常春藤叶片对锌的吸收与分布

Q4 Agricultural and Biological Sciences Nova Biotechnologica et Chimica Pub Date : 2021-11-29 DOI:10.36547/nbc.1289
J. Marešová, M. Horník, M. Pipíška, J. Augustín
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引用次数: 1

摘要

以常春藤(Hedera helix L.)的分离叶片为模型,研究了维管植物对锌的吸收和转运。在添加65ZnCl2(50μmol/dm3-ZnCl2)的25%Hoagland营养培养基(HM)中,通过完全浸泡的叶片表面吸收,暴露7d后叶片中的锌浓度为4.98μg/g(干重),即2.6μg/dm2的叶面积。通过浸渍茎吸收未浸渍(蒸腾)的叶片,可获得高达370μg Zn/g(干重)的浓度。当锌通过浸入叶片表面进入脱落叶片时,锌均匀分布在叶片和叶柄中。当锌通过未浸入的蒸腾叶片的浸入茎进入分离的叶片时,只有一小部分锌被输送到叶片上,而主要部分留在茎中。茎起到陷阱的作用,能够阻止其他叶片组织对抗高锌浓度的抑制作用。溶液中的矿物质营养盐动员了被截留在叶柄中的锌,并促进了锌通过蒸腾流向叶片的运输,这意味着茎中的锌以离子可交换的形式结合。
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Zinc uptake and distribution in ivy (Hedera helix L.) leaves
Detached leaves of ivy (Hedera helix L.) were used as a model for the study of zinc uptake and transport in vascular plants. By the uptake via the surface of fully immersed leaves in 25 % Hoagland nutrient media (HM) spiked with 65ZnCl2 (50 μmol/dm3 ZnCl2), concentration in leaves 4.98 μg Zn/g (dry wt.), i. e. 2.6 μg Zn/dm2 leaf area after 7d exposition were obtained. By the uptake via immersed stalks of not immersed (transpiring) leaves concentrations up to 370 μg Zn/g (dry wt.) were obtained. When Zn enters into detached leaves via the surface of immersed leaf blades, zinc is uniformly distributed in leaf blades and leaf stalks. When zinc enters detached leaves via immersed stalks of non-immersed transpiring leaves, only small part of zinc is transported to leaf blades and the prevailing part remains in leaf stalks. Stalks act as a trap, able to prevent other leaf tissues against inhibitory effects of high Zn concentrations. Mineral nutrient salts in solutions mobilize Zn trapped in leaf stalks and facilitate Zn transport by transpiration stream to leaf blades, what means that Zn in stalks is bound in ion-exchageable forms.
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来源期刊
Nova Biotechnologica et Chimica
Nova Biotechnologica et Chimica Agricultural and Biological Sciences-Food Science
CiteScore
0.60
自引率
0.00%
发文量
47
审稿时长
24 weeks
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