Exploring spatial heterogeneity of Antarctic sea ice algae using an autonomous underwater vehicle mounted irradiance sensor

Sea ice algae represent a key energy source for many organisms in polar food webs, but estimating their biomass at ecologically appropriate spatiotemporal scales remains a challenge. Attempts to extend ice-core derived biomass to broader scales using remote sensing approaches has largely focused on...

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Published in:	Frontiers in Earth Science
Main Authors:	Forrest, AL, Lund-Hansen, LC, Sorrell, BK, Bowden-Floyd, I, Lucieer, V, Cossu, R, Lange, BA, Hawes, I
Format:	Article in Journal/Newspaper
Language:	English
Published:	Frontiers Research Foundation 2019
Subjects:	Engineering Geomatic engineering Photogrammetry and remote sensing Antarctic McMurdo Sound Antarc* Antarctica ice algae ice core Sea ice
Online Access:	https://doi.org/10.3389/feart.2019.00169 http://ecite.utas.edu.au/133809

id	ftunivtasecite:oai:ecite.utas.edu.au:133809
record_format	openpolar
spelling	ftunivtasecite:oai:ecite.utas.edu.au:133809 2023-05-15T13:59:46+02:00 Exploring spatial heterogeneity of Antarctic sea ice algae using an autonomous underwater vehicle mounted irradiance sensor Forrest, AL Lund-Hansen, LC Sorrell, BK Bowden-Floyd, I Lucieer, V Cossu, R Lange, BA Hawes, I 2019 application/pdf https://doi.org/10.3389/feart.2019.00169 http://ecite.utas.edu.au/133809 en eng Frontiers Research Foundation http://ecite.utas.edu.au/133809/1/133809 - Exploring spatial heterogeneity of Antarctic sea ice algae using an autonomous.pdf http://dx.doi.org/10.3389/feart.2019.00169 Forrest, AL and Lund-Hansen, LC and Sorrell, BK and Bowden-Floyd, I and Lucieer, V and Cossu, R and Lange, BA and Hawes, I, Exploring spatial heterogeneity of Antarctic sea ice algae using an autonomous underwater vehicle mounted irradiance sensor, Frontiers in Earth Science, 7 Article 169. ISSN 2296-6463 (2019) [Refereed Article] http://ecite.utas.edu.au/133809 Engineering Geomatic engineering Photogrammetry and remote sensing Refereed Article PeerReviewed 2019 ftunivtasecite https://doi.org/10.3389/feart.2019.00169 2021-11-29T23:17:33Z Sea ice algae represent a key energy source for many organisms in polar food webs, but estimating their biomass at ecologically appropriate spatiotemporal scales remains a challenge. Attempts to extend ice-core derived biomass to broader scales using remote sensing approaches has largely focused on the use of under-ice spectral irradiance. Normalized difference index (NDI) based algorithms that relate the attenuation of irradiance by the snow-ice-algal ensemble at specific wavelengths to biomass have been used to explain up to 79% of the biomass of algae in limited areas. Application of these algorithms to datasets collected using tethered remotely operated vehicles (ROVs) has begun, generating methods for spatial sampling at scales and spatial resolution not achievable with ice-core sampling. Successful integration of radiometers with untethered autonomous underwater vehicles (AUVs) offers even greater capability to survey broader regions to explore the spatial heterogeneity of sea ice algal communities. This work describes the pilot use of an AUV fitted with a multispectral irradiance sensor to estimate ice-algal biomass along transects beneath land-fast sea ice (~2 m thick with minimal snow cover) in McMurdo Sound, Antarctica. The AUV obtained continuous, repeatable, multi-band irradiance data, suitable for NDI-type approaches, over transects of 500 m, with an instrument footprint of 4 m in diameter. Algorithms were developed using local measurements of ice algae biomass and spectral attenuation of sea ice and were able to explain 40% of biomass variability. Relatively poor performance of the algorithms in predicting biomass limited the confidence that could be placed in biomass estimates from AUV data. This was attributed to the larger footprint size of the optical sensors integrating small-scale biomass variability more effectively than the ice core in the platelet-dominated ice algal habitat. Our results support continued development of remote-sensing of sea ice algal biomass at mkm spatial scales using optical methods, but caution that footprint sizes of calibration data (e.g., coring) must be compatible with optical sensors used. AUVs offer autonomous survey techniques that could be applied to better understand the horizontal variability of sea ice algae from nearshore ice out to the marginal ice zone. Article in Journal/Newspaper Antarc* Antarctic Antarctica ice algae ice core McMurdo Sound Sea ice eCite UTAS (University of Tasmania) Antarctic McMurdo Sound Frontiers in Earth Science 7
institution	Open Polar
collection	eCite UTAS (University of Tasmania)
op_collection_id	ftunivtasecite
language	English
topic	Engineering Geomatic engineering Photogrammetry and remote sensing
