Osmoprotection by proline accumulation induced by rainfall variations in three steppe plants species Aristida pungens, Retama raetam and Astragalus armatus under Mediterranean Arid bioclimate

South Asian Journal of Experimental Biology Pub Date : 2023-04-19 DOI:10.38150/sajeb.13(1).p69-79

Mohammed Abdelmadjid Boumeddiene, Z. Houyou, Ahmed Boutmedjet, Abdel Nacer Guibadj, M. Benyahia

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Abstract

Since the middle of the last century, the Algerian steppe vegetation has been in continuous decline, which could be subject to environmental constraints that go against the sustainable development of a fragile environment exposed to climatic variations. Good management of this environment would be based on understanding the mechanisms of tolerance of steppe plant communities to the rainfall variations of the territory where they live. In the present study, for four years (2019- 2022), during the spring season, under arid bioclimate in the central Algerian Laghouat steppe region (Mokrane site), the relative water content (RCW) and the accumulated proline content were measured in the fresh leaves of three plant species (R. raetam, A. armatus and A. pungens). Also, a climatic synthesis of the study site was carried out. The aridity index of the site was found to be 0.06, and annual rainfall differences > 150 mm have sometimes been observed. The site is characterized by 11 months of drought over the year. During the 04 years, 2019 was the rainiest year receiving 238.88mm precipitation. During the 04 years of measurement, RCW revealed the existence of significant differences (P<0.05) for each of the three species. In R. raetam, the RWC was between 18.6 and 49.6%; for A. armatus 12 and 33.31% and for A. pungens 12.04 and 77.42% respectively. Between 2019 and 2022, the proline content also showed significant differences (P<0.05) for each of the three species. In R. raetam it was between 0.13- 1.4 mmol/g FM, for A. armatus between 0.26 - 0.96 mmol/g FM and between 0.20 -1.12 mmol/g FM for A. pungens. Pearson correlations revealed that annual cumulative rains were weakly correlated with RWC, but the correlation was strong and in a negative direction with accumulated proline. These results demonstrated that adaptation of the three species to rainfall variations is based on a tolerance mechanism driven by proline synthesis.

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地中海干旱生物气候下三种草原植物黄芪、黄麻和黄芪脯氨酸积累的渗透保护作用

自上个世纪中叶以来，阿尔及利亚草原的植被一直在不断减少，这可能受到环境限制，不利于易受气候变化影响的脆弱环境的可持续发展。对这种环境的良好管理将以了解草原植物群落对其所居住地区的降雨变化的容忍机制为基础。在2019- 2022年的4年时间里，在阿尔及利亚中部Laghouat草原地区(Mokrane遗址)干旱生物气候条件下，测定了raetam、A. armatus和A. pungens 3种植物鲜叶的相对含水量(RCW)和累积脯氨酸含量。此外，还对研究地点进行了气候综合。该站点的干旱指数为0.06，年降雨量有时相差100 ~ 150毫米。该地区的特点是一年中有11个月干旱。2019年是04年来降雨量最多的一年，降水量为238.88毫米。在04年的测量中，3个物种的RCW均存在显著差异(P<0.05)。RWC在18.6% ~ 49.6%之间;分别为12.04和77.42%;2019 ~ 2022年，3种植物的脯氨酸含量也存在显著差异(P<0.05)。赤霉素在0.13 ~ 1.4 mmol/g FM之间，赤霉素在0.26 ~ 0.96 mmol/g FM之间，赤霉素在0.20 ~ 1.12 mmol/g FM之间。Pearson相关分析表明，年累积雨量与RWC呈弱相关，而与脯氨酸积累呈强负相关。这些结果表明，这三种植物对降雨变化的适应是基于脯氨酸合成驱动的耐受机制。

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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South Asian Journal of Experimental Biology

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