Wood formation of drought-resistant Eucalyptus cladocalyx under cyclical drought treatment.

Quantitative plant biology Pub Date : 2025-04-07 eCollection Date: 2025-01-01 DOI:10.1017/qpb.2025.7

Gugu Gama, Kim C Martin, David M Drew

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Abstract

Eucalyptus cladocalyx, known for its drought tolerance, has complex wood anatomy influenced by environmental conditions. This study investigated the xylem response of E. cladocalyx seedlings to cyclic drought stress compared to continuous irrigation. Seedlings were subjected to alternating drought and watering cycles, and their growth, xylem traits and cambial activity were monitored. Continuously irrigated seedlings exhibited greater height and stem diameter growth than periodically irrigated ones. Xylem response between the periodic and continuous irrigations showed no significant differences. Vessel and fibre features showed significant temporal variation, with substantial interaction between treatment and time for vessel area, fibre area and fibre thickness and not for vessel frequency. The cambium remained active under drought conditions, indicating resilience. Overall, anatomical properties varied complexly and inconsistently across drought cycles, likely due to differences in drought intensity, strategies and genetic factors.

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周期性干旱处理下抗旱桉枝的木材形成。

枝桉以耐旱著称，其木材解剖结构复杂，受环境条件的影响。本研究比较了连续灌溉和循环干旱胁迫对叶菖蒲幼苗木质部的影响。对幼苗进行旱涝交替处理，监测其生长、木质部性状和形成层活性。连续灌水苗的株高和茎粗生长均高于定期灌水苗。周期灌溉和连续灌溉对木质部的响应无显著差异。血管和纤维的特征表现出显著的时间变化，血管面积、纤维面积和纤维厚度在处理和时间之间存在实质性的相互作用，而血管频率则没有。形成层在干旱条件下仍保持活跃，表明弹性。总体而言，在干旱周期中，解剖特性变化复杂且不一致，可能是由于干旱强度、策略和遗传因素的差异。

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

Quantitative plant biology

CiteScore

2.50

自引率

0.00%

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