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Global environmental change impacts auditory behaviour and survival of larvae Dr Steve Simpson School of Biological Sciences University of Bristol.

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Presentation on theme: "Global environmental change impacts auditory behaviour and survival of larvae Dr Steve Simpson School of Biological Sciences University of Bristol."— Presentation transcript:

1 Global environmental change impacts auditory behaviour and survival of larvae Dr Steve Simpson School of Biological Sciences University of Bristol

2 Reefs are noisy places rain other invertebrates waves wind and water sheer Versluis et al. 2000 Science fish

3 Larval reef fish use reef noise for orientation Simpson et al. 2004 Mar Ecol Prog Ser 10 families of reef fish attracted by reef noise sound system speaker broadcasting reef noise patch reefs permanent mooring 36 m depth surface buoy dummy rig dummy speaker - >100 m Simpson et al. 2005 Science Reef fish attracted to settlement sites by reef noise Simpson et al. 2008 Animal Behaviour Settlement-stage fish prefer invertebrate noise Simpson et al. 2008 Coral Reefs Adult & juvenile fish prefer fish vocalisations

4 Invertebrates also interact with reef soundscapes Jenni Stanley, Craig Radford, Andrew Jeffs, John Montgomery Lobsters use noise for orientation and to induce settlement Vermeij et al. 2010 PLoS ONE Coral larvae can detect and orient towards reef noise Simpson et al. 2011 PLoS ONE Planktonic crustaceans avoid reef noise (anti-predator response?) nocturnally emergent taxaholoplanktonsettling larvae

5 Reef noise indicates habitat characteristics Simpson 2008 Bioacoustics - Reef noise as a tool for management? Kennedy et al. 2010 JEMBE - Reef noise indicates coral cover and fish densities Huijbers et al. 2012 Ecology - Ambient noise differentiates coral, rubble, and mangrove/seagrass habitat Radford et al. 2011 Coral Reefs & Huijbers et al. 2012 Ecology - Settling reef fish use noise to select preferred microhabitat (fringing reef, lagoon) and to locate nearby nursery grounds and conspecific shoals

6 Global environmental change Ocean acidification Warming

7 Simpson et al. 2011 Biology Letters Ocean acidification erodes crucial auditory behaviour Fish reared at current CO 2 levels avoided predator noise Fish in elevated CO 2 conditions showed no response 73%36-42% Munday, Dixson, Domenici, Ferrari et al. CO 2 disrupts olfaction, physiology, cognitive function Heenan et al. 2009 Proc 10th ICRS Simpson et al. 2005 Mar Ecol Prog Ser

8 Global environmental change Anthropogenic noise Warming Ocean acidification

9 Reef fish larvae conditioned by artificial noise Choice chamber test SilenceReef noiseTone Mix Noise played in tank during the day Silence Reef noise Tone Mix No response Attracted Avoided Simpson et al. 2010 Behavioral Ecology

10 Boat noise affects orientation behaviour Holles et al. In review. Boat noise disrupts ability to resolve 180  ambiguity?

11 Anthropogenic noise compromises anti-predator behaviour, physiology and cognition in fish Steve Simpson, Julia Purser, Andy Radford

12 Simpson et al. In review. Effects of ship noise on anti-predator responses to pursuit and ambush “predators”, and on respiration, metabolism and cognitive functioning Eels avoided ambush predator 75% less often, and with greater latency Eels captured twice as quickly by pursuit predators Increased opercular beat & metabolic rate indicates stress Decreased cognitive functioning

13 Acknowledgements Reef noise Mark Meekan Andrew Jeffs Craig Radford John Montgomery Rob McCauley Ivan Nagelkerken Edd Codling Dave Smith David Lecchini Chantal Huijbers Adel Heenan Emma Kennedy Julius Piercy Ocean Acidification Phil Munday Hong Yan Matt Wittenrich Monica Gagliano Dani Dixson Rachel Manassa Ships & eels Bioacoustics & Behavioural Ecology Andy Radford Marc Holderied Daniel Robert Rick Bruintjes Julia Purser Sophie Holles Emma Kerridge Matt Wale

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