Studying Microplastic Incorporation into Corals Using CARS
Studying Microplastic Incorporation into Corals Using CARS
Microplastic pollution is a serious threat to marine organisms, including reef-building corals. Corals are known to incorporate microplastics, which could potentially provide an archive of information to trace present and past microplastic pollution. In this study, a label-free chemical analytical method for rapid visualization of microplastics incorporated in coral tissue and skeletons is proposed by using a coherent anti-Stokes Raman scattering (CARS) microscope combined with two-photon excited fluorescence (TPEF) detection. Acropora polystoma was maintained in an environment with a high concentration of polyethylene (PE) beads ranging from 0.7 to 5 μm in size. PE beads were successfully visualized, and the number of incorporated beads per skeleton area was quantitatively analyzed using the proposed technique. Notably, plastic beads were only found in the skeleton of coral colonies showing signs of localized tissue loss. Further CARS analysis of tissue found that a number of microplastics were trapped in the areas where tissue loss was observed due to bleaching or physical tissue removal, whereas minimal amounts were observed within healthy tissue. These results suggest that unhealthy conditions which lead to tissue loss and bleaching may accelerate microplastic incorporation into coral tissue and further into skeletons. Our study shows the ability of our CARS-based method to help understand how microplastics are incorporated into corals and will lead to improved tracking of their accumulation in coral reefs.
Coral, Bleaching, Label-Free Analysis, Microplastics, coherent anti-stokes raman scattering (CARS), microplastics, coral, bleaching, label-free analysis
3438-3448
Takahashi, Tomoko
937057f6-8e83-4a7f-b11f-b549c94afdf6
D'Angelo, Cecilia
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Kleboe, Jacob
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Wiedenmann, Joerg
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Foster, Gavin
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Mahajan, Sumeet
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3 February 2026
Takahashi, Tomoko
937057f6-8e83-4a7f-b11f-b549c94afdf6
D'Angelo, Cecilia
0d35b03b-684d-43aa-a57a-87212ab07ee1
Kleboe, Jacob
e766f285-d73b-495b-9938-da3d75169a16
Wiedenmann, Joerg
ad445af2-680f-4927-90b3-589ac9d538f7
Foster, Gavin
fbaa7255-7267-4443-a55e-e2a791213022
Mahajan, Sumeet
b131f40a-479e-4432-b662-19d60d4069e9
Takahashi, Tomoko, D'Angelo, Cecilia, Kleboe, Jacob, Wiedenmann, Joerg, Foster, Gavin and Mahajan, Sumeet
(2026)
Studying Microplastic Incorporation into Corals Using CARS.
Environmental Science & Technology, 60 (4), .
(doi:10.1021/acs.est.5c10668).
Abstract
Microplastic pollution is a serious threat to marine organisms, including reef-building corals. Corals are known to incorporate microplastics, which could potentially provide an archive of information to trace present and past microplastic pollution. In this study, a label-free chemical analytical method for rapid visualization of microplastics incorporated in coral tissue and skeletons is proposed by using a coherent anti-Stokes Raman scattering (CARS) microscope combined with two-photon excited fluorescence (TPEF) detection. Acropora polystoma was maintained in an environment with a high concentration of polyethylene (PE) beads ranging from 0.7 to 5 μm in size. PE beads were successfully visualized, and the number of incorporated beads per skeleton area was quantitatively analyzed using the proposed technique. Notably, plastic beads were only found in the skeleton of coral colonies showing signs of localized tissue loss. Further CARS analysis of tissue found that a number of microplastics were trapped in the areas where tissue loss was observed due to bleaching or physical tissue removal, whereas minimal amounts were observed within healthy tissue. These results suggest that unhealthy conditions which lead to tissue loss and bleaching may accelerate microplastic incorporation into coral tissue and further into skeletons. Our study shows the ability of our CARS-based method to help understand how microplastics are incorporated into corals and will lead to improved tracking of their accumulation in coral reefs.
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More information
Accepted/In Press date: 8 January 2026
e-pub ahead of print date: 22 January 2026
Published date: 3 February 2026
Keywords:
Coral, Bleaching, Label-Free Analysis, Microplastics, coherent anti-stokes raman scattering (CARS), microplastics, coral, bleaching, label-free analysis
Identifiers
Local EPrints ID: 509670
URI: http://eprints.soton.ac.uk/id/eprint/509670
ISSN: 0013-936X
PURE UUID: 26209dff-6aca-4082-8efb-b515419ba023
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Date deposited: 02 Mar 2026 17:32
Last modified: 07 Mar 2026 03:12
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Author:
Tomoko Takahashi
Author:
Jacob Kleboe
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