Mechanisms of drought resistance in Populus deltoides and P. × canadensis clones to possible situations of water restriction in irrigated systems in drylands

IF 2.1 3区 农林科学 Q2 FORESTRY
Trees Pub Date : 2024-08-22 DOI:10.1007/s00468-024-02551-4
Elisa A. Rovida Kojima, Carina V. González, Ignacio A. Mundo, Aranzazú Guevara, Carla V. Giordano
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引用次数: 0

Abstract

Key message

We have identified poplar clones suitable for dryland forestry, which stand out for their resistance to cavitation, level of anisohydrism, adjustment of cellular water relations and high water use efficiency.

In drylands, such as the arid western region of Argentina, poplar afforestation depends on intermittent furrow irrigation, subjecting the plantations to variable water availability both in time and space. Our objective was to study stem biomass production and drought resistance responses of eight poplar clones, to explore whether there are more suitable varieties for forestry in drylands than those currently cultivated, i.e. the hybrid Populus × canadensis clones ‘Conti’ 12 and ‘Guardi’. We conducted a pot experiment with three levels of water availability (control, moderate stress and severe stress), studying four clones of P. × canadensis, ‘Conti 12’, ‘Guardi’, ‘I-214’ and ‘I45/51’, as well as four clones of the Populus deltoides species, ‘Stoneville 67’, ‘Catfish 2’, ‘Dvina’ and ‘Australiano 129/60’. We found that the clones that were more productive under water stress, ‘I-214’ and ‘I45/51’, were also the most resistant to cavitation. However, these clones were not very productive under high water availability. The ‘Guardi’ and ‘Australiano 129/60’ clones performed best in this situation, showing moderately high productivity under water stress. These clones exhibited the highest degree of anisohydrism, high water use efficiency and ‘Australiano 129/60’ stood out for its low water potential at the point of wilting due to osmotic adjustment. The currently most cultivated variety in Cuyo region, ‘Conti 12’, was less productive, did not make cellular adjustments and had low water use efficiency. These results suggest that other available clones may be more suitable for poplar forestry in drylands and should be evaluated in field trials.

Abstract Image

旱地灌溉系统中可能出现的限水情况下三角叶杨和 P. × canadensis 克隆的抗旱机制
在干旱地区,如阿根廷干旱的西部地区,杨树造林依赖于间歇性沟灌,这使得种植园在时间和空间上都要承受不同的供水量。我们的目标是研究八种杨树克隆的茎生物量生产和抗旱反应,以探索是否有比目前栽培的杨树克隆(即杂交杨树 × canadensis 克隆 "Conti "12 和 "Guardi")更适合旱地林业的品种。我们在三个供水水平(对照、中等胁迫和严重胁迫)下进行了盆栽实验,研究了四种杨树克隆:'Conti 12'、'Guardi'、'I-214'和'I45/51',以及四种白杨克隆:'Stoneville 67'、'Catfish 2'、'Dvina'和'Australiano 129/60'。我们发现,在水分胁迫下产量较高的克隆,即'I-214'和'I45/51',对气蚀的抵抗力也最强。然而,这些克隆在高供水条件下产量并不高。在这种情况下,'Guardi'和'Australiano 129/60'克隆表现最好,在水分胁迫下表现出中等程度的高产。这些克隆表现出最高的异水性和较高的水分利用效率,而 "Australiano 129/60 "由于渗透调节作用,在枯萎时的水势较低,因此表现突出。库约地区目前栽培最多的品种 "Conti 12 "产量较低,没有细胞调节功能,用水效率也很低。这些结果表明,现有的其他克隆品种可能更适合在干旱地区种植杨树,应在实地试验中进行评估。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Trees
Trees 农林科学-林学
CiteScore
4.50
自引率
4.30%
发文量
113
审稿时长
3.8 months
期刊介绍: Trees - Structure and Function publishes original articles on the physiology, biochemistry, functional anatomy, structure and ecology of trees and other woody plants. Also presented are articles concerned with pathology and technological problems, when they contribute to the basic understanding of structure and function of trees. In addition to original articles and short communications, the journal publishes reviews on selected topics concerning the structure and function of trees.
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