Runoff-Water Properties from Various Soils as Affected by Struvite-Phosphorus Source and Water Type

Journal of Environmental Protection Pub Date : 2023-01-01 DOI:10.4236/jep.2023.1410045

Machaela Morrison, Kristofor R. Brye, Gerson Drescher, Jennie Popp, Lisa S. Wood

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Abstract

Struvite (MgNH4PO4?6H2O) can be produced from municipal wastewater and has been shown to be an alternative fertilizer-phosphorus (P) source for various crops, but little is known about the runoff-water-quality implications from soil-applied struvite. The objective of this study was to evaluate the effects of soil [Creldon (Oxyaquic Fragiudalfs), Dapue (Fluventic Hapludolls), Roxana (Typic Udifluvents), and Calloway (Aquic Fraglossudalfs) series], fertilizer-P source [synthetically produced electrochemically precipitated struvite (ECSTsyn), real-wastewater-derived ECST (ECSTreal), chemically precipitated struvite (CPST), and monoammonium phosphate (MAP)], and water source (rainwater, groundwater, and struvite-removed real wastewater) over time on runoff-water-quality parameters from laboratory-conducted, rainfall-runoff simulations. Mesh tea bags containing each soil-fertilizer treatment combination were rained on with each water source (Trial 1), incubated for 6 months, and rained on again (Trial 2) to evaluate runoff-water quality. Struvite fertilizers had similar runoff-water-quality properties to those from MAP. In Trial 1, runoff total P (TP) concentration differences (i.e., soil-fertilizer-water-type response minus control response minus blank response) from ECSTsyn or ECSTreal were 1 to 5 times larger than MAP and CPST for all water-soil-fertilizer-P source treatment combinations, except for the Creldon-groundwater and Roxana-wastewater combinations. In both trials, runoff TP decreased over time in all water-soil and soil-fertilizer-P source treatment combinations, except for the Roxana-CPST combination where TP increased over time by 46%. The similar water-quality responses from the struvite fertilizers among the various soils and water types compared to MAP suggest that struvite has similar runoff-water-quality implications as at least one widely used, commercially available fertilizer-P source.

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不同土壤径流-水性质受鸟粪磷来源和水类型的影响

鸟粪石(MgNH4PO4?6H2O)可以从城市污水中产生，并已被证明是多种作物的替代肥料-磷(P)来源，但对土壤施用鸟粪石对径流水质的影响知之甚少。本研究的目的是评价土壤[Creldon (Oxyaquic Fragiudalfs)、Dapue (Fluventic Hapludolls)、Roxana (Typic Udifluvents)和Calloway (Aquic Fraglossudalfs)系列]、肥料- p源[合成电化学沉淀鸟粪石(ECSTsyn)、实际废水衍生ECST (ECSTreal)、化学沉淀鸟粪石(CPST)和磷酸一铵(MAP)]和水源(雨水、地下水、在实验室进行的降雨径流模拟中，鸟粪石(去除真实废水)随着时间的推移对径流水质参数的影响。将含有每种土肥处理组合的网孔茶包与每种水源(试验1)进行降雨，孵育6个月后再进行降雨(试验2)，评价径流水质。鸟粪石肥料与MAP肥料具有相似的径流水质特性。在试验1中，除了creldon -地下水和roxna -废水组合外，所有水-土壤-肥料-水型处理组合的径流总磷(TP)浓度差异(即土壤-肥料-水型响应减去对照响应减去空白响应)都比MAP和CPST大1 ~ 5倍。在这两个试验中，所有的水-土壤和土壤-肥料-磷源处理组合的径流总磷都随着时间的推移而减少，除了罗珊娜- cpst组合的总磷随着时间的推移而增加46%。与MAP相比，鸟粪石肥料在不同土壤和水类型中的水质响应相似，这表明鸟粪石至少与一种广泛使用的、商业上可获得的肥料p源具有相似的径流水质影响。

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Journal of Environmental Protection

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