Morphological and physiological adaptation of a desert shrub, Encelia farinosa, under drought stress

IF 1.3 4区 环境科学与生态学 Q3 ECOLOGY Acta Oecologica-International Journal of Ecology Pub Date : 2024-01-01 DOI:10.1016/j.actao.2023.103976
Ghadeer Mohammed Alkhedir , Takeshi Taniguchi
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引用次数: 0

Abstract

Water scarcity in arid and semi-arid regions affects ecosystem development. Therefore, elucidation of the mechanisms by which plant species in a given region respond to drought conditions may allow us to improve global vegetation. Encelia species are drought-tolerant and an important component of shrub communities in the arid and semi-arid regions of southern California, U.S.A.; these species are widely used for vegetation restoration in the region. This study aimed to investigate the morphological, and physiological responses in E. farinosa in relation to changes in soil properties under drought conditions. Plants were subjected to two levels of soil water regimes, drought and well-watered conditions (5% and 12% of gravimetric water content, respectively). After 3 months, above-ground biomass, basal diameter, leaf area, leaf and root relative water content, and root length were measured. The shoot:root ratio in dry mass and specific leaf area (SLA) were calculated. We also analyzed leaf and soil nutrients, including total C, N, and available P. In the drought treatment, E. farinosa showed significantly lower above-ground biomass, stem diameter, and shoot and root relative water content. Also, the drought treatment resulted in significantly lower leaf areas, while the SLA and root length were significantly higher. Leaf total C and N were higher in the drought treatment while leaf P was not affected by soil water content. The reduction in plant leaf area, root elongation and the increase in SLA under drought are known as drought avoidance strategies of plants, suggesting that E. farinosa hampers water loss by morphological regulations. Additionally, higher leaf content of C and N seems to be important for metabolic drought adaptation. Further research on osmotic adjustment and antioxidant defense systems will clarify the detailed drought tolerance mechanisms of E. farinosa in relation to C and N accumulation under drought conditions.

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沙漠灌木 Encelia farinosa 在干旱胁迫下的形态和生理适应性
干旱和半干旱地区缺水会影响生态系统的发展。因此,阐明特定地区植物物种对干旱条件的反应机制可能有助于我们改善全球植被。Encelia物种耐旱,是美国加利福尼亚州南部干旱和半干旱地区灌木群落的重要组成部分;这些物种被广泛用于该地区的植被恢复。本研究旨在调查干旱条件下 E. farinosa 的形态和生理反应与土壤特性变化的关系。研究人员将植物置于两种土壤水分条件下,即干旱和充足水分条件下(分别为 5% 和 12% 的重力含水量)。3 个月后,测量了地上生物量、基部直径、叶面积、叶片和根的相对含水量以及根的长度。计算了干重中的芽根比和比叶面积(SLA)。我们还分析了叶片和土壤养分,包括总碳、氮和可利用钾。在干旱处理中,远志颖的地上生物量、茎直径、芽和根的相对含水量显著降低。此外,干旱处理导致叶面积明显减少,而 SLA 和根长明显增加。干旱处理的叶片总碳和总氮含量较高,而叶片总磷则不受土壤含水量的影响。在干旱条件下,植物叶面积的减少、根的伸长和 SLA 的增加被认为是植物的避旱策略,这表明远志皂苷通过形态调节阻碍了水分的流失。此外,叶片中较高的 C 和 N 含量似乎对新陈代谢的干旱适应也很重要。对渗透调节和抗氧化防御系统的进一步研究将阐明远志颖在干旱条件下与 C 和 N 积累有关的详细耐旱机制。
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来源期刊
CiteScore
3.60
自引率
0.00%
发文量
57
审稿时长
>0 weeks
期刊介绍: Acta Oecologica is venue for the publication of original research articles in ecology. We encourage studies in all areas of ecology, including ecosystem ecology, community ecology, population ecology, conservation ecology and evolutionary ecology. There is no bias with respect to taxon, biome or geographic area. Both theoretical and empirical papers are welcome, but combinations are particularly sought. Priority is given to papers based on explicitly stated hypotheses. Acta Oecologica also accepts review papers.
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