Reef accumulation is decoupled from recent degradation in the central and southern Red Sea

Nicholas M. Hammerman; George Roff; Alberto Rodriguez-Ramirez; Nicole Leonard; Timothy L. Staples; Gal Eyal; Susann Rossbach; Michelle N. Havlik; Vincent Saderne; Jian xin Zhao; Carlos M. Duarte; John M. Pandolfi

doi:10.1016/j.scitotenv.2021.151176

Reef accumulation is decoupled from recent degradation in the central and southern Red Sea

Nicholas M. Hammerman, George Roff, Alberto Rodriguez-Ramirez, Nicole Leonard, Timothy L. Staples, Gal Eyal, Susann Rossbach, Michelle N. Havlik, Vincent Saderne, Jian xin Zhao, Carlos M. Duarte, John M. Pandolfi

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

Reefs are biogenic structures that result in three-dimensional accumulations of calcium carbonate. Over geological timescales, a positive balance between the production and accumulation of calcium carbonate versus erosional and off-reef transport processes maintains positive net accretion on reefs. Yet, how ecological processes occurring over decadal timescales translate to the accumulation of geological structures is poorly understood, in part due to a lack of studies with detailed time-constrained chronologies of reef accretion over decades to centuries. Here, we combined ecological surveys of living reefs with palaeoecological reconstructions and high-precision radiometric (U-Th) age-dating of fossil reefs represented in both reef sediment cores and surficial dead in situ corals, to reconstruct the history of community composition and carbonate accumulation across the central and southern Saudi Arabian Red Sea throughout the late Holocene. We found that reefs were primarily comprised of thermally tolerant massive Porites colonies, creating a consolidated coral framework, with unconsolidated branching coral rubble accumulating among massive corals on shallow (5–8 m depth) exposed (windward), and gently sloping reef slopes. These unconsolidated reef rubble fields were formed primarily from ex situ Acropora and Pocillopora coral fragments, infilled post deposition within a sedimentary matrix. Bayesian age-depth models revealed a process of punctuated deposition of post-mortem coral fragments transported from adjacent reef environments. That a large portion of Saudi Arabian Red Sea reef slopes is driven by allochthonous deposition (transportation) has important implications for modeling carbonate budgets and reef growth. In addition, a multi-decadal lag exists between the time of death for branching in situ coral and incorporation into the unconsolidated reef rubble. This indicates that recent climate related degradation in the 21st century has not had an immediately negative effect on reef building processes affecting a large portion of the reef area in the Saudi Arabian Red Sea.

Original language	English
Article number	151176
Journal	Science of the Total Environment
Volume	809
DOIs	https://doi.org/10.1016/j.scitotenv.2021.151176
State	Published - 25 Feb 2022
Externally published	Yes

Bibliographical note

Funding Information:
This research was supported by funding from a collaborative subaward agreement between the King Abdullah University of Science and Technology (KAUST) and The University of Queensland (UQ) awarded to J.M.P. and C.M.D. ( OSR-2018-CARF-1973-03 ) and the ARC Centre of Excellence for Coral Reef Studies grant to J.M.P. and others ( CE140100020 ). We thank the crew and technicians aboard the R/V Thuwal stationed at KAUST for our first field excursion in Saudi Arabia; K. Rowe, S. Persson and A. Gusti for help in the field for both trips; A. Nguyen, Y. Feng and F. Liu from the Radiogenic Isotope Facility (UQ); G. Xia from the Earth Science Sample Preparation Laboratory (UQ); and K. Zwiep, N. Gutierrez, S. Kim, K. Gomez-Cabrera, C. Chong-Montenegro, H. Markham and C. Sims from the Marine Palaeoecology Lab (UQ). N.M.H. was supported with a University of Queensland Research Training Scholarship.

Funding Information:
This research was supported by funding from a collaborative subaward agreement between the King Abdullah University of Science and Technology (KAUST) and The University of Queensland (UQ) awarded to J.M.P. and C.M.D. (OSR-2018-CARF-1973-03) and the ARC Centre of Excellence for Coral Reef Studies grant to J.M.P. and others (CE140100020). We thank the crew and technicians aboard the R/V Thuwal stationed at KAUST for our first field excursion in Saudi Arabia; K. Rowe, S. Persson and A. Gusti for help in the field for both trips; A. Nguyen, Y. Feng and F. Liu from the Radiogenic Isotope Facility (UQ); G. Xia from the Earth Science Sample Preparation Laboratory (UQ); and K. Zwiep, N. Gutierrez, S. Kim, K. Gomez-Cabrera, C. Chong-Montenegro, H. Markham and C. Sims from the Marine Palaeoecology Lab (UQ). N.M.H. was supported with a University of Queensland Research Training Scholarship.

Publisher Copyright:
© 2021 Elsevier B.V.

Keywords

Paleoecology
Radiometric (U-Th) age-dating
Reef accumulation
Reef sediment cores
Unconsolidated rubble

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.scitotenv.2021.151176

Cite this

Hammerman, N. M., Roff, G., Rodriguez-Ramirez, A., Leonard, N., Staples, T. L., Eyal, G., Rossbach, S., Havlik, M. N., Saderne, V., Zhao, J. X., Duarte, C. M., & Pandolfi, J. M. (2022). Reef accumulation is decoupled from recent degradation in the central and southern Red Sea. Science of the Total Environment, 809, Article 151176. https://doi.org/10.1016/j.scitotenv.2021.151176

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abstract = "Reefs are biogenic structures that result in three-dimensional accumulations of calcium carbonate. Over geological timescales, a positive balance between the production and accumulation of calcium carbonate versus erosional and off-reef transport processes maintains positive net accretion on reefs. Yet, how ecological processes occurring over decadal timescales translate to the accumulation of geological structures is poorly understood, in part due to a lack of studies with detailed time-constrained chronologies of reef accretion over decades to centuries. Here, we combined ecological surveys of living reefs with palaeoecological reconstructions and high-precision radiometric (U-Th) age-dating of fossil reefs represented in both reef sediment cores and surficial dead in situ corals, to reconstruct the history of community composition and carbonate accumulation across the central and southern Saudi Arabian Red Sea throughout the late Holocene. We found that reefs were primarily comprised of thermally tolerant massive Porites colonies, creating a consolidated coral framework, with unconsolidated branching coral rubble accumulating among massive corals on shallow (5–8 m depth) exposed (windward), and gently sloping reef slopes. These unconsolidated reef rubble fields were formed primarily from ex situ Acropora and Pocillopora coral fragments, infilled post deposition within a sedimentary matrix. Bayesian age-depth models revealed a process of punctuated deposition of post-mortem coral fragments transported from adjacent reef environments. That a large portion of Saudi Arabian Red Sea reef slopes is driven by allochthonous deposition (transportation) has important implications for modeling carbonate budgets and reef growth. In addition, a multi-decadal lag exists between the time of death for branching in situ coral and incorporation into the unconsolidated reef rubble. This indicates that recent climate related degradation in the 21st century has not had an immediately negative effect on reef building processes affecting a large portion of the reef area in the Saudi Arabian Red Sea.",

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AU - Staples, Timothy L.

AU - Eyal, Gal

AU - Rossbach, Susann

AU - Havlik, Michelle N.

AU - Saderne, Vincent

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AU - Duarte, Carlos M.

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Reef accumulation is decoupled from recent degradation in the central and southern Red Sea

Abstract

Bibliographical note

Keywords

UN SDGs

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