Improving predictive mapping of deep-water habitats: Considering multiple model outputs and ensemble techniques
Improving predictive mapping of deep-water habitats: Considering multiple model outputs and ensemble techniques
In the deep sea, biological data are often sparse; hence models capturing relationships between observed fauna and environmental variables (acquired via acoustic mapping techniques) are often used to produce full coverage species assemblage maps. Many statistical modelling techniques are being developed, but there remains a need to determine the most appropriate mapping techniques. Predictive habitat modelling approaches (redundancy analysis, maximum entropy and random forest) were applied to a heterogeneous section of seabed on Rockall Bank, NE Atlantic, for which landscape indices describing the spatial arrangement of habitat patches were calculated. The predictive maps were based on remotely operated vehicle (ROV) imagery transects, high-resolution autonomous underwater vehicle (AUV) sidescan backscatter maps and ship-based multibeam bathymetry. Area under the curve (AUC) and accuracy indicated similar performances for the three models tested, but performance varied by species assemblage, with the transitional species assemblage showing the weakest predictive performances. Spatial predictions of habitat suitability differed between statistical approaches, but niche similarity metrics showed redundancy analysis and random forest predictions to be most similar. As one statistical technique could not be found to outperform the others when all assemblages were considered, ensemble mapping techniques, where the outputs of many models are combined, were applied. They showed higher accuracy than any single model. Different statistical approaches for predictive habitat modelling possess varied strengths and weaknesses and by examining the outputs of a range of modelling techniques and their differences, more robust predictions, with better described variation and areas of uncertainties, can be achieved. As improvements to prediction outputs can be achieved without additional costly data collection, ensemble mapping approaches have clear value for spatial management.
Cold-water corals, Deep sea, Ensemble approaches, Habitat mapping, Megabenthos
80-89
Robert, Katleen
49e4bfa2-0999-41ec-b50d-65c0f8896583
Jones, Daniel O.B.
44fc07b3-5fb7-4bf5-9cec-78c78022613a
Roberts, J. Murray
f254ac2d-38cd-44e4-b625-279eab5e06f2
Huvenne, Veerle A.I.
f22be3e2-708c-491b-b985-a438470fa053
July 2016
Robert, Katleen
49e4bfa2-0999-41ec-b50d-65c0f8896583
Jones, Daniel O.B.
44fc07b3-5fb7-4bf5-9cec-78c78022613a
Roberts, J. Murray
f254ac2d-38cd-44e4-b625-279eab5e06f2
Huvenne, Veerle A.I.
f22be3e2-708c-491b-b985-a438470fa053
Robert, Katleen, Jones, Daniel O.B., Roberts, J. Murray and Huvenne, Veerle A.I.
(2016)
Improving predictive mapping of deep-water habitats: Considering multiple model outputs and ensemble techniques.
Deep Sea Research Part I: Oceanographic Research Papers, 113, .
(doi:10.1016/j.dsr.2016.04.008).
Abstract
In the deep sea, biological data are often sparse; hence models capturing relationships between observed fauna and environmental variables (acquired via acoustic mapping techniques) are often used to produce full coverage species assemblage maps. Many statistical modelling techniques are being developed, but there remains a need to determine the most appropriate mapping techniques. Predictive habitat modelling approaches (redundancy analysis, maximum entropy and random forest) were applied to a heterogeneous section of seabed on Rockall Bank, NE Atlantic, for which landscape indices describing the spatial arrangement of habitat patches were calculated. The predictive maps were based on remotely operated vehicle (ROV) imagery transects, high-resolution autonomous underwater vehicle (AUV) sidescan backscatter maps and ship-based multibeam bathymetry. Area under the curve (AUC) and accuracy indicated similar performances for the three models tested, but performance varied by species assemblage, with the transitional species assemblage showing the weakest predictive performances. Spatial predictions of habitat suitability differed between statistical approaches, but niche similarity metrics showed redundancy analysis and random forest predictions to be most similar. As one statistical technique could not be found to outperform the others when all assemblages were considered, ensemble mapping techniques, where the outputs of many models are combined, were applied. They showed higher accuracy than any single model. Different statistical approaches for predictive habitat modelling possess varied strengths and weaknesses and by examining the outputs of a range of modelling techniques and their differences, more robust predictions, with better described variation and areas of uncertainties, can be achieved. As improvements to prediction outputs can be achieved without additional costly data collection, ensemble mapping approaches have clear value for spatial management.
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DSR_Robert et al_Manuscript.pdf
- Accepted Manuscript
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1-s2.0-S0967063715301503-main.pdf
- Version of Record
More information
Accepted/In Press date: 12 April 2016
Published date: July 2016
Keywords:
Cold-water corals, Deep sea, Ensemble approaches, Habitat mapping, Megabenthos
Organisations:
Marine Biogeochemistry, Marine Geoscience
Identifiers
Local EPrints ID: 393019
URI: http://eprints.soton.ac.uk/id/eprint/393019
ISSN: 0967-0637
PURE UUID: 83e48200-c15d-4cf9-85a5-a68d5c588e8e
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Date deposited: 26 Apr 2016 10:22
Last modified: 15 Mar 2024 05:30
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Contributors
Author:
Katleen Robert
Author:
Daniel O.B. Jones
Author:
J. Murray Roberts
Author:
Veerle A.I. Huvenne
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