Soybean response to nitrogen fertilizer in different soils

IF 0.8 Q3 AGRONOMY
Joshua Vonk, Emerson Nafziger, Giovani Preza Fontes
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Abstract

Although yield responses of soybeans [Glycine max (L.) Merrill] to nitrogen (N) fertilizer are rare, occasional yield increases, especially in high-yielding soybeans, have encouraged some producers to apply N. We conducted nine field experiments between 2014 and 2017 over a range of soil types and environments to evaluate soybean yield response to N (as urea) applied at planting, R1, R3, R5, and at all four timings. Our results showed that a single N application at R1 did not increase soybean yield in any location, while applying N at R3 or R5 increased grain yield in only one of nine locations. At a location with irrigated loam soils, N at planting increased grain yield by 22.4 bu ac−1 (35%) in 2015 and 19.7 bu ac−1 (38%) in 2016 but did not affect yield in 2017. Applying N four times did not increase yield more than the application at planting at this location in 2015 and 2016, but it increased yield in 2017. Four applications of N increased yield in three of the other six locations by an average of 5.0 bu ac−1 (6%). Applying N four times or at R5 increased soil inorganic N at R6 at five of nine locations but did not consistently increase yield. Grain yield was positively correlated to Normalized Difference Vegetation Index (NDVI) taken at stage R6 at seven of the nine locations. Except for the yield increases from planting-time N at two locations, yield responses were insufficient to cover the cost of fertilizer N. While in-season application of fertilizer N to soybeans in productive Corn Belt soils in the United States is unlikely to be consistently profitable, N at planting that stimulates early growth and N uptake, especially in lighter-textured soils, may sometimes increase yield substantially.

Abstract Image

不同土壤中大豆对氮肥的反应
尽管大豆[Glycine max (L.) Merrill]对氮肥的产量反应很少见,但偶尔的增产,尤其是高产大豆的增产,鼓励了一些生产者施用氮肥。2014 年至 2017 年间,我们在一系列土壤类型和环境中进行了九次田间试验,以评估大豆对在播种、R1、R3、R5 和所有四个时间点施用氮肥(作为尿素)的产量反应。我们的结果表明,在任何地点,在 R1 施用一次氮肥都不会提高大豆产量,而在 R3 或 R5 施用氮肥时,九个地点中只有一个地点的谷物产量有所提高。在一个拥有灌溉壤土的地点,2015 年种植时施氮可使谷物产量增加 22.4 bu ac-1(35%),2016 年增加 19.7 bu ac-1(38%),但对 2017 年的产量没有影响。在该地,2015 年和 2016 年施用四次氮并不比播种时施用氮增产更多,但在 2017 年却增产了。在其他六个地点中的三个地点,施用四次氮肥平均增产 5.0 bu ac-1 (6%)。在 9 个地点中,有 5 个地点施用 4 次氮肥或在 R5 时施用氮肥可增加 R6 时的土壤无机氮,但并未持续增产。九个地点中有七个地点的谷物产量与 R6 阶段的归一化植被指数(NDVI)呈正相关。虽然在美国高产的玉米带土壤中,在大豆生长季节施用氮肥不太可能持续盈利,但在播种时施用氮肥可刺激大豆的早期生长和对氮的吸收,尤其是在质地较轻的土壤中,有时可能会大幅提高产量。
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来源期刊
Crop, Forage and Turfgrass Management
Crop, Forage and Turfgrass Management Agricultural and Biological Sciences-Agronomy and Crop Science
CiteScore
1.30
自引率
16.70%
发文量
49
期刊介绍: Crop, Forage & Turfgrass Management is a peer-reviewed, international, electronic journal covering all aspects of applied crop, forage and grazinglands, and turfgrass management. The journal serves the professions related to the management of crops, forages and grazinglands, and turfgrass by publishing research, briefs, reviews, perspectives, and diagnostic and management guides that are beneficial to researchers, practitioners, educators, and industry representatives.
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