3D photogrammetry quantifies growth and external erosion of individual coral colonies and skeletons

Growth and contraction of ecosystem engineers, such as trees, influence ecosystem structure and function. On coral reefs, methods to measure small changes in the structure of microhabitats, driven by growth of coral colonies and contraction of skeletons, are extremely limited. We used 3D reconstruct...

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Bibliographic Details
Published in:Scientific reports 2017-12, Vol.7 (1), p.16737-9, Article 16737
Main Authors: Ferrari, Renata, Figueira, Will F., Pratchett, Morgan S., Boube, Tatiana, Adam, Arne, Kobelkowsky-Vidrio, Tania, Doo, Steve S., Atwood, Trisha Brooke, Byrne, Maria
Format: Article
Language:English
Subjects:
631/158/2445
631/158/2450
Animals
Anthozoa - growth & development
Australia
Biodiversity
Bone and Bones - diagnostic imaging
Colonies
Contraction
Coral Reefs
Corals
Ecosystem structure
Ecosystems
Humanities and Social Sciences
Image Processing, Computer-Assisted
Microhabitats
multidisciplinary
Photogrammetry
Photogrammetry - methods
Population Growth
Science
Science (multidisciplinary)
Structure-function relationships
Surface area
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Summary:Growth and contraction of ecosystem engineers, such as trees, influence ecosystem structure and function. On coral reefs, methods to measure small changes in the structure of microhabitats, driven by growth of coral colonies and contraction of skeletons, are extremely limited. We used 3D reconstructions to quantify changes in the external structure of coral colonies of tabular Acropora spp., the dominant habitat-forming corals in shallow exposed reefs across the Pacific. The volume and surface area of live colonies increased by 21% and 22%, respectively, in 12 months, corresponding to a mean annual linear extension of 5.62 cm yr −1 (±1.81 SE). The volume and surface area of dead skeletons decreased by 52% and 47%, respectively, corresponding to a mean decline in linear extension of −29.56 cm yr −1 (±7.08 SE), which accounted for both erosion and fragmentation of dead colonies. This is the first study to use 3D photogrammetry to assess fine-scale structural changes of entire individual colonies in situ , quantifying coral growth and contraction. The high-resolution of the technique allows for detection of changes on reef structure faster than other non-intrusive approaches. These results improve our capacity to measure the drivers underpinning ecosystem biodiversity, status and trajectory.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-017-16408-z