用可循环利用的奶制品废弃物养分改良的土壤中磷的可用性和种类

IF 2.5 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Frontiers in chemical engineering Pub Date : 2024-01-23 DOI:10.3389/fceng.2023.1303357
Maggi Laan, D. Strawn, Z. Kayler, B. Cade‐Menun, Gregory Möller
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引用次数: 0

摘要

在土壤中过量施用奶牛粪便以提供植物养分,会导致异地养分迁移增加和水质恶化。然而,通过将奶制品废弃物中的养分集中到生物炭或生物固体上,可以生产出一种可行的替代肥料,有利于土壤健康,促进碳固存,并减少养分向地表水的沥滤。在这项研究中,我们进行了一项温室实验,以评估经奶牛废弃物处理的生物炭和发酵粪肥改良土壤中的土壤磷(P)种类和大麦植物生长情况。利用选择性萃取、31P-NMR 和 XANES 光谱以及同位素追踪(P-δ18O)确定了收获后土壤中磷的特征。选择性萃取和核磁共振光谱显示,改良土壤中的大部分钾都是无机物(>85%)。XANES 光谱进一步显示,土壤中的钾是以钙钾矿物(54%-87%)或吸附钾(0%-46%)的形式存在的。通过对水和碳酸氢钠提取物中的 P-δ18O 进行分析表明,水提取的 P 池的循环速度比碳酸氢钠提取的 P 快得多。虽然水提取的 P 不到乳制品衍生生物产品中总 P 的 10%,但使用这些添加剂处理过的土壤中的植物生产力与使用等量传统氮肥和磷肥处理过的土壤中的植物生产力相同。这表明,奶制品生物制品是良好的土壤改良剂,可提供养分并限制沥滤。
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Phosphorus availability and speciation in soils amended with upcycled dairy-waste nutrients
The excessive application of dairy manure to soils to supply plant nutrients can result in increased offsite nutrient transport and degraded water quality. However, by concentrating nutrients from dairy-waste onto biochar or as biosolids, a viable alternative fertilizer can be produced that will benefit soil health, promote carbon sequestration, and decrease nutrient leaching into surface waters. In this study, a greenhouse experiment was conducted to assess soil phosphorus (P) speciation and barley plant growth in soils amended with dairy-waste treated biochar and fermented manure. Phosphorus characterization in the post-harvest soils was determined using selective extractions, 31P-NMR and XANES spectroscopy, and isotopic tracing (P-δ18O). Selective extractions and NMR spectroscopy revealed that most of the P in the amended soils occurred as inorganic species (>85%). XANES spectroscopy further showed that the soil P occurred as either calcium-P minerals (54%–87%) or adsorbed P (0%–46%) species. Analysis by P-δ18O in water and sodium bicarbonate extractions of the treated soils showed that the water-extracted P pool is cycled much faster than the sodium bicarbonate extracted P. Although less than 10% of the total P in the dairy-derived bioproducts was extracted using water, plant productivity in the soils treated with these amendments was the same as that in soils treated with equivalent amounts of conventional nitrogen and P fertilizer. This suggests that dairy-derived bioproducts are good soil amendments to supply nutrients and limit leaching.
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