Algal extract and proline promote physiological changes in mango trees during shoot maturation

Pub Date : 2022-01-01 DOI:10.1590/0100-29452022854
J. Cunha, Í. Cavalcante, L. Silva, M. A. Silva, K. Sousa, V. B. P. Paiva Neto
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引用次数: 6

Abstract

Abstract Water stress should be adequately managed during shoot maturation to improve the floral induction of mango grown in semi-arid regions. In this scenario, proline association with algal extracts has a potential stress-mitigating effect. However, even though this practice has been reported separately for some crops, its effects on mango are still unknown. From this perspective, this study investigated the role of proline and algal extract in mitigation of water deficit effects during shoot maturation of the mango variety ‘Tommy Atkins’ grown in the tropical semi-arid region. The study consisted of five consecutive individual experiments (five foliar application treatments) in a randomized block design and a 4 x 2 factorial corresponding to i) four proline concentrations (Pro): 0.0% (without proline), 0.287, 0.575, and 1.150%, and ii) the presence of algal extract (AE) (presence and absence). The following parameters were evaluated: photosynthetic pigments, soluble carbohydrates, photochemical and non-photochemical efficiency, and flowering and production uniformity. Carotenoids were interactively affected by the factors evaluated. On the other hand, as additive effects, proline provided the highest values of gas exchange and total soluble carbohydrates, with a higher internal CO2 concentration and greater flowering uniformity. The application of proline and the algal extract of A. nodosum promoted different responses in mango physiology and can be used during shoot maturation.
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海藻提取物和脯氨酸促进芒果树茎成熟过程中的生理变化
在半干旱区生长的芒果,在茎成熟过程中应适当管理水分胁迫,以提高其诱导花性。在这种情况下,脯氨酸与藻类提取物的关联具有潜在的缓解压力的作用。然而,尽管这种做法在一些作物上有单独的报道,但它对芒果的影响仍然未知。从这个角度出发,本研究探讨了脯氨酸和藻类提取物在热带半干旱地区生长的芒果品种汤米·阿特金斯(Tommy Atkins)茎成熟过程中缓解水分亏缺效应的作用。该研究采用随机区组设计,包括5个连续的个体试验(5个叶面施用处理),并采用4 × 2因子,分别对应于1)4种脯氨酸浓度(Pro): 0.0%(不含脯氨酸)、0.287、0.575和1.150%,以及2)海藻提取物(AE)的存在(存在和不存在)。评估了以下参数:光合色素、可溶性碳水化合物、光化学和非光化学效率、开花和生产均匀性。类胡萝卜素受到评价因素的交互影响。另一方面,作为加性效应,脯氨酸提供了最高的气体交换值和总可溶性碳水化合物,具有较高的内部CO2浓度和较好的开花均匀性。脯氨酸和结藻提取物对芒果生理有不同的促进作用,可用于芒果茎成熟。
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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