In situ determination of soybean leaves nutritional status by portable X-ray fluorescence: An initial approach for data collection and predictive modelling

IF 4.4 1区 农林科学 Q1 AGRICULTURAL ENGINEERING
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Abstract

X-ray fluorescence (XRF) analyses are fast, clean, non-destructive, and compatible with on-field operations, which are some advantages over traditional determinations using coupled plasma optical emission spectroscopy (ICP-OES). The aim of this study was to advance in situ XRF approaches for assessing the nutritional status of soybean leaves (i.e., P, S, K, Ca, Mn, Fe, Cu and Zn). More specifically, we propose a protocol to ensure accuracy of in-field analysis and then evaluate the predictive performance of XRF via different data modelling strategies for macro- and micronutrient determination. Therefore, the XRF sensor dwell time of 60 s and the maximum time of 5 min were determined for the analysis of the leaves after leaf abscission, taking into account the influence of moisture loss on the signal intensity of the lighter elements. Regarding the predictive performance of XRF data for nutrients determination, multiple linear regression (MLR) models resulted in lower root mean square errors (RMSE) for P (433 mg kg−1), S (204 mg kg−1) and K (1957 mg kg−1); Partial least squares regression (PLS) for Ca (519 mg kg−1); and simple linear regression (SLR) for Mn (9 mg kg−1), Fe (18 mg kg−1), Zn (5 mg kg−1). The different modelling strategies exhibited equivalent RMSE for Cu (2 mg kg−1). These prediction errors are within a ±20% range, demonstrating that the in situ protocols developed in this research are useful for predicting the nutrients concentration in soybean leaves. Our study shows the possibility of using the in situ XRF sensor for the rapid and practical nutrients determination in soybean leaves, presenting good potential as a crop diagnosis tool.

利用便携式 X 射线荧光原位测定大豆叶片的营养状况:数据收集和预测建模的初步方法
X 射线荧光 (XRF) 分析具有快速、清洁、无损、与现场操作兼容等特点,与使用耦合等离子体光学发射光谱 (ICP-OES) 进行的传统测定相比具有一些优势。本研究旨在推进原位 XRF 方法,以评估大豆叶片的营养状况(即 P、S、K、Ca、Mn、Fe、Cu 和 Zn)。更具体地说,我们提出了一个确保田间分析准确性的方案,然后通过不同的数据建模策略来评估 XRF 在宏观和微观营养素测定方面的预测性能。因此,考虑到水分流失对轻元素信号强度的影响,我们确定了在叶片脱落后对叶片进行分析时 XRF 传感器的停留时间为 60 秒,最长时间为 5 分钟。关于 XRF 数据对养分测定的预测性能,多元线性回归(MLR)模型对 P(433 毫克/千克-1)、S(204 毫克/千克-1)和 K(1957 毫克/千克-1)的均方根误差(RMSE)较低;部分最小二乘回归(PLS)对 Ca(519 毫克/千克-1)的均方根误差较低;简单线性回归(SLR)对 Mn(9 毫克/千克-1)、Fe(18 毫克/千克-1)和 Zn(5 毫克/千克-1)的均方根误差较低。对于铜(2 毫克千克-1),不同的建模策略表现出相同的均方根误差。这些预测误差都在±20%的范围内,表明本研究开发的原位规程可用于预测大豆叶片中的养分浓度。我们的研究表明,原位 XRF 传感器可用于快速、实用地测定大豆叶片中的营养成分,具有作为作物诊断工具的良好潜力。
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来源期刊
Biosystems Engineering
Biosystems Engineering 农林科学-农业工程
CiteScore
10.60
自引率
7.80%
发文量
239
审稿时长
53 days
期刊介绍: Biosystems Engineering publishes research in engineering and the physical sciences that represent advances in understanding or modelling of the performance of biological systems for sustainable developments in land use and the environment, agriculture and amenity, bioproduction processes and the food chain. The subject matter of the journal reflects the wide range and interdisciplinary nature of research in engineering for biological systems.
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