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801. LaJeunesse, T.C., Parkinson, J.E., Gabrielson, P.W., Jeong, H.J., Reimer, J.D., et al. 2018, Systematic revision of Symbiodiniaceae highlights the antiquity and diversity of coral endosymbionts, Current Biology 28(16): 2570-2580. e6.
802. Alongi, D.M., Patten, N.L., McKinnon, D., Köstner, N., Bourne, D.G., et al. 2015, Phytoplankton, bacterioplankton and virioplankton structure and function across the southern Great Barrier Reef shelf, Journal of Marine Systems 142: 25-39.
803. Petus, C., Waterhouse, J., Lewis, S., Vacher, M., Tracey, D., et al. 2019, A flood of information: Using Sentinel-3 water colour products to assure continuity in the monitoring of water quality trends in the Great Barrier Reef (Australia), Journal of Environmental Management 248: 109255.
804. Messer, L.F., Brown, M.V., Furnas, M.J., Carney, R.L., McKinnon, A.D., et al. 2017, Diversity and activity of diazotrophs in Great Barrier Reef surface waters, Frontiers in Microbiology 8: 967.
805. Brandl, S.J., Rasher, D.B., Côté, I.M., Casey, J.M., Darling, E.S., et al. 2019, Coral reef ecosystem functioning: eight core processes and the role of biodiversity, Frontiers in Ecology and the Environment 17(8): 445-454.
806. Nowicki, R.J., Fourqurean, J.W. and Heithaus, M.R. 2018, The role of consumers in structuring seagrass communities: direct and indirect mechanisms, in Seagrasses of Australia: Structure, Ecology and Conservation, eds A. Larkum, G. Kendrick and P. Ralph, Springer, pp. 491-540.
807. Cvitanovic, C., Fox, R.J. and Bellwood, D.R. 2007, Herbivory by fishes on the Great Barrier Reef: A review of knowledge and understanding, Reef and Rainforest Research Centre.
808. Scott, A.L. 2020, The role of herbivores as ecosystem engineers in Great Barrier Reef seagrass meadows, PhD thesis, James Cook University.
809. Deaker, D.J., Mos, B., Lin, H., Lawson, C., Budden, C., et al. 2020, Diet flexibility and growth of the early herbivorous juvenile crown-of-thorns sea star, implications for its boom-bust population dynamics, PloS One 15(7): e0236142.
810. Wilmes, J.C., Schultz, D.J., Hoey, A.S., Messmer, V. and Pratchett, M.S. 2020, Habitat associations of settlement-stage crown-of-thorns starfish on Australia’s Great Barrier Reef, Coral Reefs 39(4): 1163-1174.
811. Tebbett, S.B., Bennett, S. and Bellwood, D.R. 2023, A functional perspective on the meaning of the term ‘herbivore’: patterns versus processes in coral reef fishes, Coral Reefs 43: 1-14.
812. Nicholson, G.M. and Clements, K.D. 2020, Resolving resource partitioning in parrotfishes (Scarini) using microhistology of feeding substrata, Coral Reefs 39(5): 1313-1327.
813. Puk, L.D., Marshell, A., Dwyer, J., Evensen, N.R. and Mumby, P.J. 2020, Refuge-dependent herbivory controls a key macroalga on coral reefs, Coral Reefs 39: 953-965.
814. Gouezo, M., Golbuu, Y., Fabricius, K., Olsudong, D., Mereb, G., et al. 2019, Drivers of recovery and reassembly of coral reef communities, Proceedings of the Royal Society B: Biological Sciences 286(1897): 20182908.
815. Wismer, S., Hoey, A.S. and Bellwood, D.R. 2009, Cross-shelf benthic community structure on the Great Barrier Reef: relationships between macroalgal cover and herbivore biomass, Marine Ecology Progress Series 376: 45-54.
816. Hoey, A.S., Howells, E., Johansen, J.L., Hobbs, J.A., Messmer, V., et al. 2016, Recent advances in understanding the effects of climate change on coral reefs, Diversity 8(2): 12.
