土壤水分胁迫下Ashwagandha植物化学和生理变化

Sonal Shah, R. Saravanan, N. Gajbhiye
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引用次数: 14

摘要

Ashwagandha,通常被称为印度人参(Withania somnifera),是许多草药制剂中用于治疗各种疾病的成分。它作为雨养作物在印度半干旱地区种植。该作物的响应(cv。研究了JA-134对进行性土壤水分亏缺的生长、生理和植物化学物质含量的影响。处理结束时,30 cm深度土壤水势(Ψw)分别降至-10.93、-1.15 MPa,重度和中度胁迫下叶片黎明前水势分别降至-0.62、-0.51 MPa。与对照相比,中度和重度水分胁迫处理的叶面积分别减少27.4%和34.4%。在严重水分胁迫下,叶绿素含量降低了60%。分析了该植物根提取物中主要药用活性成分甾体生物碱和内酯的变化。在严重胁迫下,净光合作用降低了52.6%。处理结束时,中度和重度胁迫处理根中12-脱氧withastramonolide (12-DWS)含量分别为0.751和0.714 mg。在中度和重度胁迫下,12-DWS和withanolide的含量分别为对照的77%和93%,而在轻度和重度胁迫下,这些化合物的产率分别为对照的65%和78%。因此,在中等胁迫下,生物量在根系中的优先分配导致了较高的根系产量。较高的根系产量部分抵消了土壤水分胁迫下生物活性化合物的损失。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Phytochemical and physiological changes in Ashwagandha (Withania somnifera Dunal) under soil moisture stress
Ashwagandha, commonly known as the Indian Ginseng (Withania somnifera) is an ingredient in many herbal preparations used for healing various ailments. It is cultivated in semi-arid regions of India as rain-fed crop. The response of this crop (cv. JA-134) to progressive soil moisture deficit on growth, physiology and content of phytochemicals was studied. At the end of treatment period, soil water potential (Ψw) decreased to -10.93, -1.15 MPa at 30 cm depth, predawn leaf water potentials were reduced to -0.62 and -0.51 MPa in the severe and moderate stress. Leaf area was reduced by 27.4% and 34.4% in moderate and severe water stress treatment compared to control. Chlorophyll content was reduced by 60% in the severe water stress. Changes in the steroidal alkaloids and lactones that are the major medicinal active principles derived from root extracts of this plant species was also analyzed. A reduction of 52.6% in net photosynthesis was noticed under severe stress. At the end of the treatment period, moderate and severe stress treatments had 0.751 and 0.714 mg g-1 12-deoxywithastramonolide (12-DWS) content in the roots respectively. The content of 12-DWS and withanolide were at 77% and 93% of the control in the moderate and severe stress, respectively, while yield of these compounds were at 65% and 78% of control in mild and severe stress. Thus, preferential partitioning of biomass in roots leads to higher root yield in moderate stress. Higher root yield partially offset the loss of bioactive compounds under soil moisture stress.
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