Predicting Responses of Geo-ecological Carbonate Reef Systems to Climate Change: A Conceptual Model and Review

Nicola K. Browne; Michael Cuttler; Katie Moon; Kyle Morgan; Claire L. Ross; Carolina Castro-Sanguino; Emma Kennedy; Dan Harris; Peter Barnes; Andrew G Bauman; Eddie Beetham; Joshua Bonesso; Yves-Marie Bozec; Christopher E. Cornwall; Shannon Dee; Thomas M. DeCarlo; Juan P. D'Olivo; Christopher Doropoulos; Richard D. Evans; Bradley Eyre; Peter Gatenby; Manuel Gonzalez; Sarah Hamylton; Jeff Hansen; Ryan Lowe; Jennie Mallela; Michael O'Leary; George Roff; Benjamin J. Saunders; Adi Zweilfer

Predicting Responses of Geo-ecological Carbonate Reef Systems to Climate Change: A Conceptual Model and Review

Nicola K. Browne
, Michael Cuttler
, Katie Moon
, Kyle Morgan
, Claire L. Ross
, Carolina Castro-Sanguino
, Emma Kennedy
, Dan Harris
, Peter Barnes
, Andrew G Bauman
, Eddie Beetham
, Joshua Bonesso
, Yves-Marie Bozec
, Christopher E. Cornwall
, Shannon Dee
, Thomas M. DeCarlo
, Juan P. D'Olivo
, Christopher Doropoulos
, Richard D. Evans
, Bradley Eyre

Peter Gatenby, Manuel Gonzalez, Sarah Hamylton, Jeff Hansen, Ryan Lowe, Jennie Mallela, Michael O'Leary, George Roff, Benjamin J. Saunders, Adi Zweilfer

Research output: Chapter in Book/Report/Conference proceeding › Chapter

Abstract

[Chapter Abstract] 230Coral reefs provide critical ecological and geomorphic (e.g. sediment production for reef-fronted shoreline maintenance) services, which interact in complex and dynamic ways. These services are under threat from climate change, requiring dynamic modelling approaches that predict how reef systems will respond to different future climate scenarios. Carbonate budgets, which estimate net reef calcium carbonate production, provide a comprehensive ‘snap-shot’ assessment of reef accretionary potential and reef stability. These budgets, however, were not intended to account for the full suite of processes that maintain coral reef services or to provide predictive capacity on longer timescales (decadal to centennial). To respond to the dual challenges of enhancing carbonate budget assessments and advancing their predictive capacity, we applied a novel model elicitation and review method to create a qualitative geo-ecological carbonate reef system model that links geomorphic, ecological and physical processes. Our approach conceptualizes relationships between net carbonate production, sediment transport and landform stability, and rates knowledge confidence to reveal major knowledge gaps and critical future research pathways. The model provides a blueprint for future coral reef research that aims to quantify net carbonate production and sediment dynamics, improving our capacity to predict responses of reefs and reef-fronted shorelines to future climate change.

Original language	American English
Title of host publication	Oceanography and Marine Biology
Subtitle of host publication	An Annual Review
Editors	Stephen J. Hawkins, A. J. Lemasson, A. L. Allcock, A. E. Bates, M Byrne, A. J. Evans, L. B. Firth, E. Marzinelli, B. Russell, I. Smith, S. Swearer, P. Todd
Publisher	CRC Press
Volume	59
Edition	1
ISBN (Electronic)	9781003138846
State	Published - Jan 1 2022
Externally published	Yes

ASJC Scopus Subject Areas

Earth and Planetary Sciences (miscellaneous)
Environmental Science (miscellaneous)
Renewable Energy, Sustainability and the Environment

Disciplines

Life Sciences
Marine Biology

Access to Document

Predicting Responses of Geo-ecological Carbonate Reef Systems toFinal published version, 3.32 MBLicense: CC BY-NC-ND

Cite this

Browne, N. K., Cuttler, M., Moon, K., Morgan, K., Ross, C. L., Castro-Sanguino, C., Kennedy, E., Harris, D., Barnes, P., Bauman, A. G., Beetham, E., Bonesso, J., Bozec, Y.-M., Cornwall, C. E., Dee, S., DeCarlo, T. M., D'Olivo, J. P., Doropoulos, C., Evans, R. D., ... Zweilfer, A. (2022). Predicting Responses of Geo-ecological Carbonate Reef Systems to Climate Change: A Conceptual Model and Review. In S. J. Hawkins, A. J. Lemasson, A. L. Allcock, A. E. Bates, M. Byrne, A. J. Evans, L. B. Firth, E. Marzinelli, B. Russell, I. Smith, S. Swearer, & P. Todd (Eds.), Oceanography and Marine Biology: An Annual Review (1 ed., Vol. 59). CRC Press.

