C. de Oliveira, S. Ramos, G. S. Dinali, T. D. de Carvalho, Fábio Aurélio Dias Martins, V. Faquin, Evaristo Mauro de Castro, Jorge Eduardo Souza Sarkis, José-Oswaldo Siqueira, Luiz Roberto Guimarães Guilherme
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In experiment 1, 0.411 kg ha−1 (foliar application) of a mixture of REE (containing 41.38% Ce, 23.95% La, 13.58% Pr, and 4.32% Nd) was applied, as well as two products containing 41.38% Ce and 23.95% La separately. The characteristics of chlorophyll a fluorescence, gas exchanges, SPAD index, and biomass (pot conditions) were evaluated. For experiment 2, increasing rates of the REE mix (0, 0.1, 0.225, 0.5, and 1 kg ha−1) (field conditions) were used to study their effect on rice grain yield and nutrient concentration of rice leaves. Adding REEs to plants increased biomass production (23% with Ce, 31% with La, and 63% with REE Mix application) due to improved photosynthetic rate (8% with Ce, 15% with La, and 27% with REE mix), favored by the higher electronic flow (photosynthetic electron transport chain) (increase of 17%) and by the higher Fv/Fm (increase of 14%) and quantum yield of photosystem II (increase of 20% with Ce and La, and 29% with REE Mix), as well as by increased stomatal conductance (increase of 36%) and SPAD index (increase of 10% with Ce, 12% with La, and 15% with REE mix). Moreover, adding REEs potentiated the photosynthetic process by increasing rice leaves’ N, Mg, K, and Mn concentrations (24–46%). 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For experiment 2, increasing rates of the REE mix (0, 0.1, 0.225, 0.5, and 1 kg ha−1) (field conditions) were used to study their effect on rice grain yield and nutrient concentration of rice leaves. Adding REEs to plants increased biomass production (23% with Ce, 31% with La, and 63% with REE Mix application) due to improved photosynthetic rate (8% with Ce, 15% with La, and 27% with REE mix), favored by the higher electronic flow (photosynthetic electron transport chain) (increase of 17%) and by the higher Fv/Fm (increase of 14%) and quantum yield of photosystem II (increase of 20% with Ce and La, and 29% with REE Mix), as well as by increased stomatal conductance (increase of 36%) and SPAD index (increase of 10% with Ce, 12% with La, and 15% with REE mix). Moreover, adding REEs potentiated the photosynthetic process by increasing rice leaves’ N, Mg, K, and Mn concentrations (24–46%). 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引用次数: 0
摘要
自 20 世纪 80 年代以来,稀土元素一直被有意用于中国农业,以提高作物产量。在世界各地,稀土元素也通过磷肥被有意识地施用到土壤中。众所周知,这些元素可减轻植物在非生物胁迫下受到的损害,但关于这些元素如何在植物生理机能中发挥作用,目前尚无任何资料。REE 的作用模式属于激素效应的范畴,具有低剂量刺激和高剂量不良反应的特点。本研究旨在验证稀土元素如何影响水稻植株的生理机能,以测试稀土元素在水稻植株中发挥生物刺激作用的阈值剂量。在实验 1 中,施用了 0.411 kg ha-1(叶面喷施)的 REE 混合物(含 41.38% Ce、23.95% La、13.58% Pr 和 4.32% Nd),以及分别含 41.38% Ce 和 23.95% La 的两种产品。对叶绿素 a 荧光、气体交换、SPAD 指数和生物量(盆栽条件)的特性进行了评估。在实验 2 中,研究人员增加了 REE 混合物的添加量(0、0.1、0.225、0.5 和 1 kg ha-1)(田间条件),以研究它们对水稻谷物产量和水稻叶片营养浓度的影响。由于光合速率的提高(Ce 为 8%、La 为 15%、REE 混合为 27%),向植物中添加 REE 增加了生物量产量(Ce 为 23%、La 为 31%、REE 混合为 63%)、更高的电子流(光合电子传递链)(增加 17%)、更高的 Fv/Fm(增加 14%)和光系统 II 的量子产率(使用 Ce 和 La 增加 20%,使用 REE Mix 增加 29%),以及更高的气孔导度(增加 36%)和 SPAD 指数(使用 Ce 增加 10%,使用 La 增加 12%,使用 REE Mix 增加 15%)。此外,添加 REEs 还能提高水稻叶片中氮、镁、钾和锰的浓度(24-46%),从而增强光合作用过程。据估计,REE 混合物的剂量为 0.72 kg ha-1,可提高水稻产量(增加 113%)。
Biostimulant Response of Foliar Application of Rare Earth Elements on Physiology, Growth, and Yield of Rice
Rare earth elements (REEs) have been intentionally used in Chinese agriculture since the 1980s to improve crop yields. Around the world, REEs are also involuntarily applied to soils through phosphate fertilizers. These elements are known to alleviate damage in plants under abiotic stresses, yet there is no information on how these elements act in the physiology of plants. The REE mode of action falls within the scope of the hormesis effect, with low-dose stimulation and high-dose adverse reactions. This study aimed to verify how REEs affect rice plants’ physiology to test the threshold dose at which REEs could act as biostimulants in these plants. In experiment 1, 0.411 kg ha−1 (foliar application) of a mixture of REE (containing 41.38% Ce, 23.95% La, 13.58% Pr, and 4.32% Nd) was applied, as well as two products containing 41.38% Ce and 23.95% La separately. The characteristics of chlorophyll a fluorescence, gas exchanges, SPAD index, and biomass (pot conditions) were evaluated. For experiment 2, increasing rates of the REE mix (0, 0.1, 0.225, 0.5, and 1 kg ha−1) (field conditions) were used to study their effect on rice grain yield and nutrient concentration of rice leaves. Adding REEs to plants increased biomass production (23% with Ce, 31% with La, and 63% with REE Mix application) due to improved photosynthetic rate (8% with Ce, 15% with La, and 27% with REE mix), favored by the higher electronic flow (photosynthetic electron transport chain) (increase of 17%) and by the higher Fv/Fm (increase of 14%) and quantum yield of photosystem II (increase of 20% with Ce and La, and 29% with REE Mix), as well as by increased stomatal conductance (increase of 36%) and SPAD index (increase of 10% with Ce, 12% with La, and 15% with REE mix). Moreover, adding REEs potentiated the photosynthetic process by increasing rice leaves’ N, Mg, K, and Mn concentrations (24–46%). The dose for the higher rice grain yield (an increase of 113%) was estimated for the REE mix at 0.72 kg ha−1.
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