Herbivory and sea urchin predation for ecosystem resilience By Charlotte Johansson, David Bellwood and Martial Depczynski.

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Presentation transcript:

Herbivory and sea urchin predation for ecosystem resilience By Charlotte Johansson, David Bellwood and Martial Depczynski

Introduction  Coral reefs under pressure  Human impacts  Increasing disturbance to reefs  Loss of vital functions (ecological roles)  Gradual erosion of resilience

Introduction Resilience “the capacity of a system to absorb disturbance and reorganize while undergoing change so as to still retain essentially the same function, structure, identity and feedbacks” (Walker et al 2004) To understand how ecosystem processes will be affected by disturbances we need to look at the species that contribute to them and what the strength of their combined functional role is

Introduction  Functions are;  Processes (feeding) – movement or storage of materials or energy (Bellwood et al 2004)  Functional groups;  A collection of species that perform or influence the same function, irrespective of their taxonomic affinities (e.g. herbivores, nitrogen fixers etc) (Bellwood et al 2004)

Introduction 4 roving herbivorous groups Macroalgae BrowsersGrazersScrapersExcavators Herbivores Turfalgae

Introduction Fine scale approach when evaluating resilience: 1.Alternative organism (coral/algae) 2.Herbivorous fish  Functional redundancy (same functional role)  Functional diversity (different functional role)  Responses 3.Non-fish herbivores (sea urchins)

Aim 1.Quantify the distribution of:  Macroalgae  Herbivorous fish  Non-fish herbivores (sea urchins) 2.Evaluate the extent to which herbivorous fish and urchins are likely to control macroalgae

Study location Ningaloo Reef, Western Australia

1. Alternative organisms

2. Herbivorous fish Density of herbivores

2. Herbivorous fish Abundance (%) Grazers Excavators Lagoon Back Slope

3. Non-fish herbivores

 Important role on Ningaloo Reef  What is driving the pattern of urchins, especially on the slope  Is it a lack of predators?  Urchins = reef degradation

3. Non-fish herbivores

Conclusion  Macroalgae abundant in lagoon (despite herbivores)  Urchins abundant on slope (despite predators - except specialist balistids)  Urchins and algae often signs of degradation - here they appear to not be  Ningaloo Reef, although relatively intact, appears to be functionally distinct to other reef systems

Acknowledgements  Prof D. Bellwood, Dr. M. Depczynski, Dr. A. Hoey and I. van de Leemput  JCU, ARC Centre of Excellence  AIMS, DEC  Colleagues in the lab and field