| 交替灌溉的节水调质机理及同位素技术在作物水分利用研究中的应用 |
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| 引用本文: | 杜太生,康绍忠,张建华.交替灌溉的节水调质机理及同位素技术在作物水分利用研究中的应用[J].植物生理学通讯,2011(9):823-830. |
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| 作者姓名: | 杜太生 康绍忠 张建华 |
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| 作者单位: | 中国农业大学中国农业水问题研究中心;香港浸会大学生物系; |
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| 基金项目: | 国家自然科学基金项目(51079147,50939005); 香港RGC项目(HKBU262307) |
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| 摘 要: | 基于节水灌溉技术原理与作物感知缺水的根源信号理论而提出的根系分区交替灌溉,是交替对作物部分根区进行正常的灌溉,其余根区受到适度水分胁迫的灌溉方式。应用同位素示踪技术追溯分根区交替供水条件下土壤-作物系统水分运转途径并揭示其节水调质机理是一个重要的研究方向。本文对根系分区交替灌溉的节水调质效应、节水机理、稳定性氢氧同位素在植物水分运移中的应用以及稳定性碳同位素在植物水分利用效率中的应用研究进展及应用前景作了简要介绍,并对将来需要重点研究的方向作了展望。以期为充分挖掘作物生理节水潜力,大幅度提高作物水分利用效率和实现节水、丰产、优质、高效的综合目标提供有效的调控途径。
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| 关 键 词: | 分区交替灌溉 同位素技术 水分传输 作物品质 水分利用效率 |
Water-Saving and Crop Quality Improvement of Alternate Partial Root-Zone Irrigation and Application of Isotope Technology in the Research of Crop Water Use |
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| DU Tai-Sheng,KANG Shao-Zhong,ZHANG Jian-Hua, Center for Agricultural Water Research in China,China Agricultural University,Beijing ,China.Water-Saving and Crop Quality Improvement of Alternate Partial Root-Zone Irrigation and Application of Isotope Technology in the Research of Crop Water Use[J].Plant Physiology Communications,2011(9):823-830. |
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| Authors: | DU Tai-Sheng KANG Shao-Zhong ZHANG Jian-Hua Center for Agricultural Water Research in China China Agricultural University Beijing China |
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| Institution: | DU Tai-Sheng1,KANG Shao-Zhong1,ZHANG Jian-Hua2,* 1Center for Agricultural Water Research in China,China Agricultural University,Beijing 100083,China,2Department of Biology,Hong Kong Baptist University,Hong Kong |
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| Abstract: | Alternate partial root-zone irrigation (APRI) is a new irrigation technique and requires that approximately half of the root system is exposed to drying soil while the remaining half is irrigated as in full irrigation. This irrigation method can reduce plant water consumption and is based on theory of root-to-shoot long distance signaling and regulation. To understand its mechanism and other effects on the crop quality, it is important to investigate the water movements and hydraulic connections between the... |
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| Keywords: | alternate partial root-zone irrigation isotope technology water transport crop quality water use efficiency |
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