| Na^+ and Water Uptake in Relation to the Radial Reflection Coefficient of Root in Arrowleaf Saltbush Under Salt Stress |
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| 引用本文: | Xin-Fu Bai Jian-Jun Zhu Ping Zhang Yan-Hua Wang Li-Qun Yang Lei Zhang. Na^+ and Water Uptake in Relation to the Radial Reflection Coefficient of Root in Arrowleaf Saltbush Under Salt Stress[J]. 植物学报(英文版), 2007, 49(9): 1334-1340. DOI: 10.1111/j.1744-7909.2007.00529.x |
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| 作者姓名: | Xin-Fu Bai Jian-Jun Zhu Ping Zhang Yan-Hua Wang Li-Qun Yang Lei Zhang |
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| 作者单位: | College of Life Sciences, Ludong University, Yantai 264025, China |
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| 基金项目: | 国家自然科学基金;山东省自然科学基金 |
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| 摘 要: |
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| 关 键 词: | 反渗透作用 根辐板反射系数 木质部压力 三角滨黎叶盐分 |
| 修稿时间: | 2006-09-20 |
Na+ and Water Uptake in Relation to the Radial Reflection Coefficient of Root in Arrowleaf Saltbush Under Salt Stress |
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| Xin-Fu Bai,Jian-Jun Zhu ,Ping Zhang,Yan-Hua Wang,Li-Qun Yang, Lei Zhang. Na+ and Water Uptake in Relation to the Radial Reflection Coefficient of Root in Arrowleaf Saltbush Under Salt Stress[J]. Journal of integrative plant biology, 2007, 49(9): 1334-1340. DOI: 10.1111/j.1744-7909.2007.00529.x |
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| Authors: | Xin-Fu Bai Jian-Jun Zhu Ping Zhang Yan-Hua Wang Li-Qun Yang Lei Zhang |
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| Affiliation: | ( College of Life Sciences, Ludong University, Yantai 264025, China;) |
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| Abstract: | The response of halophyte arrowleaf saltbush (Atriplex triangularis Willd) plants to a gradient of salt stress were investigated with hydroponically cultured seedlings. Under salt stress, both the Na+ uptake into root xylem and negative pressures in xylem vessels increased with the elevation of salinity (up to 500 mol/m3) in the root environment. However, the increment in negative pressures in root xylem far from matches the decrease in the osmotic potential of the root bathing solutions, even when the osmotic potential of xylem sap is taken into consideration. The total water potential of xylem sap in arrowleaf saltbush roots was close to the osmotic potential of root bathing solutions when the salt stress was low, but a progressively increased gap between the water potential of xylem sap and the osmotic potential of root bathing solutions was observed when the salinity in the root environment was enhanced. The maximum gap was 1.4 MPa at a salinity level of 500 mol/m3 without apparent dehydration of the tested plants. This discrepancy could not be explained with the current theories in plant physiology. The radial reflection coefficient of root in arrowleaf saltbush decreased with the enhanced salt stress was and accompanied by an increase in the Na+ uptake into xylem sap. However, the relative Na+ in xylem exudates based on the corresponding NaCl concentration in the root bathing solutions showed a tendency of decrease. The results showed that the reduction in the radial reflection coefficient of roots in the arrowleaf saltbush did not lead to a mass influx of NaCl into xylem when the radial reflection coefficient of the root was considerably small; and that arrowleaf saltbush could use small xylem pressures to counterbalance the salt stresses, either with the uptake of large amounts of salt, or with the development of xylem pressures dangerously negative. This strategy could be one of the mechanisms behind the high resistance of arrowleaf saltbush plants to salt stress. |
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| Keywords: | anti-osmosis arrowleaf saltbush(Atriplex triangularis Willd) radial reflection coefficient of root salt stress xylem pressure. |
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