Drought Tolerance Mechanisms in Plants: Physiological Responses Associated with Water Deficit Stress in Solanum lycopersicum

R. Kamanga, E. Mbega, P. Ndakidemi
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引用次数: 38

Abstract

Drought is among the top largest causes of agricultural productivity losses globally. Tomato (Solanum lycopersicum L.) is a commercially important crop considerably hampered by drought. It is considered a drought sensitive crop with a yield response factor (Ky) 1.05. Although advancements in molecular research and plant breeding have led to release of drought tolerant cultivars in most developed countries, breeding efforts have focused on yield as the core selection index particularly in Sub-Saharan Africa (SSA) with less regard for drought tolerance. Several studies, however, have documented various physiological, morphological and biochemical adaptive drought tolerance and avoidance strategies in tomatoes and other crop species. It is argued that selection efficiency for drought tolerance breeding programs would be improved if physiological traits linked to drought tolerance are considered. This review presents an overview of previous research efforts in understanding physiological responses to drought, in crop species with particular attention to Solanum lycopersicum (Tomato). It further highlights research gaps, identifying unexplored domains and suggesting recommendations for future investigation.
植物抗旱机制:番茄茄水分亏缺胁迫相关的生理反应
干旱是全球农业生产力损失的最大原因之一。番茄(Solanum lycopersicum L.)是一种重要的商业作物,受到干旱的严重阻碍。它被认为是干旱敏感作物,产量响应因子(Ky)为1.05。尽管分子研究和植物育种的进步导致大多数发达国家发布了耐旱品种,但育种工作主要集中在产量作为核心选择指标,特别是在撒哈拉以南非洲(SSA),很少考虑耐旱性。然而,一些研究已经记录了番茄和其他作物物种的各种生理、形态和生化适应性抗旱和避免策略。认为如果考虑与抗旱相关的生理性状,可以提高抗旱育种方案的选择效率。本文综述了作物对干旱生理反应的研究进展,重点介绍了番茄(Solanum lycopersicum)。它进一步强调了研究差距,确定了未开发的领域,并为未来的研究提出了建议。
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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