High-frequency imagery to capture coral tissue (Montipora capricornis) response to environmental stress, a pilot study

Environment stress is a major threat to the existence of coral reefs and has generated a lot of interest in the coral research community. Under the environmental stress, corals can experience tissue loss and/or the breakdown of symbiosis between the cnidarian host and its symbiotic algae causing the...

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Veröffentlicht in:	PloS one 2023-03, Vol.18 (3), p.e0283042-e0283042
Hauptverfasser:	Li, Shuaifeng, Roger, Liza M, Kumar, Lokender, Lewinski, Nastassja A, Klein-Seetharaman, Judith, Putnam, Hollie M, Yang, Jinkyu
Format:	Artikel
Sprache:	eng
Schlagworte:	Algae Algorithms Analysis Animals Anthozoa - physiology Aquariums Biological diversity Biology and Life Sciences Cameras Color Computer and Information Sciences Coral Reefs Coral reefs and islands Corals Correlation coefficient Correlation coefficients Digital photography Earth Sciences Engineering and Technology Environmental aspects Environmental stress Frequency analysis Image analysis Image processing Laboratories Light Mathematical analysis Methods Montipora capricornis Morphology Physical Sciences Pilot Projects Polyps (organisms) Protection and preservation Robustness (mathematics) Stress (Physiology) Stress, Physiological Symbiosis Symbiosis - physiology Tissue analysis Tissues
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creator	Li, Shuaifeng Roger, Liza M Kumar, Lokender Lewinski, Nastassja A Klein-Seetharaman, Judith Putnam, Hollie M Yang, Jinkyu
description	Environment stress is a major threat to the existence of coral reefs and has generated a lot of interest in the coral research community. Under the environmental stress, corals can experience tissue loss and/or the breakdown of symbiosis between the cnidarian host and its symbiotic algae causing the coral tissue to appear white as the skeleton can be seen by transparency. Image analysis is a common method used to assess tissue response under the environmental stress. However, the traditional approach is limited by the dynamic nature of the coral-algae symbiosis. Here, we observed coral tissue response in the scleractinian coral, Montipora capricornis, using high frequency image analysis throughout the experiment, as opposed to the typical start/end point assessment method. Color analysis reveals that the process can be divided into five stages with two critical stages according to coral tissue morphology and color ratio. We further explore changes to the morphology of individual polyps by means of the Pearson correlation coefficient and recurrence plots, where the quasi-periodic and nonstationary dynamics can be identified. The recurrence quantification analysis also allows the comparison between the different polyps. Our research provides a detailed visual and mathematical analysis of coral tissue response to environmental stress, which potentially shows universal applicability. Moreover, our approach provides a robust quantitative advancement for improving our insight into a suite of biotic responses in the perspective of coral health evaluation and fate prediction.
doi_str_mv	10.1371/journal.pone.0283042
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subjects	Algae Algorithms Analysis Animals Anthozoa - physiology Aquariums Biological diversity Biology and Life Sciences Cameras Color Computer and Information Sciences Coral Reefs Coral reefs and islands Corals Correlation coefficient Correlation coefficients Digital photography Earth Sciences Engineering and Technology Environmental aspects Environmental stress Frequency analysis Image analysis Image processing Laboratories Light Mathematical analysis Methods Montipora capricornis Morphology Physical Sciences Pilot Projects Polyps (organisms) Protection and preservation Robustness (mathematics) Stress (Physiology) Stress, Physiological Symbiosis Symbiosis - physiology Tissue analysis Tissues
title	High-frequency imagery to capture coral tissue (Montipora capricornis) response to environmental stress, a pilot study
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