Evaluation of synthetic hydroxyapatite as a potential phosphorus fertilizer for application in Forest plantations

IF 1.8 Q2 FORESTRY
J. Hackman, T. Ozyhar, S. Chien, F. Hilty, A. Woodley, R. Cook
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Abstract

Abstract Synthetic hydroxyapatite (HA) was compared against triple superphosphate (TSP) and two unprocessed phosphate rocks (PR1, PR2) to (1) quantify and assess a synthetic lamellar structured-HA for its solubility and diffusiveness under acidic, sandy, soil conditions, (2) Evaluate synthetic lamellar structured-HA as a phosphorus early rotation fertilizer for Eucalyptus saplings. Soil incubation experiments verified that HA released more diffusive phosphorus into the soil than non-synthetic phosphate rock and had similar amounts of diffusive phosphorus as TSP. The solubility of HA at pH 3 and pH 6 was higher than that of raw ground phosphate rocks (apatites). Total dry-matter yield (DMY) and shoot-length of Eucalyptus seedlings grown for 154 days in acid soil (pH 4.9) were increased significantly by the application of HA compared to the control, PR2, and mixed (HA + PR2). The lack of a DMY response using TSP indicates that phosphorus may not have been the limiting factor. However, considering TSP and HA had similar solubilities and released diffusive phosphorus at similar levels, the only variable we failed to control for was the CaCO3 provided by the HA and not the TSP. Further experimentation is needed to confirm this hypothesis. Overall, HA is a promising candidate to supplement traditional phosphorus fertilizers for acidic sandy Eucalyptus silviculture.
合成羟基磷灰石作为潜在磷肥在人工林中的应用评价
摘要将合成羟基磷灰石(HA)与三元过磷酸钙(TSP)和两种未经处理的磷灰石(PR1, PR2)进行比较,以(1)量化和评价合成片层结构HA在酸性、沙质、土壤条件下的溶解度和扩散性;(2)评价合成片层结构HA作为桉树幼树磷素早期轮作肥料的效果。土壤培养实验证实,HA比非合成磷矿向土壤中释放更多的弥散磷,其弥散磷含量与TSP相近。羟基磷灰石在pH 3和pH 6下的溶解度高于原矿磷灰石。在pH为4.9的酸性土壤中,施用HA显著提高了桉树幼苗的总干物质产量(DMY)和枝长,显著高于对照、PR2和混合(HA + PR2)。使用TSP缺乏DMY反应表明磷可能不是限制因素。然而,考虑到TSP和HA具有相似的溶解度,并以相似的水平释放弥漫性磷,我们唯一未能控制的变量是HA提供的CaCO3,而不是TSP。需要进一步的实验来证实这一假设。综上所述,在酸性砂质桉树造林中,透明质酸是传统磷肥的理想补充。
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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来源期刊
CiteScore
3.30
自引率
5.30%
发文量
0
审稿时长
21 weeks
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