Saved in:
Bibliographic Details
Main Authors: Sayed, Alaa El-Din H, Omer, Mohsen Y, Farrag, Almountasirbellah, Said, Rashad E M, Soliman, Hamdy A M, Bakr, Zeinab, Khaled, Mostafa A, El-Aal, Mohamed Abd, Saad, Eman, Hamed, Mohamed
Format: Artículo científico
Language:en
Published: Marine pollution bulletin 2026
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/40845516/
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1868266162720079874
author Sayed, Alaa El-Din H
Omer, Mohsen Y
Farrag, Almountasirbellah
Said, Rashad E M
Soliman, Hamdy A M
Bakr, Zeinab
Khaled, Mostafa A
El-Aal, Mohamed Abd
Saad, Eman
Hamed, Mohamed
author_facet Sayed, Alaa El-Din H
Omer, Mohsen Y
Farrag, Almountasirbellah
Said, Rashad E M
Soliman, Hamdy A M
Bakr, Zeinab
Khaled, Mostafa A
El-Aal, Mohamed Abd
Saad, Eman
Hamed, Mohamed
Sayed, Alaa El-Din H
Omer, Mohsen Y
Farrag, Almountasirbellah
Said, Rashad E M
Soliman, Hamdy A M
Bakr, Zeinab
Khaled, Mostafa A
El-Aal, Mohamed Abd
Saad, Eman
Hamed, Mohamed
collection PubMed - marine biology
contents Interactive effects of black sand and heat stress on coral reefs at Red Sea, Egypt. Sayed, Alaa El-Din H Omer, Mohsen Y Farrag, Almountasirbellah Said, Rashad E M Soliman, Hamdy A M Bakr, Zeinab Khaled, Mostafa A El-Aal, Mohamed Abd Saad, Eman Hamed, Mohamed Coral Reefs Animals Egypt Anthozoa Indian Ocean Sand Hot Temperature Oxidative Stress Climate Change Heat-Shock Response Environmental Monitoring Coral reefs, vital marine ecosystems, face increasing threats from climate change and localized stressors like black sand deposits, yet their combined impacts are underexplored. This pioneering study investigates the synergistic effects of rising temperatures and black sand on reef-building corals in the Red Sea, Egypt, focusing on Stylophora pistillata and Acropora hyacinthus. Coral samples were collected from Hurghada and exposed to a three-day laboratory experiment involving thermal stress (31 °C), black sand (300 mg/L), nano black sand (300 mg/L), and combinations thereof. Key biochemical markers, including malondialdehyde (MDA), catalase (CAT), total antioxidant capacity (TAC), superoxide dismutase (SOD), total protein, lysozyme activity (LYZ), and metallothionein, were analyzed to assess oxidative stress and antioxidant responses. Additionally, thermal stress trends were evaluated using Degree Heating Weeks (DHW) derived from satellite sea surface temperature data (2022-2024), and coral composition was characterized geochemically. Results revealed a significant rise in DHW, particularly near northern reef areas, indicating heightened thermal stress. Both coral species exhibited comparable responses, with combined treatments (thermal stress with black sand or nano black sand) intensifying oxidative damage and reducing antioxidant defenses. Geochemical analyses showed no significant changes in coral composition post-treatment. These findings underscore the exacerbating role of black sand in amplifying thermal stress, threatening coral health and resilience. Urgent conservation measures, including monitoring black sand impacts and mitigating coastal stressors, are critical to prevent widespread bleaching and mortality in Red Sea coral reefs, especially under ongoing climate change pressures.
format Artículo científico
id pubmed_40845516
institution PubMed
language en
publishDate 2026
publisher Marine pollution bulletin
record_format pubmed
spellingShingle Interactive effects of black sand and heat stress on coral reefs at Red Sea, Egypt.
Sayed, Alaa El-Din H
Omer, Mohsen Y
Farrag, Almountasirbellah
Said, Rashad E M
Soliman, Hamdy A M
Bakr, Zeinab
Khaled, Mostafa A
El-Aal, Mohamed Abd
Saad, Eman
Hamed, Mohamed
Coral Reefs
Animals
Egypt
Anthozoa
Indian Ocean
Sand
Hot Temperature
Oxidative Stress
Climate Change
Heat-Shock Response
Environmental Monitoring
Interactive effects of black sand and heat stress on coral reefs at Red Sea, Egypt. Sayed, Alaa El-Din H Omer, Mohsen Y Farrag, Almountasirbellah Said, Rashad E M Soliman, Hamdy A M Bakr, Zeinab Khaled, Mostafa A El-Aal, Mohamed Abd Saad, Eman Hamed, Mohamed Coral Reefs Animals Egypt Anthozoa Indian Ocean Sand Hot Temperature Oxidative Stress Climate Change Heat-Shock Response Environmental Monitoring Coral reefs, vital marine ecosystems, face increasing threats from climate change and localized stressors like black sand deposits, yet their combined impacts are underexplored. This pioneering study investigates the synergistic effects of rising temperatures and black sand on reef-building corals in the Red Sea, Egypt, focusing on Stylophora pistillata and Acropora hyacinthus. Coral samples were collected from Hurghada and exposed to a three-day laboratory experiment involving thermal stress (31 °C), black sand (300 mg/L), nano black sand (300 mg/L), and combinations thereof. Key biochemical markers, including malondialdehyde (MDA), catalase (CAT), total antioxidant capacity (TAC), superoxide dismutase (SOD), total protein, lysozyme activity (LYZ), and metallothionein, were analyzed to assess oxidative stress and antioxidant responses. Additionally, thermal stress trends were evaluated using Degree Heating Weeks (DHW) derived from satellite sea surface temperature data (2022-2024), and coral composition was characterized geochemically. Results revealed a significant rise in DHW, particularly near northern reef areas, indicating heightened thermal stress. Both coral species exhibited comparable responses, with combined treatments (thermal stress with black sand or nano black sand) intensifying oxidative damage and reducing antioxidant defenses. Geochemical analyses showed no significant changes in coral composition post-treatment. These findings underscore the exacerbating role of black sand in amplifying thermal stress, threatening coral health and resilience. Urgent conservation measures, including monitoring black sand impacts and mitigating coastal stressors, are critical to prevent widespread bleaching and mortality in Red Sea coral reefs, especially under ongoing climate change pressures.
title Interactive effects of black sand and heat stress on coral reefs at Red Sea, Egypt.
topic Coral Reefs
Animals
Egypt
Anthozoa
Indian Ocean
Sand
Hot Temperature
Oxidative Stress
Climate Change
Heat-Shock Response
Environmental Monitoring
url https://pubmed.ncbi.nlm.nih.gov/40845516/