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An under-ice hyperspectral and RGB imaging system to capture fine-scale biophysical properties of sea ice

Cimoli, E ORCID: 0000-0001-7964-2716, Meiners, KM, Lucieer, A ORCID: 0000-0002-9468-4516 and Lucieer, V ORCID: 0000-0001-7531-5750 2019 , 'An under-ice hyperspectral and RGB imaging system to capture fine-scale biophysical properties of sea ice' , Remote Sensing, vol. 11, no. 23 , pp. 1-35 , doi:

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Sea-ice biophysical properties are characterized by high spatio-temporal variability ranging from the meso- to the millimeter scale. Ice coring is a common yet coarse point sampling technique that struggles to capture such variability in a non-invasive manner. This hinders quantification and understanding of ice algae biomass patchiness and its complex interaction with some of its sea ice physical drivers. In response to these limitations, a novel under-ice sled system was designed to capture proxies of biomass together with 3D models of bottom topography of land-fast sea-ice. This system couples a pushbroom hyperspectral imaging (HI) sensor with a standard digital RGB camera and was trialed at Cape Evans, Antarctica. HI aims to quantify per-pixel chlorophyll-a content and other ice algae biological properties at the ice-water interface based on light transmitted through the ice. RGB imagery processed with digital photogrammetry aims to capture under-ice structure and topography. Results from a 20 m transect capturing a 0.61 m wide swath at sub-mm spatial resolution are presented. We outline the technical and logistical approach taken and provide recommendations for future deployments and developments of similar systems. A preliminary transect subsample was processed using both established and novel under-ice bio-optical indices (e.g., normalized difference indexes and the area normalized by the maximal band depth) and explorative analyses (e.g., principal component analyses) to establish proxies of algal biomass. This first deployment of HI and digital photogrammetry under-ice provides a proof-of-concept of a novel methodology capable of delivering non-invasive and highly resolved estimates of ice algal biomass in-situ, together with some of its environmental drivers. Nonetheless, various challenges and limitations remain before our method can be adopted across a range of sea-ice conditions. Our work concludes with suggested solutions to these challenges and proposes further method and system developments for future research.

Item Type: Article
Authors/Creators:Cimoli, E and Meiners, KM and Lucieer, A and Lucieer, V
Keywords: Antarctica, sea ice, hyperspectral mapping
Journal or Publication Title: Remote Sensing
Publisher: MDPIAG
ISSN: 2072-4292
DOI / ID Number:
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© 2019 by the authors. Licensed under Creative Commons Attribution 4.0 International (CC BY 4.0)

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