北方湖泊水体光谱吸收指标的变异性。

Journal of Environmental Monitoring Pub Date : 2012-10-26 Epub Date: 2012-08-13 DOI:10.1039/c2em30266g
Martin Erlandsson, Martyn N Futter, Dolly N Kothawala, Stephan J Köhler
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引用次数: 41

摘要

紫外/可见(UV/Vis)吸收光谱是一种常用的表征溶解有机物(DOM)的技术。我们对2009年秋季瑞典983个湖泊的紫外/可见吸收光谱进行了分析。指标包括特定吸光度(即每质量单位有机碳的吸光度)和光谱形状的描述。总的来说,我们发现三个因素与所有光谱指标相似:酸度、保留时间和纬度。总的来说,瑞典北部停留时间较长的碱性湖泊比瑞典南部停留时间较短的酸性湖泊的比吸光度更低,光谱斜率更陡。相对于通常用于测量DOM芳香性的254 nm的比吸光度(SUVA),较长波长的比吸光度和光谱形状指标对酸度更敏感,对纬度不太敏感。虽然假设不同的光谱指标可以反映DOM的不同性质,但由于指标之间的强相关性,UV/Vis吸收光谱可能无法用于更精细的有机物表征。尽管如此,它仍然是一种快速、廉价和可靠的估算DOM数量和描述质量的方法。我们认为,测量吸光度的信息最丰富的范围是在大约250到360 nm之间,在这个范围内,湖间变率最大,吸光度通常可以精确测量。
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Variability in spectral absorbance metrics across boreal lake waters.

Ultraviolet/visible (UV/Vis) absorbance spectroscopy is a commonly used technique for characterizing dissolved organic matter (DOM). We present an analysis of UV/Vis absorbance spectra from 983 lakes throughout Sweden, sampled during autumn 2009. Metrics included both specific absorbances (i.e. absorbance per mass unit of organic carbon), and descriptions of spectral shape. Overall, we found three factors to which all spectral metrics were similarly related: acidity, retention-time, and latitude. In general, alkaline lakes with a long retention time in northern Sweden have lower specific absorbance and steeper spectral slope than acidic lakes with a short retention time in southern Sweden. Relative to the specific absorbance measured at 254 nm (SUVA), commonly used as a measure of DOM aromaticity, the specific absorbance at longer wavelengths and metrics of spectral shape were more sensitive to acidity and less sensitive to latitude. Although different spectral metrics are hypothesized to reflect different properties of DOM, UV/Vis absorbance spectroscopy may not be useful for more refined characterization of organic matter because of the strong inter-correlation between metrics. Nevertheless, it remains useful as a quick, cheap and reliable method of estimating DOM quantity and describing quality. We suggest that the most informative range to measure absorbance is between approximately 250 and 360 nm, where the between-lake variability is largest and absorbance can, in general, be precisely measured.

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来源期刊
Journal of Environmental Monitoring
Journal of Environmental Monitoring 环境科学-分析化学
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