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In situ hyperspectral characteristics and the discriminative ability of remote sensing to coral species in the South China Sea
Zeng, K.; Xu, Z.; Yang, Y.; Liu, Y.; Zhao, H.; Zhang, Y.; Xie, B.; Zhou, W.; Li, C.; Cao, W. (2022). In situ hyperspectral characteristics and the discriminative ability of remote sensing to coral species in the South China Sea. Giscience & Remote Sensing 59(1): 272-294. https://dx.doi.org/10.1080/15481603.2022.2026641
In: Giscience & Remote Sensing. TAYLOR & FRANCIS LTD: Abingdon. ISSN 1548-1603; e-ISSN 1943-7226, more
Peer reviewed article  

Available in  Authors 

Keyword
    Marine/Coastal
Author keywords
    Coral reef; discimination; hyperspectral; sea-bottom reflectance; remote sensing

Authors  Top 
  • Zeng, K.
  • Xu, Z.
  • Yang, Y.
  • Liu, Y.
  • Zhao, H.
  • Zhang, Y., more
  • Xie, B.
  • Zhou, W.
  • Li, C.
  • Cao, W.

Abstract
    Knowledge about the optical features of benthic objects is essential for quantifying spectral signatures, remote sensing-based mapping, and ecological monitoring in coral reefs. However, the spectral identification of benthic species and the accurate measurement of the in situ reflectance spectra of relevant research objects remain underexplored. An underwater radiation measuring system suitable for coral reef environments was specifically designed to obtain in situ reflectance spectra and match benthic photographs of various substrate targets. This instrument has the advantages of obtaining hyperspectral, dual-channel simultaneous measurements, and automatically adjusting the integration time according to the light intensity. Based on in situ hyperspectral datasets, the linear discriminant analysis (LDA) was used for exploring and discriminating spectral characteristics from three taxonomic ranks, which include typical substrates of six community groups, nine coral families, and six Acroporidae species. In situ full-resolution (1-nm) spectra provided the best discrimination ability with mean accuracies of 97.5%, 90.9%, and 91.6% for typical substrates, coral families, and coral species, respectively. The spectral abilities of remote sensors were assessed by applying the spectral response functions of three multispectral sensors (Landsat 8 OLI, Sentinel-2A, and World View-2) to the full-resolution spectra. Discrimination analyses of the simulated spectra demonstrated that the spectral separations of typical substrates might be apparent, with overall classification accuracies of 89.6%, 88.2%, and 90.4% for the Landsat 8 OLI, Sentinel-2A, and World View-2 sensors, respectively. The spectral separation for different corals, however, may not be effective when using multispectral sensors. The discrimination analyses of families and species produced overall classification accuracies of 67.1% and 69.6%, respectively, for the Landsat 8 OLI, 56.0% and 56.0% for the Sentinel-2A sensor, and 64.5% and 61.8% for the World View-2 sensor. In summary, this method has the potential for identifing substrate targets in communities and taxonomic coral groups by applying in situ hyperspectral datasets. Furthermore, multispectral satellite sensors are currently inadequate for spectrally separate corals, while spectral discrimination is possible and practical for different substrate targets with visual spectral differences.

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