817. McClure, E.C., Richardson, L.E., Graba-Landry, A., Loffler, Z., Russ, G.R., et al. 2019, Cross-shelf differences in the response of herbivorous fish assemblages to severe environmental disturbances, Diversity 11(2): 23.
818. Yamato, C., Ichikawa, K., Arai, N., Tanaka, K., Nishiyama, T., et al. 2021, Deep neural networks based automated extraction of dugong feeding trails from UAV images in the intertidal seagrass beds, PloS One 16(8): e0255586.
819. Franceschini, S., Meier, A.C., Suan, A., Stokes, K., Roy, S., et al. 2023, A deep learning model for measuring coral reef halos globally from multispectral satellite imagery, Remote Sensing of Environment 292: 113584.
820. Williams, I.D., Polunin, N.V. and Hendrick, V.J. 2001, Limits to grazing by herbivorous fishes and the impact of low coral cover on macroalgal abundance on a coral reef in Belize, Marine Ecology Progress Series 222: 187-196.
821. Cleguer, C., Hamel, M., Rankin, R.W., Genson, A., Edwards, C., et al. 2023, 2022 Dugong aerial survey: Mission Beach to Moreton Bay, Publication 23/44, JCU Centre for Tropical Water & Aquatic Ecosystem Research, Townsville.
822. Emslie, M.J. and Cheal, A.J. 2018, Visual census of reef fish, Australian Institute of Marine Science, Townsville, Australia.
823. Ceccarelli, D. and Ayling, T. 2010, Role, importance and vulnerability of top predators on the Great Barrier Reef: a review, Great Barrier Reef Marine Park Authority, Townsville.
824. Stier, A.C., Stallings, C.D., Samhouri, J.F., Albins, M.A. and Almany, G.R. 2017, Biodiversity effects of the predation gauntlet, Coral Reefs 36: 601-606.
825. Ahti, P.A., Kuparinen, A. and Uusi-Heikkilä, S. 2020, Size does matter—the eco-evolutionary effects of changing body size in fish, Environmental Reviews 28(3): 311-324.
826. Emslie, M.J., Cappo, M., Currey-Randall, L.M., Gonzalez-Rivero, M., Johns, K., et al. 2019, Status and trends of reef fish and benthic assemblages of the far northern Great Barrier Reef, Townsville.
827. Cowan, Z., Ling, S.D., Caballes, C.F., Dworjanyn, S.A. and Pratchett, M.S. 2020, Crown-of-thorns starfish larvae are vulnerable to predation even in the presence of alternative prey, Coral Reefs 39: 293-303.
828. Kroon, F.J., Barneche, D.R. and Emslie, M.J. 2021, Fish predators control outbreaks of crown-of-thorns starfish, Nature Communications 12(1): 6986.
829. Balu, V., Messmer, V., Logan, M., Hayashida-Boyles, A.L. and Uthicke, S. 2021, Is predation of juvenile crown-of-thorns seastars (Acanthaster cf. solaris) by peppermint shrimp (Lysmata vittata) dependent on age, size, or diet? Coral Reefs 40: 641-649.
830. Schlaff, A., Menéndez, P., Hall, M., Heupel, M., Armstrong, T., et al. 2020, Acoustic tracking of a large predatory marine gastropod, Charonia tritonis, on the Great Barrier Reef, Marine Ecology Progress Series 642: 147-161.
831. Triki, Z. and Bshary, R. 2019, Fluctuations in coral reef fish densities after environmental disturbances on the northern Great Barrier Reef, PeerJ 7: e6720.
832. Hill, N.J., Tobin, A.J., Reside, A.E., Pepperell, J.G. and Bridge, T.C. 2016, Dynamic habitat suitability modelling reveals rapid poleward distribution shift in a mobile apex predator, Global Change Biology 22(3): 1086-1096.
833. Niella, Y., Butcher, P., Holmes, B., Barnett, A. and Harcourt, R. 2022, Forecasting intraspecific changes in distribution of a wide-ranging marine predator under climate change, Oecologia 198(1): 111-124.
