Effects of Drought and Flooding on Phytohormones and Abscisic Acid Gene Expression in Kiwifruit.
Kirstin V WurmsTony ReglinskiPoppy BuissinkAnnette Ah CheeChristina FehlmannStella McDonaldJanine M CooneyDwayne JensenDuncan I HedderleyCatherine M McKenzieErik H A RikkerinkPublished in: International journal of molecular sciences (2023)
Environmental extremes, such as drought and flooding, are becoming more common with global warming, resulting in significant crop losses. Understanding the mechanisms underlying the plant water stress response, regulated by the abscisic acid (ABA) pathway, is crucial to building resilience to climate change. Potted kiwifruit plants (two cultivars) were exposed to contrasting watering regimes (water logging and no water). Root and leaf tissues were sampled during the experiments to measure phytohormone levels and expression of ABA pathway genes. ABA increased significantly under drought conditions compared with the control and waterlogged plants. ABA-related gene responses were significantly greater in roots than leaves. ABA responsive genes, DREB2 and WRKY40 , showed the greatest upregulation in roots with flooding, and the ABA biosynthesis gene, NCED3 , with drought. Two ABA-catabolic genes, CYP707A i and ii were able to differentiate the water stress responses, with upregulation in flooding and downregulation in drought. This study has identified molecular markers and shown that water stress extremes induced strong phytohormone/ABA gene responses in the roots, which are the key site of water stress perception, supporting the theory kiwifruit plants regulate ABA to combat water stress.