在无土条件下,铝的应用使添加磷石的草莓(Fragaria × ananassa Duch.)保持生长。

IF 0.3 Q4 AGRONOMY Terra Latinoamericana Pub Date : 2017-07-06 DOI:10.28940/TERRA.V35I3.190
M. Pérez, Armando Hernández Pérez, Luis Alonso Valdez Aguilar, G. A. P. Arias, J. G. Santiago, Daniela Alvarado Carrillo
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引用次数: 3

摘要

据估计,在不久的将来,用于制造含有这种元素的肥料的磷(P)来源将变得稀缺。磷可以在土壤中找到;然而,它不是植物吸收的可溶形式。为了吸收磷元素,植物会分泌有机酸(OA),这有助于磷的增溶。据报道,在铝(Al)存在的情况下,这些酸会分泌到根际。考虑到OA的增溶能力,本研究旨在评估使用Al对OA渗出的影响,从而提高根系对不溶性P形态的吸收,影响草莓植株的生长和产量。试验包括8个处理,将两种量的磷矿(PR)混合在基质中,并施用铝。PR处理用含有0.25 meq L‑1 H2PO4‑的营养液灌溉。通过灌溉溶液施用铝产量最高,可达380克植株-1。产量与底物中柠檬酸盐浓度呈正相关,与苹果酸盐浓度呈负相关。我们得出结论,由于Al的存在,根际中柠檬酸盐的增加增加了PR的溶解度,从而提高了产量。
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Aplicaciones de aluminio mantienen el crecimiento de fresa (Fragaria × ananassa Duch.) suplementada con roca fosfórica en condiciones de cultivo sin suelo.
It is estimated that in the near future phosphorus (P) sources for manufacturing fertilizers containing this element will become scarce. Phosphorus can be found in the soil; however, it is not in soluble form for plant uptake. In order to take up this element, plants exude organic acids (OA), which can facilitate the solubilization of P. It has been reported that these acids are exuded into the rhizosphere in the presence of aluminum (Al). Given the solubilizing capacity of OA, the present study was designed to assess the effect of using Al on exudation of OA, which in turn would improve root uptake of insoluble P forms, impacting growth and yield of strawberry plants. The experiment consisted of eight treatments that resulted from combining two amounts of phosphoric rock (PR), mixed in the substrate, with applications of Al. The treatments with PR were irrigated with nutrient solutions containing 0.25 meq L‑1 H2PO4‑. Application of Al through the irrigation solution produced the highest yields, up to 380 g plant-1. There was also a positive correlation between yield and citrate concentration and a negative correlation between yield and malate concentration in the substrate. We conclude that increased citrate in the rhizosphere due to the presence of Al increased solubility of PR, thus increasing yield.
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来源期刊
Terra Latinoamericana
Terra Latinoamericana Environmental Science-Ecology
CiteScore
1.10
自引率
0.00%
发文量
49
审稿时长
16 weeks
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