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| 桑树幼苗对缺铁环境的生理反应 | |
| 引用本文: | 胡盛沪,黎晓峰,兰柳艳,顾明华,汤庆坤.桑树幼苗对缺铁环境的生理反应[J].生态环境,2010,19(4):899-903. |
| 作者姓名: | 胡盛沪 黎晓峰 兰柳艳 顾明华 汤庆坤 |
| 作者单位: | 1. 广西大学农学院,广西,南宁,530005 2. 广西大学农学院,广西,南宁,530005;广西大学肥料研究所,广西,南宁,530005 3. 广西大学农学院,广西,南宁,530005;广西蚕业技术推广总站,广西,南宁,530007 |
| 摘 要: | 为揭示桑树Morus alba L.对缺铁环境的响应机制,对桑树幼苗在缺铁环境下对难溶性铁的吸收、根系的铁还原活性、活性还原物质的分泌及根际的酸化作用进行了探讨。缺铁培养12 d后,桑树地上部铁含量和叶片叶绿素含量显著降低而叶片丙二醛含量显著增加。缺铁植株可吸收利用难溶性Fe2O3。在缺铁环境下可观察到根际的明显酸化,培养液的pH也随着缺铁处理时间的延长(1、3、4、5、6、7 d)而降低。而且,缺铁处理显著提高根系铁还原酶活性而显著降低根际Eh值。缺铁处理6、7 d后株均活性还原性物质的分泌量为(20.37±0.73)、(37.49±0.30)μmol·d^-1,显著高于加铁处理的株均分泌量(11.89±0.46)、(12.32±0.30)μmol·d^-1]。此外,在缺铁环境中植株根冠比(0.25±0.06)也显著高于加铁处理(0.14±0.02)。这些结果说明,缺铁诱导的根际酸化、根系还原作用、还原物的分泌及根系的生长可能是桑树幼苗吸收利用难溶性铁的生理响应机制。 |
| 关 键 词: | 桑树 缺铁 酸化 还原 分泌物 |
Physiological response to Fe-deficiency environment in Morus alba L. seedlings |
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| HU Shenghu,LI Xiaofeng,LAN Liuyan,GU Minghua,TANG Qingkun.Physiological response to Fe-deficiency environment in Morus alba L. seedlings[J].Ecology and Environmnet,2010,19(4):899-903. | |
| Authors: | HU Shenghu LI Xiaofeng LAN Liuyan GU Minghua TANG Qingkun |
| Institution: | HU Shenghu1,LI Xiaofeng1,2,LAN Liuyan1,GU Minghua1,TANG Qingkun3 1.Agricultural College,Guangxi University,Nanning 530005,China,2.Fertilizer Institute,3.General Station for Sericulture Technology Popularization of Guangxi,Nanning 530007 |
| Abstract: | Sparingly-soluble Fe utilization,ferric reductase activity,active reductant secretion from roots and rhizosphere acidification under Fe-deficiency stress in mulberry(Morus alba L.) were investigated in the present study.The content of Fe in the upper parties of the plants and chlorophyll in leaves decreased significantly,while MDA content in the leaves increased obviously after the seedlings were exposed to a Fe-free solution for 12 d.Sparingly-soluble Fe2O3 in the cultured solution could be utilized by Fe-... |
| Keywords: | mulberry Fe-deficiency acidification reduction exudates |
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