Predicting Responses of Geo-ecological Carbonate Reef Systems to Climate Change: A Conceptual Model and Review. / Browne, Nicola K.; Cuttler, Michael; Moon, Katie et al.
Oceanography and Marine Biology: An Annual Review. ed. / Stephen J. Hawkins; A. J. Lemasson; A. L. Allcock; A. E. Bates; M Byrne; A. J. Evans; L. B. Firth; E. Marzinelli; B. Russell; I. Smith; S. Swearer; P. Todd. Vol. 59 1. ed. CRC Press, 2022.

Research output: Chapter in Book/Report/Conference proceeding › Chapter

Browne, NK, Cuttler, M, Moon, K, Morgan, K, Ross, CL, Castro-Sanguino, C, Kennedy, E, Harris, D, Barnes, P, Bauman, AG, Beetham, E, Bonesso, J, Bozec, Y-M, Cornwall, CE, Dee, S, DeCarlo, TM, D'Olivo, JP, Doropoulos, C, Evans, RD, Eyre, B, Gatenby, P, Gonzalez, M, Hamylton, S, Hansen, J, Lowe, R, Mallela, J, O'Leary, M, Roff, G, Saunders, BJ & Zweilfer, A 2022, Predicting Responses of Geo-ecological Carbonate Reef Systems to Climate Change: A Conceptual Model and Review. in SJ Hawkins, AJ Lemasson, AL Allcock, AE Bates, M Byrne, AJ Evans, LB Firth, E Marzinelli, B Russell, I Smith, S Swearer & P Todd (eds), Oceanography and Marine Biology: An Annual Review. 1 edn, vol. 59, CRC Press.

Browne NK, Cuttler M, Moon K, Morgan K, Ross CL, Castro-Sanguino C et al. Predicting Responses of Geo-ecological Carbonate Reef Systems to Climate Change: A Conceptual Model and Review. In Hawkins SJ, Lemasson AJ, Allcock AL, Bates AE, Byrne M, Evans AJ, Firth LB, Marzinelli E, Russell B, Smith I, Swearer S, Todd P, editors, Oceanography and Marine Biology: An Annual Review. 1 ed. Vol. 59. CRC Press. 2022

Browne, Nicola K. ; Cuttler, Michael ; Moon, Katie et al. / Predicting Responses of Geo-ecological Carbonate Reef Systems to Climate Change: A Conceptual Model and Review. Oceanography and Marine Biology: An Annual Review. editor / Stephen J. Hawkins ; A. J. Lemasson ; A. L. Allcock ; A. E. Bates ; M Byrne ; A. J. Evans ; L. B. Firth ; E. Marzinelli ; B. Russell ; I. Smith ; S. Swearer ; P. Todd. Vol. 59 1. ed. CRC Press, 2022.

@inbook{22e2bf111bb54c0d83066fd5c89b8224,

title = "Predicting Responses of Geo-ecological Carbonate Reef Systems to Climate Change: A Conceptual Model and Review",

abstract = " [Chapter Abstract] 230Coral reefs provide critical ecological and geomorphic (e.g. sediment production for reef-fronted shoreline maintenance) services, which interact in complex and dynamic ways. These services are under threat from climate change, requiring dynamic modelling approaches that predict how reef systems will respond to different future climate scenarios. Carbonate budgets, which estimate net reef calcium carbonate production, provide a comprehensive {\textquoteleft}snap-shot{\textquoteright} assessment of reef accretionary potential and reef stability. These budgets, however, were not intended to account for the full suite of processes that maintain coral reef services or to provide predictive capacity on longer timescales (decadal to centennial). To respond to the dual challenges of enhancing carbonate budget assessments and advancing their predictive capacity, we applied a novel model elicitation and review method to create a qualitative geo-ecological carbonate reef system model that links geomorphic, ecological and physical processes. Our approach conceptualizes relationships between net carbonate production, sediment transport and landform stability, and rates knowledge confidence to reveal major knowledge gaps and critical future research pathways. The model provides a blueprint for future coral reef research that aims to quantify net carbonate production and sediment dynamics, improving our capacity to predict responses of reefs and reef-fronted shorelines to future climate change.",

author = "Browne, \{Nicola K.\} and Michael Cuttler and Katie Moon and Kyle Morgan and Ross, \{Claire L.\} and Carolina Castro-Sanguino and Emma Kennedy and Dan Harris and Peter Barnes and Bauman, \{Andrew G\} and Eddie Beetham and Joshua Bonesso and Yves-Marie Bozec and Cornwall, \{Christopher E.\} and Shannon Dee and DeCarlo, \{Thomas M.\} and D'Olivo, \{Juan P.\} and Christopher Doropoulos and Evans, \{Richard D.\} and Bradley Eyre and Peter Gatenby and Manuel Gonzalez and Sarah Hamylton and Jeff Hansen and Ryan Lowe and Jennie Mallela and Michael O'Leary and George Roff and Saunders, \{Benjamin J.\} and Adi Zweilfer",

year = "2022",

month = jan,

day = "1",

language = "American English",

volume = "59",

editor = "Hawkins, \{Stephen J.\} and Lemasson, \{A. J.\} and Allcock, \{A. L.\} and Bates, \{A. E. \} and M Byrne and Evans, \{A. J.\} and Firth, \{L. B.\} and E. Marzinelli and B. Russell and I. Smith and S. Swearer and P. Todd",

booktitle = "Oceanography and Marine Biology",

publisher = "CRC Press",

edition = "1",

}

TY - CHAP

T1 - Predicting Responses of Geo-ecological Carbonate Reef Systems to Climate Change: A Conceptual Model and Review

AU - Browne, Nicola K.

