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351. Hatton, I.A., Heneghan, R.F., Bar-On, Y.M. and Galbraith, E.D. 2021, The global ocean size spectrum from bacteria to whales, Science Advances 7(46): eabh3732.
352. Borja, A. 2018, Testing the efficiency of a bacterial community-based index (microgAMBI) to assess distinct impact sources in six locations around the world, Ecological Indicators 85: 594-602.
353. Lanzén, A., Dahlgren, T.G., Bagi, A. and Hestetun, J.T. 2021, Benthic eDNA metabarcoding provides accurate assessments of impact from oil extraction, and ecological insights, Ecological Indicators 130: 108064.
354. Aylagas, E., Borja, Á, Tangherlini, M., Dell'Anno, A., Corinaldesi, C., et al. 2017, A bacterial community-based index to assess the ecological status of estuarine and coastal environments, Marine Pollution Bulletin 114(2): 679-688.
355. Van De Kamp, J., Borja, A. and Bissett, A. 2023, DNA-based microbial bioindication of environmental state, in Applied Environmental Genomics, eds S. Jarman, C. Holleley and O. Berry, CSIRO Publishing, pp. 19.
356. Richardson, A., Eriksen, R., Moltmann, T., Hodgson-Johnston, I. and Wallis, J.R. 2020, State and Trends of Australia’s Ocean Report, Integrated Marine Observing System, Hobart.
357. Doni, L., Oliveri, C., Lasa, A., Di Cesare, A., Petrin, S., et al. 2023, Large-scale impact of the 2016 marine heatwave on the plankton-associated microbial communities of the Great Barrier Reef (Australia), Marine Pollution Bulletin 188: 114685.
358. Davies, C., Eriksen, R. and Richardson, A.J. 2020, 3.2 Spatial and seasonal trends in Trichodesmium, in State and Trends of Australia’s Ocean, ed. A.J.R. Eriksen, R. Moltmann, T. Hodgson-Johnston, I. Wallis, J.R., Integrated Marine Observing System, Hobart.
359. Richardson, A.J., Rochester, W. and Tilbrook, B. 2020, Ocean acidification and calcifying zooplankton, in State and Trends of Australia’s Ocean Report, eds A. Richardson, R. Erikson, T. Moltmann, I. Hodgson-Johnston and J.R. Wallis, Integrated Marine Observing System (IMOS), Hobart.
360. Ajani, P.A., Davies, C.H., Eriksen, R.S. and Richardson, A.J. 2020, Global warming impacts micro-phytoplankton at a long-term Pacific Ocean coastal station, Frontiers in Marine Science 7: 576011.
361. Fakhraee, M., Planavsky, N.J. and Reinhard, C.T. 2020, The role of environmental factors in the long-term evolution of the marine biological pump, Nature Geoscience 13: 812-816.
362. Miloslavich, P., Bax, N.J., Simmons, S.E., Klein, E., Appeltans, W., et al. 2018, Essential ocean variables for global sustained observations of biodiversity and ecosystem changes, Global Change Biology 24(6): 2416-2433.
363. Moran, D., Robson, B., Gruber, R., Waterhouse, J., Logan, M., et al. 2023, Marine Monitoring Program Annual Report 2021-22 Water Quality, Great Barrier Reef Marine Park Authority, Townsville.
364. Able, K.W., Simenstad, C.A., Strydom, N.A., Bradley, M. and Sheaves, M. 2022, Chapter 4 Habitat use and connectivity, in Fish and fisheries in estuaries: a global perspective, eds A.K. Whitfield, K.W. Able, S.J.M. Blaber and M. Elliott, Wiley Online Library, Milton, pp. 188-254.
365. Stuart-Smith, R.D., Mellin, C., Bates, A.E. and Edgar, G.J. 2021, Habitat loss and range shifts contribute to ecological generalization among reef fishes, Nature Ecology & Evolution 5(5): 656-662.
366. Ceccarelli, D.M., Evans, R.D., Logan, M., Jones, G.P., Puotinen, M., et al. 2023, Physical, biological and anthropogenic drivers of spatial patterns of coral reef fish assemblages at regional and local scales, Science of the Total Environment 904: 166695.
