Home > Research > Publications & Outputs > The importance of structural complexity in cora...

Text available via DOI:

View graph of relations

The importance of structural complexity in coral reef ecosystems

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Published

Standard

The importance of structural complexity in coral reef ecosystems. / Graham, N. A. J.; Nash, K. L.
In: Coral Reefs, Vol. 32, No. 2, 06.2013, p. 315-326.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

APA

Vancouver

Graham NAJ, Nash KL. The importance of structural complexity in coral reef ecosystems. Coral Reefs. 2013 Jun;32(2):315-326. doi: 10.1007/s00338-012-0984-y

Author

Graham, N. A. J. ; Nash, K. L. / The importance of structural complexity in coral reef ecosystems. In: Coral Reefs. 2013 ; Vol. 32, No. 2. pp. 315-326.

Bibtex

@article{0a6a069e383d4052811ed193eb326a1d,
title = "The importance of structural complexity in coral reef ecosystems",
abstract = "The importance of structural complexity in coral reefs has come to the fore with the global degradation of reef condition; however, the limited scale and replication of many studies have restricted our understanding of the role of complexity in the ecosystem. We qualitatively and quantitatively (where sufficient standardised data were available) assess the literature regarding the role of structural complexity in coral reef ecosystems. A rapidly increasing number of publications have studied the role of complexity in reef ecosystems over the past four decades, with a concomitant increase in the diversity of methods used to quantify structure. Quantitative analyses of existing data indicate a strong negative relationship between structural complexity and algal cover, which may reflect the important role complexity plays in enhancing herbivory by reef fishes. The cover of total live coral and branching coral was positively correlated with structural complexity. These habitat attributes may be creating much of the structure, resulting in a collinear relationship; however, there is also evidence of enhanced coral recovery from disturbances where structural complexity is high. Urchin densities were negatively correlated with structural complexity; a relationship that may be driven by urchins eroding reef structure or by their gregarious behaviour when in open space. There was a strong positive relationship between structural complexity and fish density and biomass, likely mediated through density-dependent competition and refuge from predation. More variable responses were found when assessing individual fish families, with all families examined displaying a positive relationship to structural complexity, but only half of these relationships were significant. Although only corroborated with qualitative data, structural complexity also seems to have a positive effect on two ecosystem services: tourism and shoreline protection. Clearly, structural complexity is an integral component of coral reef ecosystems, and it should be incorporated into monitoring programs and management objectives.",
keywords = "Coral reef ecology, Coral reef fishes, Ecosystem function, Diversity, Marine protected areas, Ecological methods, MARINE PROTECTED AREAS, GREAT-BARRIER-REEF, EPIFAUNAL COMMUNITY STRUCTURE, URCHIN DIADEMA-ANTILLARUM, REGION-WIDE DECLINES, FISH COMMUNITIES, HABITAT COMPLEXITY, ACANTHASTER-PLANCI, SPECIES RICHNESS, MASS MORTALITY",
author = "Graham, {N. A. J.} and Nash, {K. L.}",
year = "2013",
month = jun,
doi = "10.1007/s00338-012-0984-y",
language = "English",
volume = "32",
pages = "315--326",
journal = "Coral Reefs",
issn = "0722-4028",
publisher = "Springer-Verlag",
number = "2",

}

RIS

TY - JOUR

T1 - The importance of structural complexity in coral reef ecosystems

AU - Graham, N. A. J.

AU - Nash, K. L.

PY - 2013/6

Y1 - 2013/6

N2 - The importance of structural complexity in coral reefs has come to the fore with the global degradation of reef condition; however, the limited scale and replication of many studies have restricted our understanding of the role of complexity in the ecosystem. We qualitatively and quantitatively (where sufficient standardised data were available) assess the literature regarding the role of structural complexity in coral reef ecosystems. A rapidly increasing number of publications have studied the role of complexity in reef ecosystems over the past four decades, with a concomitant increase in the diversity of methods used to quantify structure. Quantitative analyses of existing data indicate a strong negative relationship between structural complexity and algal cover, which may reflect the important role complexity plays in enhancing herbivory by reef fishes. The cover of total live coral and branching coral was positively correlated with structural complexity. These habitat attributes may be creating much of the structure, resulting in a collinear relationship; however, there is also evidence of enhanced coral recovery from disturbances where structural complexity is high. Urchin densities were negatively correlated with structural complexity; a relationship that may be driven by urchins eroding reef structure or by their gregarious behaviour when in open space. There was a strong positive relationship between structural complexity and fish density and biomass, likely mediated through density-dependent competition and refuge from predation. More variable responses were found when assessing individual fish families, with all families examined displaying a positive relationship to structural complexity, but only half of these relationships were significant. Although only corroborated with qualitative data, structural complexity also seems to have a positive effect on two ecosystem services: tourism and shoreline protection. Clearly, structural complexity is an integral component of coral reef ecosystems, and it should be incorporated into monitoring programs and management objectives.

AB - The importance of structural complexity in coral reefs has come to the fore with the global degradation of reef condition; however, the limited scale and replication of many studies have restricted our understanding of the role of complexity in the ecosystem. We qualitatively and quantitatively (where sufficient standardised data were available) assess the literature regarding the role of structural complexity in coral reef ecosystems. A rapidly increasing number of publications have studied the role of complexity in reef ecosystems over the past four decades, with a concomitant increase in the diversity of methods used to quantify structure. Quantitative analyses of existing data indicate a strong negative relationship between structural complexity and algal cover, which may reflect the important role complexity plays in enhancing herbivory by reef fishes. The cover of total live coral and branching coral was positively correlated with structural complexity. These habitat attributes may be creating much of the structure, resulting in a collinear relationship; however, there is also evidence of enhanced coral recovery from disturbances where structural complexity is high. Urchin densities were negatively correlated with structural complexity; a relationship that may be driven by urchins eroding reef structure or by their gregarious behaviour when in open space. There was a strong positive relationship between structural complexity and fish density and biomass, likely mediated through density-dependent competition and refuge from predation. More variable responses were found when assessing individual fish families, with all families examined displaying a positive relationship to structural complexity, but only half of these relationships were significant. Although only corroborated with qualitative data, structural complexity also seems to have a positive effect on two ecosystem services: tourism and shoreline protection. Clearly, structural complexity is an integral component of coral reef ecosystems, and it should be incorporated into monitoring programs and management objectives.

KW - Coral reef ecology

KW - Coral reef fishes

KW - Ecosystem function

KW - Diversity

KW - Marine protected areas

KW - Ecological methods

KW - MARINE PROTECTED AREAS

KW - GREAT-BARRIER-REEF

KW - EPIFAUNAL COMMUNITY STRUCTURE

KW - URCHIN DIADEMA-ANTILLARUM

KW - REGION-WIDE DECLINES

KW - FISH COMMUNITIES

KW - HABITAT COMPLEXITY

KW - ACANTHASTER-PLANCI

KW - SPECIES RICHNESS

KW - MASS MORTALITY

U2 - 10.1007/s00338-012-0984-y

DO - 10.1007/s00338-012-0984-y

M3 - Journal article

VL - 32

SP - 315

EP - 326

JO - Coral Reefs

JF - Coral Reefs

SN - 0722-4028

IS - 2

ER -