Assessing the Residual from Fertilizer Nitrogen Applied to Failed Corn on the Following Wheat Crop

Crop Management Pub Date : 2014-04-01 DOI:10.2134/CM-2014-0005-BR

D. Sweeney, D. R. Diaz

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引用次数: 1

Abstract

In much of the Midwest in 2012, extreme hot and dry conditions reduced crop yields, especially corn (Zea mays L.) (USDA-NAAS, 2013). Drought-induced, low-yielding conditions likely resulted in low nitrogen uptake by the crops and the potential for unused fertilizer N left in the soil. However, the potential carryover of unused N fertilizer is uncertain because of the dynamics of N cycling. In 2012, a study was initiated to determine the effect of N rates and nitrification inhibitors on no-till short-season corn. The study was conducted at the Kansas State University Southeast Agricultural Research Center on a Parsons silt loam, a typical claypan soil of the area. The experimental design was a split-plot arrangement of a randomized complete block with four replications with N rates as the whole plots and nitrification inhibitors as the subplots, plus an untreated control. All N was subsurface banded (knifed) as urea-ammonium nitrate (28% N) at a 4-inch depth on 10 Apr. 2012 at rates of 60, 120, 180, and 240 lb/acre. In addition, the knife blades without fertilizer were passed through the no-N control plots. The nitrification inhibitors were (i) none, (ii) Instinct at 35 oz/acre, (iii) Koch experimental at 128 oz/acre, and (iv) Koch experimental at 256 oz/acre. Partially because of replanting in early May, corn growth before silking and during much of the reproductive growth fell in a period from 22 June to 4 Aug. 2012 with total rainfall of 0.75 inches and average maximum air temperature of 99.4°F which is less than 20% of the rain and approximately 10°F hotter than the 30-year average. These conditions resulted in corn yields less than 27 bu/acre with no response to nitrification inhibitors and a slight decline in yields as N rate increased (data not shown). A typical rotation of the area is to follow corn with winter wheat (Triticum aestivum L.). Since the 2012 experiment would not be repeated, the corn crop was followed with a hard red winter wheat cultivar, ‘Everest’ drilled on 12 Oct. 2012 with no added fertilizer and no tillage. To study the residual effect of the N treatments, the same plots with the same experimental Published in Crop Management DOI 10.2134/CM-2014-0005-BR © 2014 American Society of Agronomy and Crop Science Society of America 5585 Guilford Rd., Madison, WI 53711

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评估玉米欠收肥氮对后续小麦作物的残留量

2012年，在中西部大部分地区，极端炎热和干燥的条件降低了作物产量，尤其是玉米(Zea mays L.) (USDA-NAAS, 2013)。干旱诱导的低产条件可能导致作物对氮的吸收较低，并可能导致未使用的氮肥留在土壤中。然而，由于氮循环的动态，未使用氮肥的潜在携带量是不确定的。2012年开始研究施氮量和硝化抑制剂对免耕短季玉米的影响。这项研究是在堪萨斯州立大学东南农业研究中心进行的，研究对象是帕森斯淤泥壤土，这是该地区典型的粘土土。实验设计为随机完整区，分为4个重复，以N率为整区，硝化抑制剂为亚区，外加一个未经处理的对照。2012年4月10日，所有氮以尿素-硝酸铵(28%氮)的形式在4英寸深度下以60、120、180和240磅/英亩的速率带状(刀状)施用。另外，不施肥的叶片通过无氮对照区。硝化抑制剂为(i)无，(ii)本能35盎司/英亩，(iii)科赫实验128盎司/英亩，(iv)科赫实验256盎司/英亩。在2012年6月22日至8月4日期间，玉米在出丝前和大部分生殖生长期间的生长速度下降，部分原因是在5月初重新种植，总降雨量为0.75英寸，平均最高气温为99.4华氏度，低于降雨量的20%，比30年平均气温高约10华氏度。这些条件导致玉米产量低于27磅/英亩，对硝化抑制剂没有反应，并且随着施氮量的增加，产量略有下降(数据未显示)。该地区典型的轮作是玉米后种冬小麦(Triticum aestivum L.)由于2012年的试验不会重复，在玉米作物之后，又种植了一种坚硬的红色冬小麦品种“Everest”，该品种于2012年10月12日播种，没有添加肥料，也没有耕作。为了研究氮素处理的残留效应，采用相同试验的相同地块。《作物管理》DOI 10.2134/CM-2014-0005-BR©2014美国农学与作物科学学会美国吉尔福德路5585号，麦迪逊，威斯康星州53711

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Crop Management

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