Water deficit effect on the accumulation of biomass and artemisinin in annual wormwood(Artemisia annua L., Asteraceae)

J. A. Marchese, J. Ferreira, V. Rehder, O. Rodrigues
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引用次数: 84

Abstract

Despite the importance of Artemisia annua L. as the only source of the anti-parasitic drug artemisinin, little is known on the effects of biotic and abiotic stress on artemisinin accumulation. Water deficit is the most limiting factor on plant growth, however it can trigger secondary metabolite accumulation, depending on the plant growth stage and intensity. A. annua cultivated in growth chambers was submitted to five water deficit treatments (watered, 14, 38, 62 e 86 hours without irrigation). Water deficits of 38 and 62 hours (Yw = -1.39 and -2.51 MPa, respectively) increased leaf artemisinin content, but only 38 hours led to a significant increase in both leaf and plant artemisinin (29%), with no detriment to plant biomass production. The other treatments had no effect on, or decreased artemisinin accumulation. A. annua plants tolerated well water deficit treatments, including the most severe water deficit applied (Yw -3.97 MPa or 86 hs without irrigation) and recovered their turgor pressure after rehydration. These results suggest that moderate water deficit prior to harvesting the crop may not only reduce time and costs in drying the crop, but can also induce artemisinin accumulation, both of which increase crop profit margins. Results also suggest that artemisinin could be part of A. annua chemical system of defense against water deficit.
水分亏缺对一年生蒿生物量和青蒿素积累的影响
尽管黄花蒿(Artemisia annua L.)是抗寄生虫药物青蒿素的唯一来源,但生物和非生物胁迫对青蒿素积累的影响却知之甚少。水分亏缺是植物生长的最大限制因素,但也会引发次生代谢物的积累,这取决于植物的生长阶段和强度。对生长室内栽培的黄花蒿进行5种水分亏缺处理(浇水、14、38、62和86 h不灌溉)。水分亏缺38和62小时(Yw分别为-1.39和-2.51 MPa)使叶片中青蒿素含量增加,但仅38小时叶片和植物中青蒿素含量均显著增加(29%),但对植物生物量生产没有损害。其他治疗对青蒿素积累没有影响或减少。黄花蒿可以耐受井水亏缺处理,包括最严重的水亏缺处理(Yw -3.97 MPa或86 h无灌溉),并在复水化后恢复膨胀压力。这些结果表明,收获前适度的水分亏缺不仅可以减少作物干燥的时间和成本,还可以诱导青蒿素的积累,这两者都可以增加作物的利润率。结果表明,青蒿素可能是黄花蒿抗水分亏缺化学系统的一部分。
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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