Laser-induced breakdown spectroscopy applied to cattle compost for phosphorus quantification

IF 1.2 Q4 ENVIRONMENTAL SCIENCES

International Journal Of Recycling of Organic Waste in Agriculture Pub Date : 2021-10-09 DOI:10.30486/IJROWA.2021.1917918.1178

A. Lencina, Gustavo Romagnoli, Andrea Alonso, N. Ramos, C. D'Angelo, Lina Lett, S. Mestelan

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Abstract

Purpose Agronomic and environmental reasons force farmers to know the total P concentration of composted cattle manure. Laser-Induced Breakdown Spectroscopy seems proper to obtain such information. For logistic reasons (carriage, storage, field application, etc.), a dry matter characterization is also needed.Method Thirty samples of feedlot compost at different stages of stability and maturity were studied. Samples were dried at 50°C for dry matter characterization. As a reference method to determine total P concentration, wet digestion and colorimetry were employed. The area of the P I line emission obtained by laser-induced ablation of the samples was measured to estimate the total P concentration. Randomized calibrations through a modified version of the Kennard-Stone algorithm based on the Mahalanobis distance were performed.Results Dry matter varied from 40% to 90%, and no pattern was found related to compost origin, maturity, or stability. The total P concentration of the studied compost ranged from 1800 ppm up to 11200 ppm. Almost 80% of the calibration fittings have an R2 ≥ 0.895. The mean validation error was less than 22% for about 80% of the calibrations, with a mean prediction error bound to 40%. Discarding outliers, the errors were reduced to 19% and 30%, respectively.Conclusion Water content must be considered in addition to other characterizations due to logistic implications. Calibrations with a 30 percent of prediction error were achieved, which seems enough as a first approximation to predict the total P content in compost for utilization in farms to recycle nutrients.

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激光诱导击穿光谱法测定牛堆肥中磷含量

目的农艺和环境因素迫使农民了解堆肥牛粪的总磷浓度。激光诱导击穿光谱学似乎是获得这类信息的合适方法。出于物流原因(运输、储存、现场应用等)，还需要干物质表征。方法对30份不同稳定性和成熟期的饲养场堆肥样品进行研究。样品在50°C下干燥以进行干物质表征。采用湿消解法和比色法测定总磷浓度。通过测量激光诱导烧蚀样品得到的P - I线发射面积来估计总P浓度。通过基于马氏距离的Kennard-Stone算法的改进版本进行随机校准。结果干物质在40% ~ 90%之间变化，与堆肥来源、成熟度和稳定性没有关系。所研究的堆肥的总磷浓度从1800 ppm到11200 ppm不等。几乎80%的校准配件的R2≥0.895。约80%的校准平均验证误差小于22%，平均预测误差约为40%。剔除异常值后，误差分别降至19%和30%。结论:由于逻辑关系，除了其他特征外，还必须考虑水分含量。预测误差达到30%的校准，这似乎足以作为预测堆肥中总磷含量的第一个近似值，以供农场利用以回收养分。

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来源期刊

International Journal Of Recycling of Organic Waste in Agriculture ENVIRONMENTAL SCIENCES-

CiteScore

2.10

自引率

26.70%

发文量

审稿时长

13 weeks

期刊介绍： The International Journal of Recycling of Organic Waste in Agriculture is an open access journal that publishes high-quality solicited and unsolicited articles, in all areas of Recycling of organic waste including: -Solid waste reuse in agriculture -Waste water reuse in agriculture -Utilization of organic wastes: composting -Ways to reduce, reuse and recycle organic waste -Social and economic impact of reduction, reuse and recycling of organic waste in agriculture -Methods to raise the public awareness of recycling and reuse of organic waste in agriculture -Organic waste utilization in animal and poultry nutrition -Urban food waste composting