Where land meets sea: towards a complete coverage for terrain analysis of coastal environments

Developments in remote sensing techniques to produce digital terrain models (DTM) have provided new methods for studying terrestrial environments, thereby improving scientific understanding of ecological and geomorphological processes. Geomorphometry, or terrain analysis, uses DTMs to quantify physi...

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Bibliographic Details
Main Authors: Lecours, V, Lucieer, V, Micallef, A, Dolan, M, Brown, C, Edinger, E, Devillers, R
Format: Conference Object
Language:English
Published: - 2015
Subjects:
Engineering
Geomatic Engineering
Geospatial Information Systems
Newfoundland
Online Access:http://ecite.utas.edu.au/105063
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record_format openpolar
spelling ftunivtasecite:oai:ecite.utas.edu.au:105063 2023-05-15T17:22:47+02:00 Where land meets sea: towards a complete coverage for terrain analysis of coastal environments Lecours, V Lucieer, V Micallef, A Dolan, M Brown, C Edinger, E Devillers, R 2015 application/pdf http://ecite.utas.edu.au/105063 en eng - http://ecite.utas.edu.au/105063/1/Lucieer_Canadian_Remote_Sensing_2015.pdf Lecours, V and Lucieer, V and Micallef, A and Dolan, M and Brown, C and Edinger, E and Devillers, R, Where land meets sea: towards a complete coverage for terrain analysis of coastal environments, 36th Canadian Symposium on Remote Sensing Abstracts, 08-11 June, St. John's, Newfoundland and Labrador, Canada, pp. 60. (2015) [Conference Extract] http://ecite.utas.edu.au/105063 Engineering Geomatic Engineering Geospatial Information Systems Conference Extract NonPeerReviewed 2015 ftunivtasecite 2019-12-13T22:06:15Z Developments in remote sensing techniques to produce digital terrain models (DTM) have provided new methods for studying terrestrial environments, thereby improving scientific understanding of ecological and geomorphological processes. Geomorphometry, or terrain analysis, uses DTMs to quantify physical characteristics of the land (e.g., slope or rugosity) that are used for different applications such as habitat mapping. The use of multibeam echosounder systems (MBES) to measure seafloor relief has changed the way we study and understand marine environments; techniques from geomorphometry are now commonly applied to these underwater DTMs for the investigation of marine habitats and geomorphology. Due to the inability of satellite remote sensing to collect data in deep waters and the limitations of MBES data collection in shallower waters, there is often a gap in terrain data where land meets sea. A seamless analysis of terrestrial and marine environments requires the combination of terrestrial DTMs, bathymetric data from MBES, and bathymetric LiDAR to fill this gap. The challenges encountered with merging datasets from different sources, such as data uncertainty or spatial resolution, makes such an approach still nascent in the literature. Using data from coastal Newfoundland and Labrador, this contribution reviews the potential uses of continuous terrestrial/marine terrain models, especially for the field of geomorphometry and its application in coastal environments. We argue that such DTMs can become essential to applications like coastal habitat mapping, identification of hazards for navigation in shallow waters, or studying landforms that overlap between environments. We also discuss how some techniques traditionally used in terrestrial studies, such as Geographic object-based image analysis (Geobia), can be applied in marine studies. Conference Object Newfoundland eCite UTAS (University of Tasmania) Newfoundland
institution Open Polar
collection eCite UTAS (University of Tasmania)
op_collection_id ftunivtasecite
language English
topic Engineering
Geomatic Engineering
Geospatial Information Systems
spellingShingle Engineering
Geomatic Engineering
Geospatial Information Systems
Lecours, V
Lucieer, V
Micallef, A
Dolan, M
Brown, C
Edinger, E
Devillers, R
Where land meets sea: towards a complete coverage for terrain analysis of coastal environments
topic_facet Engineering
Geomatic Engineering
Geospatial Information Systems
description Developments in remote sensing techniques to produce digital terrain models (DTM) have provided new methods for studying terrestrial environments, thereby improving scientific understanding of ecological and geomorphological processes. Geomorphometry, or terrain analysis, uses DTMs to quantify physical characteristics of the land (e.g., slope or rugosity) that are used for different applications such as habitat mapping. The use of multibeam echosounder systems (MBES) to measure seafloor relief has changed the way we study and understand marine environments; techniques from geomorphometry are now commonly applied to these underwater DTMs for the investigation of marine habitats and geomorphology. Due to the inability of satellite remote sensing to collect data in deep waters and the limitations of MBES data collection in shallower waters, there is often a gap in terrain data where land meets sea. A seamless analysis of terrestrial and marine environments requires the combination of terrestrial DTMs, bathymetric data from MBES, and bathymetric LiDAR to fill this gap. The challenges encountered with merging datasets from different sources, such as data uncertainty or spatial resolution, makes such an approach still nascent in the literature. Using data from coastal Newfoundland and Labrador, this contribution reviews the potential uses of continuous terrestrial/marine terrain models, especially for the field of geomorphometry and its application in coastal environments. We argue that such DTMs can become essential to applications like coastal habitat mapping, identification of hazards for navigation in shallow waters, or studying landforms that overlap between environments. We also discuss how some techniques traditionally used in terrestrial studies, such as Geographic object-based image analysis (Geobia), can be applied in marine studies.
format Conference Object
author Lecours, V
Lucieer, V
Micallef, A
Dolan, M
Brown, C
Edinger, E
Devillers, R
author_facet Lecours, V
Lucieer, V
Micallef, A
Dolan, M
Brown, C
Edinger, E
Devillers, R
author_sort Lecours, V
title Where land meets sea: towards a complete coverage for terrain analysis of coastal environments
title_short Where land meets sea: towards a complete coverage for terrain analysis of coastal environments
title_full Where land meets sea: towards a complete coverage for terrain analysis of coastal environments
title_fullStr Where land meets sea: towards a complete coverage for terrain analysis of coastal environments
title_full_unstemmed Where land meets sea: towards a complete coverage for terrain analysis of coastal environments
title_sort where land meets sea: towards a complete coverage for terrain analysis of coastal environments
publisher -
publishDate 2015
url http://ecite.utas.edu.au/105063
geographic Newfoundland
geographic_facet Newfoundland
genre Newfoundland
genre_facet Newfoundland
op_relation http://ecite.utas.edu.au/105063/1/Lucieer_Canadian_Remote_Sensing_2015.pdf
Lecours, V and Lucieer, V and Micallef, A and Dolan, M and Brown, C and Edinger, E and Devillers, R, Where land meets sea: towards a complete coverage for terrain analysis of coastal environments, 36th Canadian Symposium on Remote Sensing Abstracts, 08-11 June, St. John's, Newfoundland and Labrador, Canada, pp. 60. (2015) [Conference Extract]
http://ecite.utas.edu.au/105063
_version_ 1766109646978809856

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