Physiological and skeletal morphological responses of corals to light limitation in turbid environments

Physiological and skeletal morphological responses of corals to light limitation in turbid environments

This study aims to investigate the physiological and morphological responses of corals in turbid reef environments. Coral fragments were harvested via recreational SCUBA methods from light-exposed areas of coral colonies. The samples were blasted using an airbrush to collect tissue and symbiont in a...

Full description

Saved in:
Bibliographic Details
Main Author: Teo, Bryan Jun-kai
Other Authors: Kyle Morgan
Format: Final Year Project
Language:English
Published: Nanyang Technological University 2024
Subjects:
Earth and Environmental Sciences
Coral fragment
SCUBA
Morphological analysis
Physiological analysis
Turbid reefs
Sediment stress
Resource partitioning and acquisition
Biomass quantification
Corallite quantification
3D scan
LOI
S/V Ratio
Growth morphology
Trophic mode
Online Access:https://hdl.handle.net/10356/174807
Tags: Add Tag
No Tags, Be the first to tag this record!
Institution: Nanyang Technological University
Language: English
id sg-ntu-dr.10356-174807
record_format dspace
spelling sg-ntu-dr.10356-1748072024-04-15T15:31:39Z Physiological and skeletal morphological responses of corals to light limitation in turbid environments Teo, Bryan Jun-kai Kyle Morgan Asian School of the Environment kmorgan@ntu.edu.sg Earth and Environmental Sciences Coral fragment SCUBA Morphological analysis Physiological analysis Turbid reefs Sediment stress Resource partitioning and acquisition Biomass quantification Corallite quantification 3D scan LOI S/V Ratio Growth morphology Trophic mode This study aims to investigate the physiological and morphological responses of corals in turbid reef environments. Coral fragments were harvested via recreational SCUBA methods from light-exposed areas of coral colonies. The samples were blasted using an airbrush to collect tissue and symbiont in a mixture with seawater, after which the skeletons were bleached and dried to measure bulk skeletal density. The dried skeletons were also placed on a light scanner to produce a 3D model to provide surface area, volume, corallite width and corallite density measurements. Tissue biomass was quantified using Loss-on-Ignition (LOI) method while symbiont density was measured using a haemocytometer. When comparing bulk skeletal densities of turbid corals to literature values from less turbid environments, the skeletal densities of turbid corals were lower than those from less turbid environments, likely due to resource-partitioning strategies. Mean skeletal densities and biomass increased in the following order according to growth morphology: massive, plate then branching. The trend could be explained by the efficiency of the different growth forms in dispersing sediment load-induced mechanical stress. Morphological features such as surface area to volume (S/V) ratio, corallite width and corallite density could also be used to predict the trophic mode of different corals, with autotrophs having lower S/V ratios, corallite densities and smaller corallite widths while heterotrophs show the opposite trend. Future studies could involve isotopic analysis and symbiont sequencing could expand our knowledge of resource acquisition strategies of corals in turbid reefs. Bachelor's degree 2024-04-12T00:05:23Z 2024-04-12T00:05:23Z 2024 Final Year Project (FYP) Teo, B. J. (2024). Physiological and skeletal morphological responses of corals to light limitation in turbid environments. Final Year Project (FYP), Nanyang Technological University, Singapore. https://hdl.handle.net/10356/174807 https://hdl.handle.net/10356/174807 en application/pdf Nanyang Technological University
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic Earth and Environmental Sciences
Coral fragment
SCUBA
Morphological analysis
Physiological analysis
Turbid reefs
Sediment stress
Resource partitioning and acquisition
Biomass quantification
Corallite quantification
3D scan
LOI
S/V Ratio
Growth morphology
Trophic mode
spellingShingle Earth and Environmental Sciences
Coral fragment
SCUBA
Morphological analysis
Physiological analysis
Turbid reefs
Sediment stress
Resource partitioning and acquisition
Biomass quantification
Corallite quantification
3D scan
LOI
S/V Ratio
Growth morphology
Trophic mode
Teo, Bryan Jun-kai
Physiological and skeletal morphological responses of corals to light limitation in turbid environments
description This study aims to investigate the physiological and morphological responses of corals in turbid reef environments. Coral fragments were harvested via recreational SCUBA methods from light-exposed areas of coral colonies. The samples were blasted using an airbrush to collect tissue and symbiont in a mixture with seawater, after which the skeletons were bleached and dried to measure bulk skeletal density. The dried skeletons were also placed on a light scanner to produce a 3D model to provide surface area, volume, corallite width and corallite density measurements. Tissue biomass was quantified using Loss-on-Ignition (LOI) method while symbiont density was measured using a haemocytometer. When comparing bulk skeletal densities of turbid corals to literature values from less turbid environments, the skeletal densities of turbid corals were lower than those from less turbid environments, likely due to resource-partitioning strategies. Mean skeletal densities and biomass increased in the following order according to growth morphology: massive, plate then branching. The trend could be explained by the efficiency of the different growth forms in dispersing sediment load-induced mechanical stress. Morphological features such as surface area to volume (S/V) ratio, corallite width and corallite density could also be used to predict the trophic mode of different corals, with autotrophs having lower S/V ratios, corallite densities and smaller corallite widths while heterotrophs show the opposite trend. Future studies could involve isotopic analysis and symbiont sequencing could expand our knowledge of resource acquisition strategies of corals in turbid reefs.
author2 Kyle Morgan
author_facet Kyle Morgan
Teo, Bryan Jun-kai
format Final Year Project
author Teo, Bryan Jun-kai
author_sort Teo, Bryan Jun-kai
title Physiological and skeletal morphological responses of corals to light limitation in turbid environments
title_short Physiological and skeletal morphological responses of corals to light limitation in turbid environments
title_full Physiological and skeletal morphological responses of corals to light limitation in turbid environments
title_fullStr Physiological and skeletal morphological responses of corals to light limitation in turbid environments
title_full_unstemmed Physiological and skeletal morphological responses of corals to light limitation in turbid environments
title_sort physiological and skeletal morphological responses of corals to light limitation in turbid environments
publisher Nanyang Technological University
publishDate 2024
url https://hdl.handle.net/10356/174807
_version_ 1800916178265178112

Similar Items