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651. Leggat, W.P., Camp, E.F., Suggett, D.J., Heron, S.F., Fordyce, A.J., et al. 2019, Rapid coral decay is associated with marine heatwave mortality events on reefs, Current Biology 29(16): 2723-2730. e4.
652. Pratchett, M.S., Heron, S.F., Mellin, C. and Cumming, G.S. 2021, Recurrent mass-bleaching and the potential for ecosystem collapse on Australia’s Great Barrier Reef, in Ecosystem collapse and climate change Springer, pp. 265-289.
653. van Woesik, R. and Shlesinger, T. 2023, Bleaching of the world's coral reefs, in Biological and Environmental Hazards, Risks, and Disasters, ed. R. Sivanpillai, Elsevier, pp. 251-271.
654. Dias, M., Ferreira, A., Gouveia, R. and Vinagre, C. 2019, Synergistic effects of warming and lower salinity on the asexual reproduction of reef-forming corals, Ecological Indicators 98: 334-348.
655. Serrano, O., Arias-Ortiz, A., Duarte, C.M., Kendrick, G.A. and Lavery, P.S. 2021, Impact of marine heatwaves on seagrass ecosystems, in Ecosystem Collapse and Climate Change, eds J.G. Canadell and R.B.Jackson, Springer, Switzerland, pp. 345-364.
656. Brown, C.J., Mellin, C., Edgar, G.J., Campbell, M.D. and Stuart‐Smith, R.D. 2021, Direct and indirect effects of heatwaves on a coral reef fishery, Global Change Biology 27(6): 1214-1225.
657. Gregoire, M., Gilbert, D., Oschlies, A. and Rose, K. 2019, What is ocean deoxygenation? in Ocean deoxygenation: Everyone’s problem - Causes, impacts, consequences and solutions, eds D. Laffoley and J.M. Baxter, IUCN, Switzerland, pp. 1-21.
658. Cheng, L., Abraham, J., Trenberth, K.E., Fasullo, J., Boyer, T., et al. 2021, Upper ocean temperatures hit record high in 2020, Advances in Atmospheric Sciences 38(4): 523–530.
659. Garcia-Soto, C., Cheng, L., Caesar, L., Schmidtko, S., Jewett, E.B., et al. 2021, An overview of ocean climate change indicators: sea surface temperature, ocean heat content, ocean pH, dissolved oxygen concentration, arctic sea ice extent, thickness and volume, sea level and strength of the AMOC (Atlantic Meridional Overturning Circulation), Frontiers in Marine Science 8: 642372.
660. Bureau of Meteorology 2024, Great Barrier Reef sea surface temperature timeseries. Calculated from the NOAA Extended Reconstructed Sea Surface Temperature Version 5 (ERSST v5) data provided by the NOAA/OAR/ESRL PSL, Boulder, Colorado, USA. <http://www.bom.gov.au/cgi-bin/climate/change/timeseries.cgi>.
661. Bureau of Meteorology 2020, Factsheet: 2020 marine heatwave on the Great Barrier Reef, Bureau of Meteorology.
662. McGowan, H. and Theobald, A. 2023, Atypical weather patterns cause coral bleaching on the Great Barrier Reef, Australia during the 2021–2022 La Niña, Scientific reports 13(1): 6397.
663. Great Barrier Reef Marine Park Authority, Australian Institute of Marine Science and CSIRO 2022, Reef snapshot: summer 2021-22, GBRMPA, Townsville.
664. Langlais, C.E., Herzfeld, M., Klein, E., Cantin, N., Benthuysen, J., et al. 2021, Oceanographic drivers of bleaching in the GBR: from observations to prediction, Volume 2: 3D Bleaching in the GBR: Development and analysis of a 3D climatology and heat accumulation products using eReefs, Report to the National Environmental Science Program. Reef and Rainforest Research Centre Limited. Cairns (55pp.).
665. IPCC 2021, Climate Change 2021: The Physical Science Basis. Contribution of Working Group I to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change, Cambridge University Press, Cambridge, UK and New York, NY, USA.
666. Dixon, A.M., Forster, P.M., Heron, S.F., Stoner, A.M. and Beger, M. 2022, Future loss of local-scale thermal refugia in coral reef ecosystems, PLoS Climate 1(2): e0000004.
667. McWhorter, J.K., Halloran, P.R., Roff, G., Skirving, W.J. and Mumby, P.J. 2022, Climate refugia on the Great Barrier Reef fail when global warming exceeds 3° C, Global Change Biology 28(19): 5768-5780.
668. Climate Reanalyzer Daily Sea Surface Temperature, World (60°S–60°N, 0–360°E) Climate Change Institute, University of Maine. <https://climatereanalyzer.org/clim/sst_daily/>.
669. Huang, B., Liu, C., Banzon, V., Freeman, E., Graham, G., et al. 2021, Improvements of the daily optimum interpolation sea surface temperature (DOISST) version 2.1, Journal of Climate 34(8): 2923-2939.
670. NOAA Coral Reef Watch 2024, NOAA Coral Reef Watch Version 3.5 Thermal History - SST Trend for the Great Barrier Reef (GBR, 1985-2023), NOAA Coral Reef Watch, College Park, USA.
