Predicting Soil Nitrogen Availability for Maize Production in Brazil

Nitrogen Pub Date : 2022-10-10 DOI:10.3390/nitrogen3040036

L. B. Braos, Roberta Souto Carlos, Fernando Kuhnen, Manoel Evaristo Ferreira, R. Mulvaney, S. Khan, M. C. P. Cruz

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引用次数: 4

Abstract

Maize (Zea mays L.) is a crop widely cultivated in the state of São Paulo, and the sustainable management of nitrogen (N) nutrition is crucial to improving productivity and the environment, which calls for a reliable means of predicting potentially available soil N. A study was undertaken to evaluate and compare biological and chemical indices of potential N availability for a diverse set of 17 soils collected in the northwest region of São Paulo state. For this purpose, mineralization assays were performed at three distinct temperatures, and chemical assessments were carried out using the Illinois Soil Nitrogen Test (ISNT) and by fractionation of hydrolysable soil N. In addition, a greenhouse experiment was conducted to determine dry matter and N accumulation in the aboveground parts of maize plants. Potentially available N estimated by the incubation methods increased with increasing temperature and was strongly correlated with N uptake (r = 0.90). Hydrolysable N fractions varied widely among the soils studied and were more variable for amino sugar N than for other fractions. Potentially available N estimated by the ISNT was highly correlated with hydrolysable amino acid N and amino sugar N (r = 0.95–0.96) and also with plant dry matter accumulation (r = 0.82) and N uptake (r = 0.93). The ISNT has potential to improve fertilizer N recommendations for maize production in Brazil, provided that the test values are interpreted relative to an appropriate calibration database, planting density, and other factors affecting crop N requirement.

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巴西玉米生产土壤氮素有效性预测

玉米(Zea mays L.)是圣保罗州广泛种植的作物，氮营养的可持续管理对提高生产力和改善环境至关重要，这就需要一种可靠的预测土壤潜在有效氮的方法。本研究对圣保罗州西北地区收集的17种不同土壤的潜在有效氮的生物和化学指标进行了评估和比较。为此，在3种不同温度下进行了矿化试验，并利用伊利诺伊州土壤氮素试验和水解土壤氮分馏进行了化学评价。此外，还进行了温室试验，以测定玉米植株地上部分的干物质和氮积累。利用培养法估算的潜在有效氮随温度升高而增加，并与氮吸收量密切相关(r = 0.90)。不同土壤的可水解氮组分差异很大，氨基糖氮比其他组分变化更大。潜在有效氮与水解氨基酸N和氨基糖N高度相关(r = 0.95 ~ 0.96)，也与植物干物质积累(r = 0.82)和氮吸收(r = 0.93)密切相关。如果根据适当的校准数据库、种植密度和其他影响作物氮需求的因素来解释测试值，那么该系统有可能改善巴西玉米生产的氮肥建议。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Nitrogen

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