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Modeling polyp activity of Paragorgia arborea using supervised learning

Modeling polyp activity of Paragorgia arborea using supervised learning
Modeling polyp activity of Paragorgia arborea using supervised learning

While the distribution patterns of cold-water corals, such as Paragorgia arborea, have received increasing attention in recent studies, little is known about their in situ activity patterns. In this paper, we examine polyp activity in P. arborea using machine learning techniques to analyze high-resolution time series data and photographs obtained from an autonomous lander cluster deployed in the Stjernsund, Norway. An interactive illustration of the models derived in this paper is provided online as supplementary material. We find that the best predictor of the degree of extension of the coral polyps is current direction with a lag of three hours. Other variables that are not directly associated with water currents, such as temperature and salinity, offer much less information concerning polyp activity. Interestingly, the degree of polyp extension can be predicted more reliably by sampling the laminar flows in the water column above the measurement site than by sampling the more turbulent flows in the direct vicinity of the corals. Our results show that the activity patterns of the P. arborea polyps are governed by the strong tidal current regime of the Stjernsund. It appears that P. arborea does not react to shorter changes in the ambient current regime but instead adjusts its behavior in accordance with the large-scale pattern of the tidal cycle itself in order to optimize nutrient uptake.

1574-9541
109-118
Johanson, Arne N.
06f6d12f-d816-4361-ab22-24a32021c595
Flögel, Sascha
5e2e8c11-4976-4885-8c70-9e0e6322a76f
Dullo, Wolf Christian
dba58b7c-4e4c-4df3-b6bb-2d108cdb53d3
Linke, Peter
d0ff5885-ff08-457c-b40d-0e30abf53890
Hasselbring, Wilhelm
ee89c5c9-a900-40b1-82c1-552268cd01bd
et al.
Johanson, Arne N.
06f6d12f-d816-4361-ab22-24a32021c595
Flögel, Sascha
5e2e8c11-4976-4885-8c70-9e0e6322a76f
Dullo, Wolf Christian
dba58b7c-4e4c-4df3-b6bb-2d108cdb53d3
Linke, Peter
d0ff5885-ff08-457c-b40d-0e30abf53890
Hasselbring, Wilhelm
ee89c5c9-a900-40b1-82c1-552268cd01bd

Johanson, Arne N., Flögel, Sascha and Dullo, Wolf Christian , et al. (2017) Modeling polyp activity of Paragorgia arborea using supervised learning. Ecological Informatics, 39, 109-118. (doi:10.1016/j.ecoinf.2017.02.007).

Record type: Article

Abstract

While the distribution patterns of cold-water corals, such as Paragorgia arborea, have received increasing attention in recent studies, little is known about their in situ activity patterns. In this paper, we examine polyp activity in P. arborea using machine learning techniques to analyze high-resolution time series data and photographs obtained from an autonomous lander cluster deployed in the Stjernsund, Norway. An interactive illustration of the models derived in this paper is provided online as supplementary material. We find that the best predictor of the degree of extension of the coral polyps is current direction with a lag of three hours. Other variables that are not directly associated with water currents, such as temperature and salinity, offer much less information concerning polyp activity. Interestingly, the degree of polyp extension can be predicted more reliably by sampling the laminar flows in the water column above the measurement site than by sampling the more turbulent flows in the direct vicinity of the corals. Our results show that the activity patterns of the P. arborea polyps are governed by the strong tidal current regime of the Stjernsund. It appears that P. arborea does not react to shorter changes in the ambient current regime but instead adjusts its behavior in accordance with the large-scale pattern of the tidal cycle itself in order to optimize nutrient uptake.

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More information

Accepted/In Press date: 27 February 2017
e-pub ahead of print date: 17 April 2017
Published date: 29 April 2017
Learn more about School of Electronics and Computer Science research

Identifiers

Local EPrints ID: 488747
URI: http://eprints.soton.ac.uk/id/eprint/488747
DOI: doi:10.1016/j.ecoinf.2017.02.007
ISSN: 1574-9541
PURE UUID: ac699448-9b58-4ac6-9a77-2e4595e52a20
ORCID for Wilhelm Hasselbring: ORCID iD orcid.org/0000-0001-6625-4335

Catalogue record

Date deposited: 05 Apr 2024 16:35
Last modified: 10 Apr 2024 02:15

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Contributors

Author: Arne N. Johanson
Author: Sascha Flögel
Author: Wolf Christian Dullo
Author: Peter Linke
Author: Wilhelm Hasselbring ORCID iD
Corporate Author: et al.

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