Tradeoffs between fisheries harvest and the resilience of coral reefs

Bozec, Yves‐Marie; O’Farrell, Shay; Bruggemann, J. Henrich; Luckhurst, Brian E.; Mumby, Peter J.

doi:10.1073/pnas.1601529113

Cited by 131 publications

(126 citation statements)

References 47 publications

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“…, Bozec et al. ). These studies have generally assumed that foraging behavior and diets of parrotfishes are strongly conserved phylogenetically.…”

Section: Introductionmentioning

confidence: 98%

“…In recognition of the importance of the ecological roles parrotfish play in coral reef resilience, previous work has sought to better understand the net ecological impacts of parrotfish herbivory on reef ecosystems (Mumby 2006, Perry et al 2013, Bozec et al 2016). These studies have generally assumed that foraging behavior and diets of parrotfishes are strongly conserved phylogenetically.…”

Section: Introductionmentioning

confidence: 99%

“…Importantly, parrotfishes are often the targets of fisheries throughout the Caribbean (Hawkins and Roberts 2004a, SERO-LAPP 2012, Vall es and Oxenford 2014, Bozec et al 2016. While these fisheries can be locally important both culturally and economically, fishery extraction may reduce the ecological impacts of targeted species by suppressing overall biomass and altering the species composition and size-structure of the parrotfish assemblage (Hawkins and Roberts 2004a).…”

Section: Introductionmentioning

confidence: 99%

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Identity of coral reef herbivores drives variation in ecological processes over multiple spatial scales

Ruttenberg

Adam

Durán

et al. 2019

Ecological Applications

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Overexploitation of key species can negatively impact ecosystem processes, so understanding the ecological roles of individual species is critical for improving ecosystem management. Here, we use coral reefs and the process of herbivory as a model to examine how species identity of consumers influence ecosystem processes to inform management of these consumers. Herbivorous fishes can facilitate the recruitment, growth, and recovery of corals by controlling the fast‐growing algae that can outcompete corals for space. However, herbivorous fish guilds are species rich with important differences among species in diet, movement, and habitat preferences. Yet, we lack a general understanding of (1) how these species‐specific differences in feeding and behavior scale up to reef‐wide rates of ecosystem processes and (2) how species identity and diversity impact these processes. To address these knowledge gaps, we used field observations to derive key species‐ and size‐specific foraging parameters for nine herbivorous parrotfish species on coral reefs in the Florida Keys, USA. We then combined these foraging parameters with fish survey data spanning multiple spatial scales to estimate the rates of three ecosystem processes: area of reef grazed, amount of macroalgae removed, and rate of bioerosion. We found that predicted rates of ecological processes varied dramatically among habitats and among reef zones within habitats, driven primarily by variation in abundance among species with different foraging behaviors. In some cases, assemblages with similar levels of total biomass had different rates of ecological processes, and in others, assemblages with different biomass had similar rates of ecological processes. Importantly, our models of herbivory using species‐specific parameters differed from those using genus‐level parameters by up to 300% in rates of ecological processes, highlighting the importance of herbivore identity in this system. Our results indicate that there may be little overlap in the roles species play, suggesting that some systems may be vulnerable to loss of ecological function with the reduction or loss of just a few species. This work provides a framework that can be applied across the region to predict how changes in management may affect the ecological impact of these important herbivores.

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“…, Bozec et al. ). These studies have generally assumed that foraging behavior and diets of parrotfishes are strongly conserved phylogenetically.…”

Section: Introductionmentioning

confidence: 98%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Identity of coral reef herbivores drives variation in ecological processes over multiple spatial scales

Ruttenberg

Adam

Durán

et al. 2019

Ecological Applications

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“…The forward and reverse shifts between alternative stable states exhibit hysteresis, in that they occur at different levels of forcing (Scheffer et al 2001, Scheffer andCarpenter 2003), which can make a return to the alternative state difficult once a shift has occurred. While the existence of alternative stable states can be difficult to demonstrate empirically because of the long time scales required (Petraitis andDudgeon 2004, Schr€ oder et al 2005), mathematical models can reveal the potential for hysteretic behavior, provide evidence of mechanistic drivers of community shifts, and estimate threshold values of important ecosystem state variables and/or parameters (Scheffer and Carpenter 2003, Mumby et al 2007, Baskett and Salomon 2010, Bozec et al 2016. Systems that exhibit alternative stable states often have strong feedbacks both within and across trophic levels that act to maintain a given state, including recruitment facilitation (Mumby et al 2007, Baskett andSalomon 2010) and predatorprey role reversals (Barkai andMcQuaid 1988, Walters andKitchell 2001).…”

