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Positive and negative effects of a threatened parrotfish on reef ecosystems

TitlePositive and negative effects of a threatened parrotfish on reef ecosystems
Publication TypeJournal Article
Year of Publication2014
AuthorsMcCauley D.J, Young H.S, Guevara R., Williams GJ, Power E.A, Dunbar R.B, Bird D.W, Durham W.H, Micheli F.
JournalConservation Biology
Date Published2014/10
Type of ArticleArticle
ISBN Number0888-8892
Accession NumberWOS:000342668700001
Keywordsbenthic; Bolbometopon; capita interaction strength; cascades; competition; conservation; coral; coral-reefs; diversity; fish; function; Macroalgae; management; predation; shark populations; simulation; threatened species; Trophic

Species that are strong interactors play disproportionately important roles in the dynamics of natural ecosystems. It has been proposed that their presence is necessary for positively shaping the structure and functioning of ecosystems. We evaluated this hypothesis using the case of the world's largest parrotfish (Bolbometopon muricatum), a globally imperiled species. We used direct observation, animal tracking, and computer simulations to examine the diverse routes through which B. muricatum affects the diversity, dispersal, relative abundance, and survival of the corals that comprise the foundation of reef ecosystems. Our results suggest that this species can influence reef building corals in both positive and negative ways. Field observation and simulation outputs indicated that B. muricatum reduced the abundance of macroalgae that can outcompete corals, but they also feed directly on corals, decreasing coral abundance, diversity, and colony size. B. muricatum appeared to facilitate coral advancement by mechanically dispersing coral fragments and opening up bare space for coral settlement, but they also damaged adult corals and remobilized a large volume of potentially stressful carbonate sediment. The impacts this species has on reefs appears to be regulated in part by its abundancethe effects of B. muricatum were more intense in simulation scenarios populated with high densities of these fish. Observations conducted in regions with high and low predator (e.g., sharks) abundance generated results that are consistent with the hypothesis that these predators of B. muricatum may play a role in governing their abundance; thus, predation may modulate the intensity of the effects they have on reef dynamics. Overall our results illustrate that functionally unique and threatened species may not have universally positive impacts on ecosystems and that it may be necessary for environmental managers to consider the diverse effects of such species and the forces that mediate the strength of their influence. Efectos Positivos y Negativos de un Pez Loro Amenazado Sobre Ecosistemas Arrecifales

Short TitleConserv. Biol.
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