Agave durangensis Gentry 两个种群幼苗发芽和早期生长过程中对盐度的化学和生物化学反应的变化

IF 0.7 Q4 PLANT SCIENCES
Génesis Gallegos-Hernández, N. Almaraz-Abarca, E. A. Delgado-Alvarado, J. A. Ávila-Reyes, R. Torres-Ricario
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引用次数: 0

摘要

龙舌兰(天门冬科)支撑着墨西哥的麦斯卡尔酒业。该物种的主要繁殖策略是播种。龙舌兰饮料需求的增加促使生产商寻找新的种植区。然而,墨西哥一半以上的领土包括干旱和半干旱地区,这些地区受盐碱化的影响很大。本研究的目的是确定盐度是否会引发杜朗根龙舌兰(A. durangensis)两个种群幼苗不同的种子萌发潜能和不同的生化反应,从而使其对盐度的耐受性不同。用四种盐度处理方法灌溉每个种群的种子。测定了秧苗的发芽势、生长参数和生化属性。尽管发芽率和发芽速度有所降低,但这两个种群的种子即使在最高的 NaCl 浓度(100 mM)下也能发芽。然而,两个种群的幼苗在整个实验中都存活了下来,叶绿素含量和细胞活力在大多数盐碱处理中都有所提高。酵素防御机制和脯氨酸的积累是以盐依赖的方式激活的,而酚类化合物却没有发生这种情况;不过,在所评估的两种最强的 NaCl 浓度下,单体花青素的积累非常突出。每种类型的反应都存在重要的种群间差异,这些反应在不同的 NaCl 浓度下受到不同的调节,其中一些反应在特定盐度条件下比其他反应更重要。杜兰戈品种的种子对盐度更敏感。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Variation of the chemical and biochemical responses to salinity during germination and early growth of seedlings of two populations of Agave durangensis Gentry
Agave durangensis (Asparagaceae) sustains a mescal industry in Mexico. The main reproductive strategy of the species is by seeds. The increased demand for agave-based beverages encourages producers to seek new cultivation areas. However, more than half of the territory of the country includes arid and semiarid zones, which are highly affected by salinity. The aim of the current study was to determine if salinity triggers different seed germination potential and variable biochemical and chemical responses in seedlings of two populations of A. durangensis, that might confer different tolerance to salinity. Seeds from each population were irrigated with four salinity treatments. Germination potential, as well as growth parameters and biochemical and chemical attributes of seedlings, were determined. Although with reduced germinability and germination speed, seeds of the two populations were able to germinate even under the strongest NaCl concentration (100 mM) evaluated. Effects in the growth parameters were registered; however, the seedlings of both populations survived throughout the experiments, increasing chlorophyll content and cell viability in most saline treatments. The enzymatic defense mechanism and the accumulation of proline were activated in a salt-dependent manner, which did not occur with the phenolic compounds; however, monomeric anthocyanin accumulation was outstanding under the two strongest NaCl concentrations evaluated. Important interpopulation differences were registered in each type of response, which were differently regulated under variable NaCl concentrations, some of them being more important than others under a particular saline condition. Seeds from the population Durango were more sensitive to salinity.
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来源期刊
Plant Science Today
Plant Science Today PLANT SCIENCES-
CiteScore
1.50
自引率
11.10%
发文量
177
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