The role of grapevine leaf morphoanatomical traits in determining capacity for coping with abiotic stresses: a review

IF 1.1 4区 农林科学 Q4 FOOD SCIENCE & TECHNOLOGY Ciencia E Tecnica Vitivinicola Pub Date : 2021-01-01 DOI:10.1051/ctv/ctv2021360175
Phoebe MacMillan, G. Teixeira, C. Lopes, A. Monteiro
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引用次数: 7

Abstract

Worldwide, there are thousands of Vitis vinifera grape cultivars used for wine production, creating a large morphological, anatomical, physiological and molecular diversity that needs to be further characterised and explored, with a focus on their capacity to withstand biotic and abiotic stresses. This knowledge can then be used to select better adapted genotypes in order to help face the challenges of the expected climate changes in the near future. It will also assist grape growers in choosing the most suitable cultivar(s) for each terroir; with adaptation to drought and heat stresses being a fundamental characteristic. The leaf blade of grapevines is the most exposed organ to abiotic stresses, therefore its study regarding the tolerance to water and heat stress is becoming particularly important, mainly in Mediterranean viticulture. This review focuses on grapevine leaf morphoanatomy - leaf blade form, leaf epidermis characteristics (cuticle, indumentum, pavement cells and stomata) and anatomy of mesophyll - and their adaptation to abiotic stresses. V. vinifera xylem architecture and its adaptation capacity when the grapevine is subjected to water stress is also highlighted since grapevines have been observed to exhibit a large variability in responses to water availability. The hydraulic properties of the petiole, shoot and trunk are also reviewed. Summarising, this paper reviews recent advances related to the adaptation of grapevine leaf morphoanatomical features and hydraulic architecture to abiotic stresses, mainly water and heat stress, induced primarily by an ever-changing global climate.
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葡萄叶片形态解剖性状在决定其应对非生物胁迫能力中的作用:综述
在世界范围内,有成千上万种葡萄品种用于葡萄酒生产,创造了巨大的形态,解剖,生理和分子多样性,需要进一步表征和探索,重点是它们承受生物和非生物压力的能力。然后,这些知识可以用来选择更好的适应基因型,以帮助面对不久的将来预期的气候变化的挑战。它还将帮助葡萄种植者选择最适合每个风土的品种;以适应干旱和高温胁迫为基本特征。葡萄叶片是最易受非生物胁迫的器官,因此其对水和热胁迫的耐受性的研究变得尤为重要,主要在地中海葡萄栽培中。本文综述了葡萄叶的形态解剖学——叶片形态、叶表皮特征(角质层、毛被、铺路细胞和气孔)、叶肉解剖及其对非生物胁迫的适应。葡萄木质部结构及其在葡萄遭受水分胁迫时的适应能力也得到了强调,因为已经观察到葡萄在对水分可用性的反应中表现出很大的变异性。对叶柄、茎和干的水力特性进行了综述。综上所述,本文综述了葡萄藤叶片形态解剖特征和水力结构对非生物胁迫(主要是由不断变化的全球气候引起的水和热胁迫)的适应的最新进展。
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来源期刊
Ciencia E Tecnica Vitivinicola
Ciencia E Tecnica Vitivinicola Agricultural and Biological Sciences-Food Science
自引率
12.50%
发文量
5
期刊介绍: Ciência e Técnica Vitivinícola (Journal of Viticulture and Enology) is an international journal that publishes original articles, research notes and review articles, written in Portuguese or in English, on the various fields of the science and technology of vine and wine: Viticulture, Enology and Vitivinicultural economy.
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