Spatial Variability in Inorganic Soil Nitrogen Production in a Mixed-Vegetation Urban Landscape

Nitrogen Pub Date : 2022-03-11 DOI:10.3390/nitrogen3010009

Juma Bukomba, M. Lusk

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引用次数: 1

Abstract

Urban landscapes are not homogeneous, and small-scale variations in plant community or management inputs can give rise to a large range of environmental conditions. In this paper, we investigated the small-scale variability of soil nitrogen (N) properties in a single urban landscape that has distinctly different patches or types of cover. We specifically measured soil net N mineralization, nitrification, and exchangeable forms of inorganic N for patches with traditional turfgrass versus patches with common turfgrass alternatives such as ornamental grasses, groundcovers, and mulches. All soil N properties were variable among landscape patches, showing that soil N processing can vary on scales of a few meters. Notably, both mineralization and nitrification were the highest in a patch covered with perennial peanut, but exchangeable nitrate (NO3−) was low for the same soil, indicating that soils under perennial peanut may be producing high levels of inorganic N but that the produced N does not stay in the soil, possibly leaching to underlying groundwater. We recommend future studies on the mechanisms that drive the variable N properties seen under distinct urban landscape patches, with special emphasis on potential patterns in N losses for mixed-vegetation landscapes.

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混合植被城市景观中无机土壤氮素生产的空间变异

城市景观不是同质的，植物群落或管理投入的小规模变化可能导致大范围的环境条件。本文研究了具有明显不同斑块或覆盖类型的单一城市景观中土壤氮(N)特性的小尺度变异。我们专门测量了土壤净氮矿化、硝化作用和无机氮的交换形式，分别用于种植传统草坪草和种植普通草坪草(如观赏草、地被植物和覆盖物)的斑块。各景观斑块间土壤氮素性质均存在差异，表明土壤氮素加工在几米尺度上存在差异。值得注意的是，矿化和硝化作用在多年生花生覆盖的土壤中最高，但交换态硝酸盐(NO3−)在同一土壤中较低，这表明多年生花生覆盖的土壤可能产生高水平的无机氮，但所产生的氮不会留在土壤中，可能会淋溶到下伏地下水中。我们建议未来研究不同城市景观斑块中驱动不同N属性的机制，特别强调混合植被景观中N损失的潜在模式。

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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