367. Muruga, P., Siqueira, A.C. and Bellwood, D.R. 2024, Meta-analysis reveals weak associations between reef fishes and corals, Nature Ecology & Evolution 8: 676-685.
368. Chamberlain, D.A., Possingham, H.P. and Phinn, S.R. 2023, Predicting the current and future suitable-habitat distribution of tropical adult and juvenile targeted fishes in multi-sector fisheries of central Queensland, Australia, Marine and Freshwater Research 74(4): 357-374.
369. Hall, A.E. and Kingsford, M.J. 2021, Habitat type and complexity drive fish assemblages in a tropical seascape, Journal of Fish Biology 99(4): 1364-1379.
370. Wismer, S., Tebbett, S.B., Streit, R.P. and Bellwood, D.R. 2019, Young fishes persist despite coral loss on the Great Barrier Reef, Communications Biology 2(456): 1-7.
371. Yan, H.F. and Bellwood, D.R. 2023, Multi‐decadal stability of fish productivity despite increasing coral reef degradation, Functional Ecology 37: 1141-1515.
372. Ceccarelli, D.M., Emslie, M.J. and Richards, Z.T. 2016, Post-disturbance stability of fish assemblages measured at coarse taxonomic resolution masks change at finer scales, PloS One 11(6): 1-22.
373. Lauchlan, S.S. and Nagelkerken, I. 2020, Species range shifts along multistressor mosaics in estuarine environments under future climate, Fish and Fisheries 21(1): 32-46.
374. McMahon, S.J., Munday, P.L. and Donelson, J.M. 2023, Energy use, growth and survival of coral reef snapper larvae reared at elevated temperatures, Coral Reefs 42: 31-42.
375. Spinks, R.K., Munday, P.L. and Donelson, J.M. 2019, Developmental effects of heatwave conditions on the early life stages of a coral reef fish, Journal of Experimental Biology 222: jeb202713.
376. Bernal, M.A., Ravasi, T., Rodgers, G.G., Munday, P.L. and Donelson, J.M. 2022, Plasticity to ocean warming is influenced by transgenerational, reproductive, and developmental exposure in a coral reef fish, Evolutionary Applications 15: 249-261.
377. Chong‐Montenegro, C., Thurstan, R.H., Campbell, A.B., Cunningham, E.T. and Pandolfi, J.M. 2022, Historical reconstruction and social context of recreational fisheries: the Australian east coast barramundi, Fisheries Management and Ecology 29: 44-56.
378. Espinosa, C., Cuesta, A. and Esteban, M.Á 2017, Effects of dietary polyvinylchloride microparticles on general health, immune status and expression of several genes related to stress in gilthead seabream (Sparus aurata L.), Fish & Shellfish Immunology 68: 251-259.
379. Zhao, H., Xu, J., Yan, Z., Ren, H. and Zhang, Y. 2020, Microplastics enhance the developmental toxicity of synthetic phenolic antioxidants by disturbing the thyroid function and metabolism in developing zebrafish, Environment International 140: 105750.
380. McCormick, M.I., Chivers, D.P., Ferrari, M.C., Blandford, M.I., Nanninga, G.B., et al. 2020, Microplastic exposure interacts with habitat degradation to affect behaviour and survival of juvenile fish in the field, Proceedings of the Royal Society B: Biological Sciences 287(1937): 20201947.
381. Jensen, L.H., Motti, C.A., Garm, A.L., Tonin, H. and Kroon, F.J. 2019, Sources, distribution and uptake fate of microfibres on the Great Barrier Reef, Australia, Scientific Reports 9(9021).
382. Bour, A., Hossain, S., Taylor, M., Sumner, M. and Almroth, B.C. 2020, Synthetic microfiber and microbead exposure and retention time in model aquatic species under different exposure scenarios, Frontiers in Environmental Science 8: 83.
383. Miller, M.E., Hamann, M. and Kroon, F.J. 2020, Bioaccumulation and biomagnification of microplastics in marine organisms: A review and meta-analysis of current data, PloS One 15(10): e0240792.
384. Australian Microplastic Assessment Project 2023, Final overview of microplastics across GBR catchments: 2019-2023, Tangaroa Blue and Australian Marine Debris Initiative.
