Screening for drought resistance among ornamental maples (Acer sp.). A field experiment in juvenile plants

IF 1.4 4区 农林科学 Q2 FORESTRY
A. Oravec, P. Ferus, Dominika Košútová, J. Konôpková
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引用次数: 0

Abstract

Urban greenery is often affected by adverse environment (including inadequate water availabil-ity) of human agglomerations. Besides high aesthetic value, maples (Acer sp.) with elevated resistance to air/soil pollution, have become common components of ornamental plantations in Europe. Because of high theoretical (representativeness for species evaluation) and practical (planting age) relevancy, morphological and metabolic reactions of juvenile plants of eight maple species to one month long summer drought were studied in the experimental field to estimate the species drought resistance. In spite of marked growth differences, none from tested species showed a significant decrease in leaf relative water content indicating stress. However, in some of them activation of protective mechanisms was observed, what points to the past stress sensing. A. negundo with A. tataricum bet on transpiration area reduction (leaf shedding) and A. buergerianum, A. palmatum and A. saccharinum on osmotic adjustment (increased free proline concentration). Increase in stomatal index and/or reduction in specific leaf area, observed almost exclusively in species with continuous growth, had limited effect on the plant hydration status. Relative trunk growth was par-ticularly affected in the fast growing species. Taking into account the decisive protective mechanisms onset and trunk growth stability, species can be ordered in respect of drought resistance as follows: A. campestre, A. monspessulanum, A. platanoides, A. tataricum, A. negundo, A. saccharinum, A. palmatum and A. buergerianum.
观赏枫树(Acer sp.)抗旱性的筛选——幼树田间试验
城市绿化经常受到人类聚集的不利环境(包括水资源利用率不足)的影响。除了具有较高的美学价值外,枫树(Acer sp.)对空气/土壤污染的抵抗力也很高,已成为欧洲观赏种植园的常见组成部分。由于具有较高的理论(物种评价的代表性)和实践(种植年龄)相关性,在试验场上研究了8种枫树幼树对一个月夏季干旱的形态和代谢反应,以评估其抗旱性。尽管存在显著的生长差异,但试验物种的叶片相对含水量均未显著下降,表明存在胁迫。然而,在他们中的一些人身上观察到了保护机制的激活,这表明了过去的压力感。A.negundo和A.tataricum在蒸腾面积减少(叶片脱落)方面下注,A.buergerianum、A.palmatum和A.saccharinum在渗透调节(增加游离脯氨酸浓度)方面下注。气孔指数的增加和/或比叶面积的减少,几乎只在连续生长的物种中观察到,对植物水合状态的影响有限。在快速生长的物种中,相对树干生长受到特别严重的影响。考虑到其决定性的保护机制开始和树干生长稳定性,可将其抗旱性按如下顺序排列:A.campestre、A.monspesulanum、A.platanoides、A.tataricum、A.negundo、A.saccharinum、A.palmatum和A.buergerianum。
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来源期刊
Dendrobiology
Dendrobiology 农林科学-林学
CiteScore
2.20
自引率
11.10%
发文量
17
审稿时长
>12 weeks
期刊介绍: Dendrobiology publishes original research articles and review articles related to the biology of trees and shrubs.
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