Root cortical aerenchyma, characteristics and nutrient use efficiency of different maize hybrids during drought and rehydration process

IF 2.2 3区 农林科学 Q2 AGRICULTURE, MULTIDISCIPLINARY Annals of Applied Biology Pub Date : 2022-10-06 DOI:10.1111/aab.12807
Chen Hua, Mou Chengxiang, Attachai Jintrawet, Chen Jianfeng, Yin Mei, Fu Libo, Wang Wei, Zhiyuan Wang
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Abstract

The importance of cortical aerenchyma in flood and drought resistance is well established. However, effects of the combination of the two factors remain unclear. We tested the hypothesis that under conditions of substantial water alteration, enhanced root cortical aerenchymas (RCAs) could not only exert a positive effect on root functions under drought periods but also influence nitrogen capture, soil exploration and compensation growth after rehydration. Three maize varieties, Yurui2 (YR2), Yunrui6 (YR6) and Yunrui167 (YR167), were grown under rainfed field conditions, and a subset was grown initially under well-watered and extreme-drought conditions, followed by the same simulated rainfed field conditions, in order to compare the effects on the RCAs during the growing season. Root morphology and function parameters were measured, and variation in the RCAs was induced by water stress. Under extreme drought, we found substantial variation in the RCAs (from 0% to 37%) and drought tolerance performance. During the rehydration stage, different RCA components exerted different effects on maize, recovery parameters and plant N use efficiency. YR6 showed resilient growth, whereas recovery was inhibited in YR167 and YR2, respectively, which possessed the lowest and highest RCA area percentages. The results support the hypothesis that RCA area percentage under drought periods are important for maize recovery after post-drought rehydration.

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干旱和复水过程中不同玉米杂交种的根皮质通气组织、特性及养分利用效率
皮质通气组织在抗涝抗旱中的重要性已得到充分证实。然而,这两个因素结合的影响仍不清楚。在水分大量改变的条件下,增强的根皮质通气质(RCAs)不仅对干旱时期根系功能产生积极影响,而且影响氮素捕获、土壤勘探和补水后的补偿生长。以雨睿2号(YR2)、云睿6号(YR6)和云睿167号(YR167) 3个玉米品种为研究对象,分别在旱地条件下种植,并分别在水分充足和极干旱条件下进行模拟旱地种植,比较不同旱地条件对玉米生长季RCAs的影响。测定根系形态和功能参数,并观察水分胁迫对RCAs的影响。在极端干旱的情况下,我们发现rca(从0%到37%)和抗旱性能有很大的变化。在复水阶段,不同RCA组分对玉米、恢复参数和植株氮素利用效率有不同的影响。YR167和YR2分别具有最低和最高的RCA面积百分比,而YR6表现出弹性生长,而YR167和YR2的恢复受到抑制。研究结果支持了干旱期RCA面积百分比对干旱后补液后玉米恢复的重要影响。
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来源期刊
Annals of Applied Biology
Annals of Applied Biology 生物-农业综合
CiteScore
5.50
自引率
0.00%
发文量
71
审稿时长
18-36 weeks
期刊介绍: Annals of Applied Biology is an international journal sponsored by the Association of Applied Biologists. The journal publishes original research papers on all aspects of applied research on crop production, crop protection and the cropping ecosystem. The journal is published both online and in six printed issues per year. Annals papers must contribute substantially to the advancement of knowledge and may, among others, encompass the scientific disciplines of: Agronomy Agrometeorology Agrienvironmental sciences Applied genomics Applied metabolomics Applied proteomics Biodiversity Biological control Climate change Crop ecology Entomology Genetic manipulation Molecular biology Mycology Nematology Pests Plant pathology Plant breeding & genetics Plant physiology Post harvest biology Soil science Statistics Virology Weed biology Annals also welcomes reviews of interest in these subject areas. Reviews should be critical surveys of the field and offer new insights. All papers are subject to peer review. Papers must usually contribute substantially to the advancement of knowledge in applied biology but short papers discussing techniques or substantiated results, and reviews of current knowledge of interest to applied biologists will be considered for publication. Papers or reviews must not be offered to any other journal for prior or simultaneous publication and normally average seven printed pages.
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Issue Information Consensus QTL map deciphered genes and pathways regulating tolerance to post-flowering diseases in maize The effects of humic substances application on the phytohormone profile in Lactuca sativa L. Phenological growth stages of Amaranthus palmeri according to the extended BBCH scale Cover Image
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