浮游植物物种的光学可分辨性及其对高光谱遥感分辨潜力的影响

IF 2.1 4区 地球科学 Q2 MARINE & FRESHWATER BIOLOGY Journal of Sea Research Pub Date : 2024-09-06 DOI:10.1016/j.seares.2024.102540
Yuan Zhang , Fang Shen , Haiyang Zhao , Xuerong Sun , Qing Zhu , Mengyu Li
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引用次数: 0

摘要

不同类型的浮游植物在海洋生态系统、生物地球化学过程和气候变化响应中发挥着不同的作用。传统上,浮游植物分类主要依赖于基于浮游植物色素的化学分析方法,如高效液相色谱(HPLC)分析。这种方法将分类分辨率限制在浮游植物门一级,很难将分类细化到属或种一级。随着美国国家航空航天局(NASA)将于 2024 年 2 月发射高光谱海洋卫星 PACE(浮游生物、气溶胶、云层、海洋生态系统任务),有可能根据光谱特征的差异对浮游植物进行更精细的分类。本研究在实验室中培养各种浮游植物物种,观察它们的光吸收特性(如单位浓度下的比吸收系数光谱),研究不同门类之间以及甲藻和硅藻中不同物种之间的光谱差异。根据观测到的各浮游植物物种的吸收和散射特性,我们模拟了不同物种在不同海洋颜色成分下的遥感反射率,考察了高光谱遥感分辨浮游植物类型的潜力,并分析了叶绿素 a(Chla)、有色溶解有机物(CDOM)和非藻类颗粒(NAP)浓度对遥感分辨的影响。结果显示,不同浮游植物群(即硅藻、甲藻、黄绿藻、球藻、叶绿藻、蓝藻、隐藻)之间的吸收光谱存在明显差异。Dinoflagellate 组中的物种在光谱上也有显著差异,而 Diatom 组中的物种在光谱形状上的差异相对较小。随着 Chla 浓度的增加,遥感分辨浮游植物物种的潜力也在增加;反之,Chla 浓度越低,遥感分辨的挑战就越大。其他海洋颜色成分,如 CDOM 或 NAP 浓度的增加,会干扰浮游植物在蓝绿光谱域的光谱特性。利用分层聚类对浮游植物进行分类,结果表明,在 NAP 浓度较低的情况下,蓝藻和叶绿藻可以很好地与其他类群区分开来,而硅藻、隐藻和黄藻则不易区分。利用遥感数据区分同类中的物种是一项重大挑战。本研究对不同浮游植物类型的光学特征进行了全面调查,为其遥感分类奠定了基础,并加深了人们对高光谱遥感在浮游植物详细分类方面潜力的认识。
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Optical distinguishability of phytoplankton species and its implications for hyperspectral remote sensing discrimination potential

Different phytoplankton types play distinct roles in marine ecosystems, biogeochemical processes, and responses to climate change. Traditionally, phytoplankton classification has heavily relied on chemical analysis methods based on phytoplankton pigments, such as High-Performance Liquid Chromatography (HPLC) analysis. This approach limits the classification resolution to the phylum level of phytoplankton, making it difficult to refine classification to the genus or species level. With the observation of the hyperspectral ocean satellite PACE (Plankton, Aerosol, Cloud, ocean Ecosystem mission) louched by NASA in February 2024, there is potential to achieve finer classification of phytoplankton based on differences in spectral characteristics. This study cultivates various phytoplankton species in the laboratory to observe their light absorption properties (e.g., specific absorption coefficients spectra under unit concentration), investigating the spectral differences between different phyla and among species within the Dinoflagellates and Diatoms. Based on the observed absorption and scattering properties of each phytoplankton species, we simulated the remote sensing reflectance of different species under various ocean color components, examining the potential of hyperspectral remote sensing discrimination of phytoplankton types, and analyzing the impact of Chlorophyll a (Chla), colored dissolved organic matter (CDOM), and non-algal particles (NAP) concentrations on the remote sensing discrimination. The results show significant differences in absorption spectra between different groups of phytoplankton (i.e., Diatoms, Dinoflagellates, Xanthophytes, Coccolithophores, Chlorophytes, Cyanobacteria, Cryptophytes). Among species within the Dinoflagellate group, there are also significant spectral differences, while species within the Diatom group exhibit relatively small variations in their spectral shapes. As Chla concentration increases, the potential for remote sensing discrimination of phytoplankton species also increases; conversely, lower Chla concentrations pose greater challenges for remote sensing disscrimiantion. Other ocean color components, such as increased CDOM or NAP concentrations, interfere with the spectral characteristics of phytoplankton in the blue-green spectral domain. Using hierarchical clustering for phytoplankton classification, the results indicate that Cyanobacteria and Chlorophytes can be well distinguished from other group at lower NAP concentrations, while Diatoms, Cryptophytes, and Xanthophytes are not easily distinguishable from each other. Differentiating between species within the same group using remote sensing data presents significant challenges. This study provides a comprehensive investigation into the optical characteristics of different phytoplankton types, laying a foundation for their remote sensing classification and deepening the understanding of the potential of hyperspectral remote sensing for detailed phytoplankton classification.

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来源期刊
Journal of Sea Research
Journal of Sea Research 地学-海洋学
CiteScore
3.20
自引率
5.00%
发文量
86
审稿时长
6-12 weeks
期刊介绍: The Journal of Sea Research is an international and multidisciplinary periodical on marine research, with an emphasis on the functioning of marine ecosystems in coastal and shelf seas, including intertidal, estuarine and brackish environments. As several subdisciplines add to this aim, manuscripts are welcome from the fields of marine biology, marine chemistry, marine sedimentology and physical oceanography, provided they add to the understanding of ecosystem processes.
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