Researchers
Students
Alumni
ManagementSimon J. Brandl
PhD graduate
James Cook University
ARC Centre of Excellence for Coral Reef Studies
James Cook University Townsville
Queensland 4811 Australia
Phone: 61 7 4781 4000
Email: info@coralcoe.org.au
Simon is originally from Munich, Germany. Although he completed his undergraduate degree at the University of Innsbruck, in the centre of the Alps and far away from the ocean, marine biology has always been his main interest. After finishing his Bachelor thesis on the ecology of clingfishes (f. Gobiesocidae) in the Northern Adriatic Sea he came to Australia and enrolled for the MAppSc in Marine Biology at JCU in February 2011. Having completed a research project with David Bellwood where he investigated pair-formation in the herbivorous rabbitfish Siganus doliatus, he finished his PhD on fine-scale differences in the functional performances of herbivorous coral reef fishes and their influence on coral reef ecosystems.
Functional niche partitioning among herbivorous fishes
In feeding on algal and detrital matter, herbivorous reef fishes greatly influence the dynamics between benthic organisms on coral reefs. Specifically, through the removal of algae, herbivorous fishes promote the growth and replenishment of scleractinian corals, thus maintaining coral dominated reef systems. However, the guild of herbivorous reef fishes is not uniform and there are marked dietary and behavioral differences between herbivorous species. While this can be assumed to result in fundamentally different functional roles, neither the extent of functional niche partitioning, nor the consequences for benthic communities on coral reefs are currently known. Therefore, there is a clear need to investigate the realized, functional niches of herbivorous fishes and to understand the impact of different herbivorous species on the benthic community. The aim of Simon’s project is to provide this information. To this end, the project is focused on two severely understudied components: the family of rabbitfishes (f. Siganidae) and the consequences of small-scale spatial variation in the feeding behavior of herbivores. Ultimately, the information gathered throughout the project will be incorporated into a community approach, which may significantly increase our understanding of the dynamics between herbivores, corals and algae and provide valuable information for the management of reef systems across the globe.
Principal supervisor: Prof. David Bellwood
Supervisory committee: Prof. Sean Connolly
Brandl, S. J. & Bellwood, D. R. 2014 Individual-based analyses reveal limited functional overlap in a coral reef fish community. Journal of Animal Ecology. In press (full text)
Brandl , S. J., Hoey, A. S., Bellwood, D. R. 2014 Micro-topography mediates interactions between corals, algae, and herbivorous fishes. Coral Reefs. In Press(full text)
Bellwood, D. R., Goatley, C., Brandl, S. J. & Bellwood, D.R. 2014 Fifty million years of herbivory: fossils, fishes and functional innovations. Proc R Soc B. In Press (full text)
Brandl, S.J., Bellwood, D.R. 2013. Morphology, sociality, and ecology: can morphology predict pairing behaviour in coral reef fishes? Coral Reefs, 32: 835 – 846. (full text)
Hoey, A.S., Brandl, S.J., Bellwood, D.R. 2013. Diet and cross-shelf distribution of rabbitfishes (f. Siganidae) on the northern Great Barrier Reef: implications for ecosystem function. Coral Reefs, in press. (full text)
Brandl, S.J., Bellwood, D.R. 2013. Pair formation in the herbivorous rabbitfish Siganus doliatus. Journal of Fish Biology, 82: 2031 – 2044. (full text)
Brandl, S.J. et al. 2012. First record of the clingfish Apletodon dentatus (Gobiesocidae) in the Adriatic Sea and a description of a simple method to collect clingfishes. Bulletin of Fish Biology, 13, 1-2.
Brandl, S.J. 2013. Novel analyses of niche overlap applied to a herbivorous reef fish community. Australian Coral Reef Society Symposium, Sydney, Australia.
Brandl, S.J. 2013. Feeding in pairs: an ecological perspective. Indo-Pacific Fish Conference, Okinawa, Japan.
Brandl, S.J. 2012. Pair formation in the rabbitfish Siganus doliatus. International Coral Reef Symposium, Cairns, Australia.
Brandl, S.J. 2013. Morphology, sociality, and ecology: can morphology predict pairing behavour in coral reef fishes? SMTB Postgraduate Conference JCU, Townsville, Australia.
Brandl, S.J. 2013. Morphology, sociality and functional niches: realized, functional niches of herbivorous reef fishes. Guest Seminar, University of Montpellier, Montpellier, France.
Bommies Award, highest commended video – Great Barrier Reef Foundation ($ 2000, 2013)
Best oral student presentation award – Australian Coral Reef Society Symposium (2013)
Best oral presentation award – Postgraduate Conference, James Cook University (500 A$, 2013)
Travel award – Australian Coral Reef Society (2013)
Young Science Ambassador Award – Australian Academy for Science and Engineering (1,250 A$, 2013)
International Scholarship for short-term scientific research projects – University of Innsbruck, Austria (1,000 €, 2010)
New DNA techniques are being used to understand how coral reacted to the end of the last ice age in order to better predict how they will cope with current changes to the climate. James Cook Univer
A new study on the effects of climate change in five tropical countries has found fisheries are in more trouble than agriculture, and poor people are in the most danger. Distinguished Profess
James Cook University researchers have found brightly coloured fish are becoming increasingly rare as coral declines, with the phenomenon likely to get worse in the future. Christopher Hemingson, a
Researchers working with stakeholders in the Great Barrier Reef region have come up with ideas on how groups responsible for looking after the reef can operate more effectively when the next bleaching
Abstract: As marine species adapt to climate change, their heat tolerance will likely be under strong selection. Individual variation in heat tolerance and its heritability underpin the potential fo
Abstract: The Reef Ecology Lab in KAUST’s Red Sea Research Center explores many aspects of movement ecology of marine organisms, ranging from adult migrations to intergenerational larval dispersal
Abstract: Macroalgal meadows are a prominent, yet often maligned component of the tropical seascape. Our work at Ningaloo reef in WA demonstrate that canopy forming macroalgae provide habitat for ad
Abstract: Sharks are generally perceived as strong and fearsome animals. With fossils dating back at least 420 million years, sharks are not only majestic top predators but they also outlived dinosa
Abstract: Connectivity plays a vital role in many ecosystems through its effects on fundamental ecological and evolutionary processes. Its consequences for populations and metapopulations have been
Abstract: Evolution of many eukaryotic organisms is affected by interactions with microbes. Microbial symbioses can ultimately reflect host’s diet, habitat range, and even body shape. However, how
Abstract: The past few years have seen unprecedented coral bleaching and mortality on the Great Barrier Reef (GBR) but the consequences of this on biodiversity are not yet known. This talk will expl
Abstract: Molecular approaches have revolutionised our understanding of the systematics and evolution of most branches on the tree of life, including corals. Over the last twenty-five years molecula
Partner Research Institutions
ARC Centre of Excellence for Coral Reef Studies
James Cook University Townsville
Queensland 4811 Australia
Phone: 61 7 4781 4000
Email: info@coralcoe.org.au