AU - Cuttler, Michael

AU - Moon, Katie

AU - Morgan, Kyle

AU - Ross, Claire L.

AU - Castro-Sanguino, Carolina

AU - Kennedy, Emma

AU - Harris, Dan

AU - Barnes, Peter

AU - Bauman, Andrew G

AU - Beetham, Eddie

AU - Bonesso, Joshua

AU - Bozec, Yves-Marie

AU - Cornwall, Christopher E.

AU - Dee, Shannon

AU - DeCarlo, Thomas M.

AU - D'Olivo, Juan P.

AU - Doropoulos, Christopher

AU - Evans, Richard D.

AU - Eyre, Bradley

AU - Gatenby, Peter

AU - Gonzalez, Manuel

AU - Hamylton, Sarah

AU - Hansen, Jeff

AU - Lowe, Ryan

AU - Mallela, Jennie

AU - O'Leary, Michael

AU - Roff, George

AU - Saunders, Benjamin J.

AU - Zweilfer, Adi

PY - 2022/1/1

Y1 - 2022/1/1

N2 - [Chapter Abstract] 230Coral reefs provide critical ecological and geomorphic (e.g. sediment production for reef-fronted shoreline maintenance) services, which interact in complex and dynamic ways. These services are under threat from climate change, requiring dynamic modelling approaches that predict how reef systems will respond to different future climate scenarios. Carbonate budgets, which estimate net reef calcium carbonate production, provide a comprehensive ‘snap-shot’ assessment of reef accretionary potential and reef stability. These budgets, however, were not intended to account for the full suite of processes that maintain coral reef services or to provide predictive capacity on longer timescales (decadal to centennial). To respond to the dual challenges of enhancing carbonate budget assessments and advancing their predictive capacity, we applied a novel model elicitation and review method to create a qualitative geo-ecological carbonate reef system model that links geomorphic, ecological and physical processes. Our approach conceptualizes relationships between net carbonate production, sediment transport and landform stability, and rates knowledge confidence to reveal major knowledge gaps and critical future research pathways. The model provides a blueprint for future coral reef research that aims to quantify net carbonate production and sediment dynamics, improving our capacity to predict responses of reefs and reef-fronted shorelines to future climate change.

AB - [Chapter Abstract] 230Coral reefs provide critical ecological and geomorphic (e.g. sediment production for reef-fronted shoreline maintenance) services, which interact in complex and dynamic ways. These services are under threat from climate change, requiring dynamic modelling approaches that predict how reef systems will respond to different future climate scenarios. Carbonate budgets, which estimate net reef calcium carbonate production, provide a comprehensive ‘snap-shot’ assessment of reef accretionary potential and reef stability. These budgets, however, were not intended to account for the full suite of processes that maintain coral reef services or to provide predictive capacity on longer timescales (decadal to centennial). To respond to the dual challenges of enhancing carbonate budget assessments and advancing their predictive capacity, we applied a novel model elicitation and review method to create a qualitative geo-ecological carbonate reef system model that links geomorphic, ecological and physical processes. Our approach conceptualizes relationships between net carbonate production, sediment transport and landform stability, and rates knowledge confidence to reveal major knowledge gaps and critical future research pathways. The model provides a blueprint for future coral reef research that aims to quantify net carbonate production and sediment dynamics, improving our capacity to predict responses of reefs and reef-fronted shorelines to future climate change.

UR - https://nsuworks.nova.edu/occ_facbooks/115

M3 - Chapter

VL - 59

BT - Oceanography and Marine Biology

A2 - Hawkins, Stephen J.

A2 - Lemasson, A. J.

A2 - Allcock, A. L.

A2 - Bates, A. E.

A2 - Byrne, M

A2 - Evans, A. J.

A2 - Firth, L. B.

A2 - Marzinelli, E.

A2 - Russell, B.

A2 - Smith, I.

A2 - Swearer, S.

A2 - Todd, P.

PB - CRC Press

ER -

Predicting Responses of Geo-ecological Carbonate Reef Systems to Climate Change: A Conceptual Model and Review

Abstract

ASJC Scopus Subject Areas

Disciplines

Access to Document

Other files and links

Fingerprint

Cite this