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中文摘要:
采用常规离子耗竭方法,以陆地棉(Gossypium hirsutum L.)为对照,在不同Cl-和NO3--N营养状况下,研究了盐生植物囊果碱蓬(Suaeda physophora Pall.)NO3-低亲和吸收动力学特征,探讨了盐胁迫下囊果碱蓬NO3-高效吸收的调控机制。结果表明:两种植物NO3-的低亲和吸收动力学呈线性吸收,且囊果碱蓬NO3-的净吸收速率和硝酸还原酶的活性显著高于陆地棉,说明囊果碱蓬具有较高的氮需求;10 mmol L-1KNO3预处理2 h后,囊果碱蓬和陆地棉地上部全氮的含量分别增加30.6%和36.8%;NO3-的净吸收速率分别降低了46.6%和45.5%,说明两种植物氮的吸收受到体内氮营养的负反馈调节;NaCl长期胁迫30 d显著抑制NO3-的吸收,陆地棉NO3-的净吸收速率下降幅度显著高于囊果碱蓬,而根系Cl-的含量显著高于囊果碱蓬;NO3-的净吸收速率与植物根系Cl-的含量呈显著性负相关,说明囊果碱蓬根系拒Cl-的能力显著高于陆地棉;NaCl或KCl短期胁迫2 h对囊果碱蓬NO3-的净吸收速率没有显著影响,但陆地棉NO3-的净吸收速率分别降低了43.8%和37.5%。研究结果证明了盐胁迫下囊果碱蓬NO3-的高效吸收与植物内部的高氮需求和Cl-的累积有关,而培养介质中Cl-的浓度对NO 3-的低亲和转运系统影响较小。
英文摘要:
NO-3 low affinity absorption dynamics of Suaeda physophora Pall.and mechanism of the high NO-3 absorption efficiency were studied using the conventional ion depletion method with Gossypium hirsutum L.as control in the nutrient solutions different in Cl-and NO-3-N concentration.Results show that the NO-3 uptake rate of S.physophora and G.hirsutum increased linearly with KNO3 concentration from 1 to 50 mmol L-1 in the solution.But the net NO-3 uptake rate and nitrate reductase activity were significantly higher in S.physophora than in G.hirsutum,which implies that S.physophora has a higher demand for nitrate than G.hirsutum does.After 2 h of pre-treatment with 10 mmol L-1 KNO3,the total nitrogen concentrations increased by 30.6% and 36.8% in the shoots of G.hirsutum and S.physophora,respectively,meanwhile,the net NO-3 uptake rates of the two reduced by 46.6% and 45.5%,respectively,which suggests that N uptake of the two species were regulated by negative feedback of the N nutrition of these plants.When G.hirsutum and S.physophora were put under NaCl stress for 30 days,NO-3 uptake was significantly inhibited,more in G.hirsutum than in S.physophora.The net NO-3 uptake rate exhibited a significant negative correlation with Cl-concentration in the roots of G.hirsutum and S.physophora,indicating that the ablility of the root of S.physophora to resist Cl-was higher than that of G.hirsutum.Temporary NaCl or KCl stress for 2 hours did not affect much the net NO-3 uptake of S.physophora,but did decrease that of G.hirsutum by 43.8% and 37.5%,respectively.The findings indicate that the high-efficiency nitrate uptake by S.physophora roots is related to the high N demand and Cl-accumulation of the plant,and Cl-concentration in the nutrient solution does not have much impact on NO-3 low-affinity transport system.
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