Seaweed Extract Components Are Correlated with the Seeds Germination and Growth of Tomato Seedlings

Seeds Pub Date : 2023-11-22 DOI:10.3390/seeds2040033
R. M. Hernández-Herrera, Mario Felipe González-González, A. P. Velasco-Ramírez, S. F. Velasco-Ramírez, F. Santacruz-Ruvalcaba, J. F. Zamora-Natera
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Abstract

Seaweeds are used in traditional agriculture practices because of their beneficial effects. Recently, the rising demand for organically grown foods has amplified the use of organic fertilizers such as seaweed extracts. Despite their beneficial effects, few studies have reported information about compounds in seaweed extracts that are responsible for these benefits. Thus, the aim of this study was to evaluate the potential relationships between the components and secondary metabolites in four seaweed liquid extracts from Eisenia arborea, Macrocystis pyrifera, Padina caulescens, and Sargassum horridum and their biostimulant activity through changes in the germination, growth, and protein content of tomato seedlings (Solanum lycopersicum). The E. arborea and S. horridum extracts showed similar compositions (ash, organic carbon, bicarbonates, and chlorides), minerals (Ca, Fe, and Cu) and secondary metabolites (triterpenes and saponins), albeit with different component concentrations. The chemical composition of the P. caulescens extract was significantly different from those of the other extracts; it was characterized by high levels of total nitrogen, phenols, and carbohydrates. Almost all seaweed extracts had beneficial effects on seed germination and seedling length, except the S. horridum extract that inhibits germination. The hierarchical clustering plots and principal component analysis indicated that germination and protein content are related to the presence of sterol. Shoot length was closely related to mineral levels (K, Zn, B, Na) and the C:N ratio, whereas radicle length was closely related to the content of nitrogen, carbohydrates, phenols, and flavonoids in the seaweed extracts. However, the underlying mechanisms are still unclear and require further studies.
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海藻提取物成分与番茄幼苗的种子发芽和生长有关
海藻因其有益作用而被用于传统农业实践中。最近,人们对有机种植食品的需求不断增加,从而扩大了海藻提取物等有机肥料的使用。尽管海藻提取物具有多种益处,但很少有研究报告称海藻提取物中的化合物具有这些益处。因此,本研究旨在通过改变番茄幼苗(Solanum lycopersicum)的发芽、生长和蛋白质含量,评估四种海藻液体提取物(Eisenia arborea、Macrocystis pyrifera、Padina caulescens 和 Sargassum horridum)中的成分和次生代谢物与其生物刺激活性之间的潜在关系。E. arborea 和 S. horridum 提取物显示出相似的成分(灰分、有机碳、碳酸氢盐和氯化物)、矿物质(钙、铁和铜)和次生代谢物(三萜类和皂苷),尽管成分浓度不同。P.caulescens提取物的化学成分与其他提取物明显不同;其特点是总氮、酚类和碳水化合物含量较高。几乎所有的海藻提取物都对种子萌发和幼苗长度有益处,只有 S. horridum 提取物对萌发有抑制作用。分层聚类图和主成分分析表明,发芽率和蛋白质含量与固醇的存在有关。芽的长度与矿物质含量(K、Zn、B、Na)和碳氮比密切相关,而胚根的长度则与海藻提取物中的氮、碳水化合物、酚和黄酮类化合物的含量密切相关。然而,其潜在机制仍不清楚,需要进一步研究。
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