Section: Introductionmentioning

confidence: 99%

Interactive Effects of Predator and Prey Harvest on Ecological Resilience of Rocky Reefs

Dunn¹,

Baskett²,

Hovel³

2017

Bulletin Ecologic Soc America

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One goal of ecosystem-based fisheries management is to prevent fisheryinduced shifts in community states. This requires an understanding of ecological resilience: the ability of an ecosystem to return to the same state following a perturbation. We developed a mathematical model of a temperate rocky reef to explore how simultaneous fisheries at multiple trophic levels impact ecological resilience. Increasing fishing mortality of herbivorous sea urchins increases reef resilience by reducing the range of spiny lobster harvest rates at which alternative stable states (macroalgal-dominated or urchin barren) are possible. Sizestructured predation on urchins acts as the feedback maintaining alternative states. Our results demonstrate that the resilience of ecosystems strongly depends on the interactive effects of predator and prey harvest in multi-trophic-level fisheries, which are common but unaccounted for by traditional fisheries management.

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“…A suite of 33 potential drivers were explored including ecological variables such as turf, macroalgae Bozec et al 2016) and coral recruitment (Doropoulos et al 2015), stochastic abiotic stressors such as storms (Connell 1997) and floods (Devlin et al 2001), as well as chronic anthropogenic influences from land-based runoff such as sedimentation (Rogers 1990;Fabricius 2005) (Table S 4 Reconstructed Sea Surface Temperature (ERSST) were also extracted to represent regional temperature effects (Wolter & Timlin 1993;Wolter & Timlin 1998;Huang et al 2015;Huang et al 2016). The Wet Tropics NRM includes three catchments: Daintree, Johnstone and Tully.…”

Section: Introductionmentioning

confidence: 99%

The Dynamics and Resilience of Coral Reefs

Lam¹

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A major goal in ecosystem management is to prevent shifts to undesirable states, and there is widespread interest in understanding, mapping, and quantifying resilience to support management decisions. With rapid changes taking place on coral reefs, managers and scientists are faced with a challenging task in prioritising interventions that help strengthen reef resilience. Resilience-based management (RBM) of coral reefs requires in-depth knowledge on the various components and feedback mechanisms of the ecosystem, and uses resilience theory to inform decisions. To date, there are mechanistic models that analyse and forecast the future of reefs, but being data intensive and requiring specialist knowledge, are not applicable to managers in most locations with limited data and analytical training. Hence, there is a need to develop approaches to acquire insights on resilience using monitoring data.The global decline of reefs to varying extents, underscores the importance of understanding how biophysical factors influence and shape reef community dynamics. Multiple environmental factors affect reef functioning, either positively or negatively, and the diversity and complexity of responses make it difficult to predict future reef trajectories. My thesis addresses the need to improve retrospective analyses of time-series monitoring data to suit management goals, such as resilience, by focusing on the data collection and analytical components of long-term monitoring programmes. In this thesis, I trialled two state-of-the-art methods to extract useful ecological information and identified drivers of coral reef trajectories from long-term monitoring data collected in the Great Barrier Reef, arguably one of the most comprehensive coral reef monitoring dataset in the world.In Chapter 1, I provide a theoretical overview of the issues related to resilience and identify the quantification approaches found within the coral reef field. By examining the current state of knowledge, a simple framework of resilience-related concepts is developed, followed by an analysis of approaches used to quantify reef resilience and vulnerability. Seven broad quantification approaches were identified under the three principle concepts of (1) ecological resilience (ecological resilience, precariousness and current attractor), (2) engineering resilience (short-term recovery rate and long-term reef performance), and (3) vulnerability (absolute and relative vulnerability) respectively.iii Resilience-based management (RBM) is a new approach to reef management that is being adopted by governmental institutions globally. However, there are no quantitative studies on how this has changed coral reef monitoring and assessment. In Chapter 2, I conducted a critical evaluation of how RBM has changed the way we monitor our reefs. Through a comparison of metrics used in conventional programmes with those developed specifically for resilience assessments, I show that resilience metrics are much more diverse and have a strong focus on ecological processe...

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Tradeoffs between fisheries harvest and the resilience of coral reefs

Cited by 131 publications

References 47 publications

Identity of coral reef herbivores drives variation in ecological processes over multiple spatial scales

Identity of coral reef herbivores drives variation in ecological processes over multiple spatial scales

Interactive Effects of Predator and Prey Harvest on Ecological Resilience of Rocky Reefs

The Dynamics and Resilience of Coral Reefs

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