671. NOAA Coral Reef Watch 2018, Daily global 5km satellite sea surface temperature (a.k.a. CoralTemp) (Version 3.1, released August 1, 2018), <https://coralreefwatch.noaa.gov/product/5km/index_5km_sst.php>.
672. Hoegh-Guldberg, O. and Dove, S. 2019, Primary production, nutrient recycling and energy flow through coral reef ecosystems, The Great Barrier Reef: Biology, Environment and Management. Second Edition: 85-100.
673. Strahl, J., Rocker, M.M. and Fabricius, K.E. 2019, Contrasting responses of the coral Acropora tenuis to moderate and strong light limitation in coastal waters, Marine Environmental Research 147: 80-89.
674. Hoegh-Guldberg, O. and Dove, S. 2008, Primary production, nutrient recycling and energy flow through coral reef ecosystems, in The Great Barrier Reef: Biology, Environment and Management, eds P. Hutchings, M. Kingsford and O. Heogh-Guldberg, CSIRO Publishing, Collingwood, pp. 59-73.
675. Muir, P.R., Pichon, M., Squire, L. and Wallace, C.C. 2019, Acropora tenella, a zooxanthellate coral extending to 110-m depth in the northern Coral Sea, Marine Biodiversity 49: 809-814.
676. Englebert, N., Bongaerts, P., Muir, P., Hay, K.B. and Hoegh-Guldberg, O. 2015, Deepest zooxanthellate corals of the Great Barrier Reef and Coral Sea, Marine Biodiversity 45: 1-2.
677. Jones, R., Pineda, M., Luter, H.M., Fisher, R., Francis, D., et al. 2021, Underwater Light Characteristics of Turbid Coral Reefs of the Inner Central Great Barrier Reef, Frontiers in Marine Science 8: 727206.
678. Bessell-Browne, P., Negri, A.P., Fisher, R., Clode, P.L. and Jones, R. 2017, Impacts of light limitation on corals and crustose coralline algae, Scientific Reports 7(1): 11553.
679. Luter, H.M., Pineda, M., Ricardo, G., Francis, D.S., Fisher, R., et al. 2021, Assessing the risk of light reduction from natural sediment resuspension events and dredging activities in an inshore turbid reef environment, Marine Pollution Bulletin 170: 112536.
680. Noonan, S.H., DiPerna, S., Hoogenboom, M.O. and Fabricius, K.E. 2022, Effects of variable daily light integrals and elevated CO 2 on the adult and juvenile performance of two Acropora corals, Marine Biology 169: 1-15.
681. Brunner, C.A., Ricardo, G.F., Uthicke, S., Negri, A.P. and Hoogenboom, M.O. 2022, Effects of climate change and light limitation on coral recruits, Marine Ecology Progress Series 690: 65-82.
682. Hochberg, E.J., Pisapia, C., Carpenter, R.C. and Hall, S. 2024, Light-use efficiency for coral reef communities and benthic functional types, Limnology and Oceanography 69(3): 712-722.
683. Gonzalez‐Espinosa, P.C. and Donner, S.D. 2021, Cloudiness reduces the bleaching response of coral reefs exposed to heat stress, Global Change Biology 27(15): 3474-3486.
684. Rosic, N., Rémond, C. and Mello-Athayde, M.A. 2020, Differential impact of heat stress on reef-building corals under different light conditions, Marine Environmental Research 158: 104947.
685. Lohr, K.E., Camp, E.F., Kuzhiumparambil, U., Lutz, A., Leggat, W., et al. 2019, Resolving coral photoacclimation dynamics through coupled photophysiological and metabolomic profiling, Journal of Experimental Biology 222(8): jeb195982.
686. DiPerna, S., Hoogenboom, M., Noonan, S. and Fabricius, K. 2018, Effects of variability in daily light integrals on the photophysiology of the corals Pachyseris speciosa and Acropora millepora, PLoS One 13(9): e0203882.
687. Carter, A.B., Collier, C., Rasheed, M.A., McKenzie, L. and Udy, J. 2018, A framework for defining seagrass habitat for the Great Barrier Reef, Australia, Reef and Rainforest Research Centre.
688. Carter, A.B., Collier, C., Lawrence, E., Rasheed, M.A., Robson, B.J., et al. 2021, A spatial analysis of seagrass habitat and community diversity in the Great Barrier Reef world heritage area, Scientific Reports 11(1): 22344.
689. Collier, C., Chartrand, K., Honchin, C., Fletcher, A. and Rasheed, M. 2016, Light Thresholds for Seagrasses of the GBRWHA: a synthesis and guiding document: including knowledge gaps and future priorities. report to the National Environmental Science Program, Reef and Rainforest Research Centre Limited, Cairns.
690. Collier, C.J., Waycott, M. and McKenzie, L.J. 2012, Light thresholds derived from seagrass loss in the coastal zone of the northern Great Barrier Reef, Australia, Ecological Indicators 23: 211-219.
691. McMahon, K., Collier, C. and Lavery, P.S. 2013, Identifying robust bioindicators of light stress in seagrasses: a meta-analysis, Ecological Indicators 30: 7-15.
692. Chartrand, K.M., Szabó, M., Sinutok, S., Rasheed, M.A. and Ralph, P.J. 2018, Living at the margins–The response of deep-water seagrasses to light and temperature renders them susceptible to acute impacts, Marine Environmental Research 136: 126-138.
693. