Carbon Dynamics Under Drought and Recovery in Grapevine's Leaves.

IF 6 1区生物学 Q1 PLANT SCIENCES

Plant, Cell & Environment Pub Date : 2025-01-05 DOI:10.1111/pce.15365

Aviad Perry, Or Sperling, Shimon Rachmilevitch, Uri Hochberg

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引用次数: 0

Abstract

Drought stress reduces leaf net assimilation (A_N) and phloem export, but the equilibrium between the two is unknown. Consequently, the leaf carbon balance and the primary use of the leaf nonstructural carbohydrates (NSC) under water deficit are unclear. Also, we do not know how quickly leaves can replenish their NSC storage and resume export after rehydration. Hence, we dried grapevines to either zero A_N, leaf turgor loss, or complete wilting while following the leaf carbon dynamics. The vines ceased growth and minimized carbon export under drought, conserving the leaves NSC until A_N zeroed. Subsequently, the leaves slowly depleted their NSC storage. However, the NSC depletion rate in the leaves was too slow to support the leaf's energetic requirements, potentially transforming the leaves into carbon sinks. Even under extreme drought (-2 MPa), the leaves had substantial NSC reserves (38% of the controls). After rehydration, all surviving leaves recovered their NSC storage within a week, and even leaves that were later shed had functional phloem export in the week after rehydration. The study reveals the leaf carbon relations under drought, highlighting the preference of the leaf to conserve its NSC storage rather than utilize it.

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干旱条件下葡萄叶片碳动态与恢复

干旱胁迫降低了叶片净同化（AN）和韧皮部输出，但两者之间的平衡尚不清楚。因此，水分亏缺条件下叶片碳平衡和叶片非结构碳水化合物的主要利用尚不清楚。此外，我们也不知道树叶在补充水分后能多快地补充其NSC储存并恢复出口。因此，在遵循叶片碳动态的同时，我们将葡萄藤干燥到零AN，叶片膨胀损失或完全枯萎。在干旱条件下，葡萄藤停止生长，减少碳出口，保存叶片NSC，直到AN为零。随后，叶子慢慢地耗尽了它们的NSC储存。然而，叶片中的NSC耗竭速度太慢，无法满足叶片的能量需求，可能会将叶片转化为碳汇。即使在极端干旱（-2 MPa）条件下，叶片也有大量的NSC储备（为对照的38%）。复水后，所有存活的叶片在一周内恢复了NSC的储存，即使是后来脱落的叶片在复水后的一周内也有功能性韧皮部出口。该研究揭示了干旱条件下叶片碳的关系，强调了叶片对NSC储存的偏好而不是利用它。

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

Plant, Cell & Environment 生物-植物科学

CiteScore

13.30

自引率

4.10%

发文量

253

审稿时长

1.8 months

期刊介绍： Plant, Cell & Environment is a premier plant science journal, offering valuable insights into plant responses to their environment. Committed to publishing high-quality theoretical and experimental research, the journal covers a broad spectrum of factors, spanning from molecular to community levels. Researchers exploring various aspects of plant biology, physiology, and ecology contribute to the journal's comprehensive understanding of plant-environment interactions.