Schwartz R C, Dao T H
USDA-ARS, Conservation and Production Research Laboratory, Bushland, TX 79012-0010, USA.
J Environ Qual. 2005 Apr 20;34(3):970-8. doi: 10.2134/jeq2004.0317. Print 2005 May-Jun.
Managing fertilizer applications to maintain soil P below environmentally unacceptable levels should consider the contribution of manure and synthetic fertilizer sources to soluble and extractable forms of P. Our objective was to evaluate soil and manure characteristics and application rates on P extractability in recently amended soils. Five soils of the U.S. southern High Plains were amended with beef cattle manures, composted beef manure, and inorganic fertilizers [Ca(H(2)PO(4))(2) or KH(2)PO(4)] at five rates and incubated under controlled conditions. Mehlich 3-, Olsen (NaHCO(3))-, Texas A&M extractant (TAM)-, and water-extractable P were determined for the soils after selected incubation periods. Except for TAM and some water extractions, P extractability as a function of total P applied was linear (P < 0.001) for a wide range of application rates. Mehlich-3, NaHCO(3), and water P extraction efficiencies of KH(2)PO(4)-amended soils averaged 22, 34, and 115% greater (P < or = 0.036), respectively, than efficiencies of soils amended with manures except for the Texline (calcareous) loam and Pullman clay loam soils. Phosphorus extraction efficiencies decreased with time for KH(2)PO(4)-amended soils (P < 0.05) but remained stable or increased for manure-amended soils during the 8-wk incubation period. Across all soils and manure sources, changes in water-extractable P per unit increase in Mehlich 3-, NaHCO(3)-, and TAM-extractable P averaged 100, 85, and 125% greater, respectively, for inorganic as compared with manure-amended soils. These source-dependent relationships limit the use of agronomic soil extractants to make correct inferences about water-extractable P and dissolved P in runoff.
管理肥料施用,以保持土壤磷含量低于环境不可接受的水平,应考虑粪肥和合成肥料来源对磷的可溶态和可提取态的贡献。我们的目标是评估土壤和粪肥特性以及施用量对近期改良土壤中磷可提取性的影响。在美国南部高平原的五种土壤中,分别以五种施用量添加肉牛粪便、堆肥牛粪和无机肥料[Ca(H₂PO₄)₂或KH₂PO₄],并在受控条件下进行培养。在选定的培养期后,测定土壤中Mehlich 3、Olsen(NaHCO₃)、德克萨斯A&M提取剂(TAM)和水可提取磷。除TAM和一些水提取外,在广泛的施用量范围内,磷可提取性与总施磷量呈线性关系(P < 0.001)。与除特克斯林(石灰质)壤土和普尔曼粘壤土以外的用粪肥改良的土壤效率相比,KH₂PO₄改良土壤的Mehlich - 3、NaHCO₃和水磷提取效率平均分别高出22%、34%和115%(P ≤ 0.036)。KH₂PO₄改良土壤的磷提取效率随时间下降(P < 0.05),但在8周培养期内,粪肥改良土壤的磷提取效率保持稳定或增加。在所有土壤和粪肥来源中,与粪肥改良土壤相比,无机肥料改良土壤中,每增加单位Mehlich 3、NaHCO₃和TAM可提取磷时,水可提取磷的变化平均分别高出100%、85%和125%。这些源依赖关系限制了使用农艺土壤提取剂来正确推断径流中的水可提取磷和溶解磷。