385. Clements, K.D., German, D., Piché, J., Tribollet, A., Choat, J.H., et al. 2017, Integrating ecological roles and trophic diversification on coral reefs: multiple lines of evidence identify parrotfishes as microphages, Biological Journal of the Linnean Society 120(4): 729-751.
386. Australian Institute of Marine Science 2023, Long-term Monitoring Program, <https://www.aims.gov.au/research-topics/monitoring-and-discovery/monitoring-great-barrier-reef/reef-reports-hub>.
387. Chin, A., Kyne, P., Hillcoat, S. and White, W. 2016, Checklist of the chondricthyan fishes of the Great Barrier Reef and their conservation status, [MS Excel file], Version 1.2, Created 6 Jun 2016, 10.13140/RG.2.1.1828.0567.
388. Sherman, C.S., Simpfendorfer, C.A., Pacoureau, N., Matsushiba, J.H., Yan, H.F., et al. 2023, Half a century of rising extinction risk of coral reef sharks and rays, Nature Communications 14(1): 15.
389. George, L., Martins, A.P.B., Heupel, M.R. and Simpfendorfer, C.A. 2019, Fine-scale movements of juvenile blacktip reef sharks Carcharhinus melanopterus in a shallow nearshore nursery, Marine Ecology Progress Series 623: 85-97.
390. Martins, A.P.B., Heupel, M.R., Bierwagen, S.L., Chin, A. and Simpfendorfer, C. 2020, Diurnal activity patterns and habitat use of juvenile Pastinachus ater in a coral reef flat environment, PLoS One 15(2): e0228280.
391. Freeman, A. and Wright, A. 2021, Social grouping behaviour in early juvenile blacktip reef sharks around Milman Island in the far north of the Great Barrier Reef, Queensland, North Queensland Naturalist 51: 12-15.
392. Freeman, A. 2019, A nursery for the giant shovel-nosed ray (Glaucostegus typus) in the northern Great Barrier Reef, North Queensland Naturalist 49: 34-37.
393. Araujo, G., Legaspi, C., Matthews, K., Ponzo, A., Chin, A., et al. 2020, Citizen science sheds light on the cryptic ornate eagle ray Aetomylaeus vespertilio, Aquatic Conservation: Marine and Freshwater Ecosystems 30(10): 2012-2018.
394. Roff, G., Doropoulos, C., Rogers, A., Bozec, Y., Krueck, N.C., et al. 2016, The ecological role of sharks on coral reefs, Trends in Ecology and Evolution 31(5): 395-407.
395. Motivarash Yagnesh, B., Fofandi Durga, C., Dabhi Raj, M., Makrani Rehanavaz, A. and Tanna Poojaben, D. 2020, Importance of sharks in ocean ecosystem, Journal of Entomology and Zoology Studies 8(1): 611-613.
396. Desbiens, A.A., Roff, G., Robbins, W.D., Taylor, B.M., Castro‐Sanguino, C., et al. 2021, Revisiting the paradigm of shark‐driven trophic cascades in coral reef ecosystems, Ecology 102(4): e03303.
397. Chin, A., Bierwagen, S., Rummer, J.L. and Udyawer, V. 2024, 21. The biophysics of sharks and rays on the Great Barrier Reef, in Oceanographic processes of coral reefs: physical and biological links in the Great Barrier Reef, eds E. Wolanski and M.J. Kingsford, Second edn, CRC Press, Boca Raton, Florida, pp. 306-315.
398. Heithaus, M.R., Wirsing, A.J., Thomson, J.A. and Burkholder, D.A. 2008, A review of lethal and non-lethal effects of predators on adult marine turtles, Journal of Experimental Marine Biology and Ecology 356(1-2): 43-51.
399. Heithaus, M.R., Dunn, R.E., Farabaugh, N.F., Lester, E., Madin, E., et al. 2022, Advances in our understanding of the ecological importance of sharks and their relatives, in Biology of Sharks and Their Relatives, eds J.C. Carrier, C.A. Simpfendorfer, M.R. Heithaus and K.E. Yopak, CRC Press, pp. 487-521.
400. Lester, E.K., Langlois, T.J., Simpson, S.D., McCormick, M.I. and Meekan, M.G. 2021, Reef‐wide evidence that the presence of sharks modifies behaviors of teleost mesopredators, Ecosphere 12(2): e03301.