS homeostasis through two pathways: (1) by maintaining cellular ionic homeostasis and thereby limiting the NaCl-induced enhancement of ROS production under long-term saline conditions; and (2) by rapidly up-regulating antioxidant defenses to prevent oxidative damage.

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Effects of Stockosorb and Luquasorb polymers on salt and drought tolerance of Populus popularis

Shi

Shao

et al. 2010

Scientia Horticulturae

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Effect of NaCl on growth and ion relations in two salt-tolerant strains of Paxillus involutus

Hua

Chen

et al. 2008

For. Stud. China

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The effect of NaCl on growth, biomass and ion relations of two salt-tolerant isolates of Paxillus involutus, MAJ and NAU were investigated. The two Paxillus strains were exposed to the following concentrations of NaCl: 0, 100, 200 and 500 mmol·L -1 . Growth of MAJ and NAU was enhanced by 100 mmol·L -1 NaCl but severely inhibited at the concentration of 500 mmol·L -1 . NAU exhibited a greater capacity to exclude Na + and Cl -under all salinity levels, whereas the salt-includer MAJ had a higher capacity in nutrient uptake under salt stress. The ratios Na + /K + , Na + /Ca 2+ and Na + /Mg 2+ in NaCl-treated MAJ and NAU did not increase at levels of 100 and 200 mmol·L -1 NaCl but markedly increased at 500 mmol·L -1 . This suggests that the two strains, especially MAJ, enhanced nutrient uptake corresponding to the increased Na + influx at moderate salinity. We conclude that both MAJ and NAU are able to tolerate 500 mmol·L -1 NaCl but there are species-specific differences in retaining ionic homeostasis in the two Paxillus strains. NAU is a salt-excluder, MAJ is a salt-includer but retains a high capacity in nutrient selectivity under saline conditions. Their definite mechanisms to enhance salt tolerance of mycorrhizal hosts need further study.

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Physical Property of Pre-Cretaceous Rocks in the Sichuan Basin, China

Lin

Hui-juan

1993

GEOINFORMATICS

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Zhu Hui-juan

Ionic homeostasis and reactive oxygen species control in leaves and xylem sap of two poplars subjected to NaCl stress

Effects of Stockosorb and Luquasorb polymers on salt and drought tolerance of Populus popularis

Effect of NaCl on growth and ion relations in two salt-tolerant strains of Paxillus involutus

Physical Property of Pre-Cretaceous Rocks in the Sichuan Basin, China

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