Change in photosynthetic pigments of Date palm offshoots under abiotic stress factors

Pub Date : 2020-04-01 DOI:10.2478/foecol-2020-0006
H. J. Shareef, G. Abdi, S. Fahad
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引用次数: 12

Abstract

Abstract Increasing world temperatures are bringing about climate changes creating abiotic stress in plants. Date palm offshoot leaves (Khadrawi cv.) were analyzed for chlorophyll Chl a, Chl b, Total Chl, Chl a/b ratio, anthocyanin and carotenoid subject to salinity, drought and temperature stress under field conditions. Results demonstrated that drought and salinity stress accompanied by high temperatures in July and August significantly reduced the Chl a, Chl b, and Total Chl relative to the control. Anthocyanins, carotenoids, hydrogen peroxide, and malondialdehyde were markedly higher in July and August (45 ºC), whereas September showed lower values in these substances. Temperature reduction to 35 °C accompanied by drought or salinity stress, brought about a critical increment in relative water content and a decrease in electrolyte leakage. Although the impact of drought and salinity stress continued, the reduced temperatures in September resulted in a reduction of abscisic acid and proline concentration. Cluster analysis showed the two groups. In this first group, the significant similarity between the treatments is illustrated by the influence of the high temperature of 43–45 ºC. Recovery of photosynthesis following low-temperature, for the most part, determines plant flexibility to water deficiencies and salinity. Thermal stress, associated with salinity or drought stress is more damaging to the photosynthetic pigments than any single factor.
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非生物胁迫条件下椰枣枝条光合色素的变化
全球气温升高带来的气候变化给植物带来了非生物胁迫。在盐碱、干旱和温度胁迫条件下,对枣树枝叶叶绿素Chl a、Chl b、总Chl、Chl a/b比值、花青素和类胡萝卜素含量进行了分析。结果表明,与对照相比,7、8月干旱、盐胁迫和高温显著降低了Chl a、Chl b和Total Chl。花青素、类胡萝卜素、过氧化氢和丙二醛在7月和8月(45℃)显著升高,而9月这些物质的含量较低。温度降低至35°C,并伴有干旱或盐度胁迫,相对含水量临界增加,电解质泄漏减少。尽管干旱和盐胁迫的影响仍在继续,但9月份气温的降低导致脱落酸和脯氨酸浓度的降低。聚类分析显示两组。在第一组中,43-45ºC高温的影响说明了处理之间的显著相似性。低温后光合作用的恢复,在很大程度上决定了植物对缺水和盐度的适应性。与盐胁迫或干旱胁迫相关的热胁迫对光合色素的损害比任何单一因素都要大。
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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