In vivo X-ray computed microtomography: a novel approach to assess coral skeletal construction in the reef building coral Stylophora pistillata
In vivo X-ray computed microtomography: a novel approach to assess coral skeletal construction in the reef building coral Stylophora pistillata
Scleractinian (stony) corals build reef frameworks through calcium carbonate deposition, yet all methods for assessing skeletal growth - staining, scanning electron microscopy (SEM), or ex vivo micro computed tomography (µCT) - are limited to endpoint measurements on dead specimens. Here, we utilise in vivo X µCT to non-destructively quantify skeletal growth in the reef-building coral Stylophora pistillata for the first time. In vivo µCT was used three times over a 16-day period to study a single S. pistillata fragment, cultured at controlled pH (8.0) and temperature (26°C) conditions. This approach revealed a volume increase from 630 to 700 mm³ that can be partitioned into external vertical extension and internal lateral thickening, generating high-resolution 4D reconstructions of the evolving skeletal architecture. These measurements were consistent with established approaches but provide additional unique insights into internal growth dynamics. We demonstrate that in vivo μCT enables micron-scale monitoring of calcification processes of living stony corals, thereby representing a powerful new tool to probe coral growth dynamics in the face of rapidly changing environmental conditions.
In vivo micro computed tomography, Scleractinia, Dynamic imaging, analysis, Method development
Trend, Jacob
63f583e3-79be-4a5b-954a-10fb70fb1118
Page, Tessa
d650dc79-64eb-4f14-b16c-86266cdeefc8
Dexter, Katie
705fecdc-98d4-41d4-925b-e38254833983
D'Angelo, Cecilia
0d35b03b-684d-43aa-a57a-87212ab07ee1
Wiedenmann, Joerg
ad445af2-680f-4927-90b3-589ac9d538f7
Kleboe, Jacob
e766f285-d73b-495b-9938-da3d75169a16
Katsamenis, Orestis L.
8553e7c3-d860-4b7a-a883-abf6c0c4b438
Mahajan, Sumeet
b131f40a-479e-4432-b662-19d60d4069e9
Foster, Gavin L.
fbaa7255-7267-4443-a55e-e2a791213022
27 March 2026
Trend, Jacob
63f583e3-79be-4a5b-954a-10fb70fb1118
Page, Tessa
d650dc79-64eb-4f14-b16c-86266cdeefc8
Dexter, Katie
705fecdc-98d4-41d4-925b-e38254833983
D'Angelo, Cecilia
0d35b03b-684d-43aa-a57a-87212ab07ee1
Wiedenmann, Joerg
ad445af2-680f-4927-90b3-589ac9d538f7
Kleboe, Jacob
e766f285-d73b-495b-9938-da3d75169a16
Katsamenis, Orestis L.
8553e7c3-d860-4b7a-a883-abf6c0c4b438
Mahajan, Sumeet
b131f40a-479e-4432-b662-19d60d4069e9
Foster, Gavin L.
fbaa7255-7267-4443-a55e-e2a791213022
Trend, Jacob, Page, Tessa, Dexter, Katie, D'Angelo, Cecilia, Wiedenmann, Joerg, Kleboe, Jacob, Katsamenis, Orestis L., Mahajan, Sumeet and Foster, Gavin L.
(2026)
In vivo X-ray computed microtomography: a novel approach to assess coral skeletal construction in the reef building coral Stylophora pistillata.
Tomography of Materials and Structures, 11, [100083].
(doi:10.1016/j.tmater.2026.100083).
Abstract
Scleractinian (stony) corals build reef frameworks through calcium carbonate deposition, yet all methods for assessing skeletal growth - staining, scanning electron microscopy (SEM), or ex vivo micro computed tomography (µCT) - are limited to endpoint measurements on dead specimens. Here, we utilise in vivo X µCT to non-destructively quantify skeletal growth in the reef-building coral Stylophora pistillata for the first time. In vivo µCT was used three times over a 16-day period to study a single S. pistillata fragment, cultured at controlled pH (8.0) and temperature (26°C) conditions. This approach revealed a volume increase from 630 to 700 mm³ that can be partitioned into external vertical extension and internal lateral thickening, generating high-resolution 4D reconstructions of the evolving skeletal architecture. These measurements were consistent with established approaches but provide additional unique insights into internal growth dynamics. We demonstrate that in vivo μCT enables micron-scale monitoring of calcification processes of living stony corals, thereby representing a powerful new tool to probe coral growth dynamics in the face of rapidly changing environmental conditions.
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Accepted/In Press date: 22 March 2026
e-pub ahead of print date: 22 March 2026
Published date: 27 March 2026
Keywords:
In vivo micro computed tomography, Scleractinia, Dynamic imaging, analysis, Method development
Identifiers
Local EPrints ID: 512053
URI: http://eprints.soton.ac.uk/id/eprint/512053
ISSN: 2949-673X
PURE UUID: 37f6e958-acb3-45f7-90df-07c6975f12fe
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Date deposited: 15 Jun 2026 17:07
Last modified: 16 Jun 2026 02:06
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