M.O.T. de Ávila , S.G. Moreira , F.R.D. Lima , G.V. Pimentel , J.R. Macedo , M.R. Nunes , L.B.W. Gomes , E.G. Morais
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引用次数: 0
Abstract
The increasing the efficiency of phosphate and micronutrient fertilization in tropical soils should be better studied to close crop yield gaps. The aim of this study was to evaluate the effect of a soluble P source with or without humic acids (HA) and micronutrients (M) on P-availability and maize and soybean yield in Minas Gerais State, Brazil. The crops were grown under a rainfed and no-till cropping system, with maize grown in the 2016/2017 rainy summer season, wheat grown as a cover crop in the 2017 winter season, and soybean grown in the 2017/2018 crop year. The field trial was organized in a 4 × 2 factorial arrangement [4 sources of P in combination with 2 forms of M supply]. The coated monoammonium phosphate (MAP) P source was supplied in three ways: 1) MAP, 2) MAP + HA, and 3) MAP + HA + M (B, Cu, Mn, and Zn), plus a control for P (no P). The micronutrient supply was 1) Mn + Zn + Cu + B (MZCB) and 2) control for MZCB (no M supply). Coating MAP with HA increased soil P availability but did not increase P content within the soybean leaves. The multivariate approach also showed that soybean yield can increase in response to coating MAP with HA. The study showed that MAP + HA increased soil P content. However, this increase was diminished when micronutrients were included in the same granule (MAP + HA + M). However, P sources raised P in soybean leaves equally compared to control for P. Soybean yield was unaffected by the P source, likely due to adequate leaf P concentrations across all treatments. However, soybean yield generally increased with micronutrient supply. For maize, yields were unaffected by supplying micronutrients with the P source. Conversely, maize yields typically decreased with micronutrient supply, except when using the MAP + HA + M combination granule.
应更好地研究如何提高热带土壤中磷肥和微量元素的施肥效率,以缩小作物产量差距。本研究旨在评估在巴西米纳斯吉拉斯州使用含或不含腐植酸(HA)和微量营养元素(M)的可溶性磷源对磷的利用率以及玉米和大豆产量的影响。作物在雨水灌溉和免耕耕作制度下种植,玉米在2016/2017年夏季雨季种植,小麦作为覆盖作物在2017年冬季种植,大豆在2017/2018作物年度种植。田间试验采用 4 × 2 因式排列[4 种 P 来源与 2 种 M 供应形式相结合]。涂布磷酸一铵(MAP)P源以三种方式供应:1)MAP,2)MAP + HA,3)MAP + HA + M(硼、铜、锰和锌),外加 P 的对照(无 P)。微量营养元素供应为:1)锰+锌+铜+硼(MZCB);2)MZCB 对照组(无 M 供应)。在 MAP 上涂抹 HA 增加了土壤中 P 的可用性,但并没有增加大豆叶片中的 P 含量。多变量方法还表明,大豆产量会随着在 MAP 上涂抹 HA 而增加。研究表明,MAP + HA 增加了土壤中的 P 含量。但是,如果在同一颗粒中加入微量营养元素(MAP + HA + M),这种增加就会减弱。大豆产量不受钾源的影响,这可能是由于所有处理的叶片钾浓度都足够。然而,大豆产量一般随微量营养元素的供应而增加。玉米的产量不受钾源微量营养元素供应的影响。相反,玉米产量通常会随着微量营养元素的供应而减少,使用 MAP + HA + M 组合颗粒剂时除外。