834. Draper, A.M. and Weissburg, M.J. 2019, Impacts of global warming and elevated CO2 on sensory behavior in predator-prey interactions: a review and synthesis, Frontiers in Ecology and Evolution 7: 72.
835. Domenici, P., Allan, B.J., Lefrançois, C. and McCormick, M.I. 2019, The effect of climate change on the escape kinematics and performance of fishes: implications for future predator–prey interactions, Conservation Physiology 7(1): coz078.
836. Hall, A.E., Sievers, K.T., Kingsford, M.J. 2023, Conservation benefits of no-take marine reserves outweigh modest benefits of partially protected areas for targeted coral reef fishes, Coral Reefs 42(2): 319-333.
837. Kyne, P.M., Heupel, M.R., White, W.T. and Simpfendorfer, C.A. 2021, The Action Plan for Australian Sharks and Rays 2021, National Environmental Science Program, Marine Biodiversity Hub, Hobart.
838. Davis, A. and Pearson, R. 2024, 2022 Scientific Consensus Statement: Summary | Evidence Statement for Question 1.4: How are the GBR’s key ecosystem processes connected from the catchment to the reef and what are the primary factors that influence these connections? in 2022 Scientific Consensus Statement on land-based impacts on Great Barrier Reef water quality and ecosystem condition, eds J. Waterhouse, M. Pineda and K. Sambrook, Commonwealth of Australia and Queensland Government.
839. Mitchell, J.D., Drymon, J.M., Vardon, J., Coulson, P.G., Simpfendorfer, C.A., et al. 2023, Shark depredation: future directions in research and management, Reviews in Fish Biology and Fisheries 33(2): 475-499.
840. Clavareau, L., Marzloff, M.P., Tixier, P. and Trenkel, V.M. 2024, A review of depredation modelling across terrestrial and marine realms: State of the art and future directions, Environmental Modelling & Software 176: 106028.
841. Tixier, P., Lea, M., Hindell, M.A., Welsford, D., Mazé, C., et al. 2021, When large marine predators feed on fisheries catches: Global patterns of the depredation conflict and directions for coexistence, Fish and Fisheries 22(1): 31-53.
842. Mitchell, J.D., McLean, D.L., Collin, S.P. and Langlois, T.J. 2018, Shark depredation in commercial and recreational fisheries, Reviews in Fish Biology and Fisheries 28: 715-748.
843. Casselberry, G.A., Markowitz, E.M., Alves, K., Russo, J.D., Skomal, G.B., et al. 2022, When fishing bites: understanding angler responses to shark depredation, Fisheries Research 246: 106174.
844. Carmody, H., Langlois, T., Mitchell, J., Navarro, M., Bosch, N., et al. 2021, Shark depredation in a commercial trolling fishery in sub-tropical Australia, Marine Ecology Progress Series 676: 19-35.
845. Ates, R. 1991, Predation on Cnidaria by vertebrates other than fishes, in Coelenterate biology: recent research on cnidaria and ctenophora: Proceedings of the fifth international conference on coelenterate biology, 1989, eds. Anonymous, Springer, pp. 305-307.
846. Arai, M.N. 2005, Predation on pelagic coelenterates: a review, Journal of the Marine Biological Association of the United Kingdom 85: 523-536.
847. Baker, D.M., Freeman, C.J., Wong, J.C., Fogel, M.L. and Knowlton, N. 2018, Climate change promotes parasitism in a coral symbiosis, The ISME journal 12: 921-930.
848. Galand, P.E., Ruscheweyh, H., Salazar, G., Hochart, C., Henry, N., et al. 2023, Diversity of the Pacific Ocean coral reef microbiome, Nature Communications 14(1): 3039.
849. Burns, A.L., Wilson, A.D.M. and Ward, A.J.W. 2019, Behavioural interdependence in a shrimp‐goby mutualism, Journal of Zoology 308(4): 274-279.
850. Neo, M.L., Eckman, W., Vicentuan, K., Teo, S.L. and Todd, P.A. 2015, The ecological significance of giant clams in coral reef ecosystems, Biological Conservation 181: 111-123.