干旱的光防护策略取决于Phacelia secunda的海拔来源

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Carolina Hernández-Fuentes, Rafael E. Coopman, Lohengrin A. Cavieres, León A. Bravo
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引用次数: 5

摘要

智利安第斯山脉中部位于地中海型气候区,夏季干旱,辐照度高。这就形成了一个对比鲜明的海拔梯度,因为与低海拔地区的严重干旱相比,高海拔地区会获得更多的固体降水和更低的温度,从而导致生长季节的土壤湿度更高。因此,具有广泛海拔分布的物种,如Phacelia secunda,必须具有特定的适应能力,以应对不同海拔干旱胁迫诱导的光抑制的严重程度。我们假设来自低海拔的P.secunda比来自高海拔的植物更能耐受干旱胁迫引起的光损伤。在每个生长季节自然遭受严重干旱的植物中,这种更高的耐受性将与更高多样性的光保护策略有关。为了验证这一假设,智利安第斯山脉中部2700米和3600米的植物在公共花园下生长,然后受到水分限制。我们测量了应力指标、PSII和PSI的光化学,并估计了替代电子汇。干旱对P.secunda光合性能的影响因种源海拔的不同而不同。海拔较低的植物比海拔较高的植物表现出更高的耐旱性。这与干旱胁迫下低海拔植物表现出的较高水平的散热和替代电子汇有关。我们得出的结论是,自然遭受反复干旱的植物更适合使用额外的光化学光保护机制来应对干旱胁迫,并证实了替代电子汇改善光损伤的作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Photoprotective strategies against drought are depending on the elevation provenance in Phacelia secunda

Photoprotective strategies against drought are depending on the elevation provenance in Phacelia secunda

The central Chilean Andes are located in a Mediterranean-type climate zone, characterized by dry summers and high irradiance. This creates a contrasting elevational gradient because higher elevations get more solid precipitation and lower temperatures, resulting in higher soil humidity along the growing season compared with severe drought at lower elevations. Therefore, species with wide elevational distributions, such as Phacelia secunda, must have developed specific adaptations to cope with contrasting severity of drought stress-induced photoinhibition at different elevations. We hypothesize that P. secunda from lower elevation, is more tolerant to drought stress-induced photo-damage than plants from high elevation. This higher tolerance will be associated to a higher diversity of photoprotective strategies in plants that naturally suffers severe drought every growing season. To test this hypothesis, plants from 2700 and 3600 m in the central Chilean Andes were grown under the common garden and then subjected to water restriction. We measured stress indicators, photochemistry of PSII and PSI and estimate alternative electron sinks. Drought affected P. secunda photosynthetic performance differentially depending on the elevation of provenance. Plants from lower elevation exhibited higher drought tolerance than higher elevation ones. This was related to higher levels of heat dissipation and alternative electron sinks exhibited by plants from lower elevation under drought stress. We concluded that plants naturally subjected to recurrent drought are better adapted to respond to drought stress using additional photochemical photoprotective mechanisms and confirm the role of alternative electron sinks ameliorating photodamage.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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