Effect of salinity stress on growth, chlorophyll, antioxidant enzymes and nutrient content in Azolla spp.

IF 1.9 4区生物学 Q2 MARINE & FRESHWATER BIOLOGY Aquatic Botany Pub Date : 2024-01-05 DOI:10.1016/j.aquabot.2024.103750

Hari Narayan , Upendra Kumar , Tapas Chowdhury , P. Swain , Madhusmita Barik , AK Nayak

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Abstract

Azolla is an aquatic fern that has a symbiotic association with nitrogen-fixing cyanobacteria. It is mainly used as a biofertilizer in rice; however, its potential under salt-affected rice cultivated area was compromised. Therefore, the present study was undertaken to understand the effect of salinity stress on morpho-physiological, biochemical characteristics, photosynthetic efficacy, nutrient and High Affinity Potassium Transporter (HKT) genes in Azolla. The results indicated that out of 102, 8 Azolla (A. microphylla, BLCC 5, BLCC 18, BLCC 28, Pa Car WTY, R 18, R 54 and R 59) were found tolerant to 80 mM NaCl. The best species for salt tolerant (80 mM NaCl) was A. microphylla, whereas the least-tolerant was A. rubra. Fresh biomass production, frond length and width in A. microphylla were significantly (p < 0.05) higher in A. microphylla than A. rubra in both 40 and 80 mM NaCl. Moreover, chlorophyll a/b ratio, carotenoids and chlorophyll fluorescence (CHF)-derived F_O, F_m, F_v/F_m and root architecture (root length, average root diameter, root volume, projectile and surface area) were higher in A. microphylla than A. rubra under 40 and 80 mM NaCl. Contents of Na⁺ and Ca²⁺ increased in both A. microphylla and A. rubra, which can interfere with the uptake of essential macronutrients; however, these were accumulated comparatively less in A. microphylla than A. rubra, whereas a reverse trend was observed in cellular accumulation of K⁺ content. A. microphylla had higher superoxide dismutase (SOD), ascorbate peroxidase (APX), and proline activities in 40 and 80 mM NaCl than A. rubra. For the first time, twenty six HKT primers were designed as a molecular marker to identify salt-tolerant Azolla. Out of these, three HKT primers (Req 6, Aeq14, and Aeq16) were amplified in A. microphylla under NaCl stress, while their amplifications were not observed in A. rubra (salt susceptible). In A. microphylla, the expression of the Req 6 (HKT) gene were more under NaCl stress. Moreover, further research is needed to discover and validate the biochemical and molecular processes that confer salinity tolerance in Azolla plants.

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盐胁迫对杜鹃花生长、叶绿素荧光、抗氧化酶和营养成分的影响

Azolla 是一种与固氮蓝藻共生的水生蕨类植物。它主要用作水稻的生物肥料，但在受盐影响的水稻种植区，它的潜力受到了影响。因此，本研究旨在了解盐胁迫对杜鹃花形态生理、生化特征、光合效能、养分和高亲和性钾转运体（HKT）基因的影响。结果表明，在 102 种杜鹃花中，有 8 种（A. microphylla、BLCC 5、BLCC 18、BLCC 28、Pa Car WTY、R 18、R 54 和 R 59）对 80 mM NaCl 具有耐受性。耐盐性（80 毫摩尔 NaCl）最好的物种是 A. microphylla，而耐盐性最差的物种是 A. rubra。在 40 和 80 mM NaCl 条件下，A. microphylla 的新鲜生物量产量、叶片长度和宽度均显著高于 A. rubra（p<0.05）。此外，在 40 mM NaCl 和 80 mM NaCl 条件下，A. microphylla 的叶绿素 a/b 比值、类胡萝卜素和叶绿素荧光（CHF）衍生的 FO、Fm、Fv/Fm 以及根系结构均高于 A. rubra。A. microphylla 和 A. rubra 中的 Na+ 和 Ca2+ 含量都有所增加，这可能会影响对必需大量营养元素的吸收；但是，A. microphylla 中这些营养元素的积累相对比 A. rubra 少，而细胞中 K+ 含量的积累呈相反趋势。在 40 mM 和 80 mM NaCl 中，A. microphylla 的 SOD、APX 和脯氨酸活性均高于 A. rubra。在 NaCl 胁迫下，A. microphylla 的三个 HKT 基因（Req 6、Aeq14 和 Aeq16）被扩增，而在 A. rubra（对盐敏感）中未观察到它们的扩增。在 A. microphylla 中，Req6（HKT）基因在 NaCl 胁迫下的表达量更高。此外，还需要进一步的研究来发现使杜鹃花植物具有耐盐性的生化和分子过程。

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来源期刊

Aquatic Botany 生物-海洋与淡水生物学

CiteScore

3.80

自引率

5.60%

发文量

审稿时长

6 months

期刊介绍： Aquatic Botany offers a platform for papers relevant to a broad international readership on fundamental and applied aspects of marine and freshwater macroscopic plants in a context of ecology or environmental biology. This includes molecular, biochemical and physiological aspects of macroscopic aquatic plants as well as the classification, structure, function, dynamics and ecological interactions in plant-dominated aquatic communities and ecosystems. It is an outlet for papers dealing with research on the consequences of disturbance and stressors (e.g. environmental fluctuations and climate change, pollution, grazing and pathogens), use and management of aquatic plants (plant production and decomposition, commercial harvest, plant control) and the conservation of aquatic plant communities (breeding, transplantation and restoration). Specialized publications on certain rare taxa or papers on aquatic macroscopic plants from under-represented regions in the world can also find their place, subject to editor evaluation. Studies on fungi or microalgae will remain outside the scope of Aquatic Botany.