spellingShingle	Engineering Geomatic engineering Photogrammetry and remote sensing Forrest, AL Lund-Hansen, LC Sorrell, BK Bowden-Floyd, I Lucieer, V Cossu, R Lange, BA Hawes, I Exploring spatial heterogeneity of Antarctic sea ice algae using an autonomous underwater vehicle mounted irradiance sensor
topic_facet	Engineering Geomatic engineering Photogrammetry and remote sensing
description	Sea ice algae represent a key energy source for many organisms in polar food webs, but estimating their biomass at ecologically appropriate spatiotemporal scales remains a challenge. Attempts to extend ice-core derived biomass to broader scales using remote sensing approaches has largely focused on the use of under-ice spectral irradiance. Normalized difference index (NDI) based algorithms that relate the attenuation of irradiance by the snow-ice-algal ensemble at specific wavelengths to biomass have been used to explain up to 79% of the biomass of algae in limited areas. Application of these algorithms to datasets collected using tethered remotely operated vehicles (ROVs) has begun, generating methods for spatial sampling at scales and spatial resolution not achievable with ice-core sampling. Successful integration of radiometers with untethered autonomous underwater vehicles (AUVs) offers even greater capability to survey broader regions to explore the spatial heterogeneity of sea ice algal communities. This work describes the pilot use of an AUV fitted with a multispectral irradiance sensor to estimate ice-algal biomass along transects beneath land-fast sea ice (~2 m thick with minimal snow cover) in McMurdo Sound, Antarctica. The AUV obtained continuous, repeatable, multi-band irradiance data, suitable for NDI-type approaches, over transects of 500 m, with an instrument footprint of 4 m in diameter. Algorithms were developed using local measurements of ice algae biomass and spectral attenuation of sea ice and were able to explain 40% of biomass variability. Relatively poor performance of the algorithms in predicting biomass limited the confidence that could be placed in biomass estimates from AUV data. This was attributed to the larger footprint size of the optical sensors integrating small-scale biomass variability more effectively than the ice core in the platelet-dominated ice algal habitat. Our results support continued development of remote-sensing of sea ice algal biomass at mkm spatial scales using optical methods, but caution that footprint sizes of calibration data (e.g., coring) must be compatible with optical sensors used. AUVs offer autonomous survey techniques that could be applied to better understand the horizontal variability of sea ice algae from nearshore ice out to the marginal ice zone.
format	Article in Journal/Newspaper
author	Forrest, AL Lund-Hansen, LC Sorrell, BK Bowden-Floyd, I Lucieer, V Cossu, R Lange, BA Hawes, I
author_facet	Forrest, AL Lund-Hansen, LC Sorrell, BK Bowden-Floyd, I Lucieer, V Cossu, R Lange, BA Hawes, I
author_sort	Forrest, AL
title	Exploring spatial heterogeneity of Antarctic sea ice algae using an autonomous underwater vehicle mounted irradiance sensor
title_short	Exploring spatial heterogeneity of Antarctic sea ice algae using an autonomous underwater vehicle mounted irradiance sensor
title_full	Exploring spatial heterogeneity of Antarctic sea ice algae using an autonomous underwater vehicle mounted irradiance sensor
title_fullStr	Exploring spatial heterogeneity of Antarctic sea ice algae using an autonomous underwater vehicle mounted irradiance sensor
title_full_unstemmed	Exploring spatial heterogeneity of Antarctic sea ice algae using an autonomous underwater vehicle mounted irradiance sensor
title_sort	exploring spatial heterogeneity of antarctic sea ice algae using an autonomous underwater vehicle mounted irradiance sensor
publisher	Frontiers Research Foundation
publishDate	2019
url	https://doi.org/10.3389/feart.2019.00169 http://ecite.utas.edu.au/133809
geographic	Antarctic McMurdo Sound
geographic_facet	Antarctic McMurdo Sound
genre	Antarc* Antarctic Antarctica ice algae ice core McMurdo Sound Sea ice
genre_facet	Antarc* Antarctic Antarctica ice algae ice core McMurdo Sound Sea ice
op_relation	http://ecite.utas.edu.au/133809/1/133809 - Exploring spatial heterogeneity of Antarctic sea ice algae using an autonomous.pdf http://dx.doi.org/10.3389/feart.2019.00169 Forrest, AL and Lund-Hansen, LC and Sorrell, BK and Bowden-Floyd, I and Lucieer, V and Cossu, R and Lange, BA and Hawes, I, Exploring spatial heterogeneity of Antarctic sea ice algae using an autonomous underwater vehicle mounted irradiance sensor, Frontiers in Earth Science, 7 Article 169. ISSN 2296-6463 (2019) [Refereed Article] http://ecite.utas.edu.au/133809
op_doi	https://doi.org/10.3389/feart.2019.00169
container_title	Frontiers in Earth Science
container_volume	7
_version_	1766268576585482240

Exploring spatial heterogeneity of Antarctic sea ice algae using an autonomous underwater vehicle mounted irradiance sensor

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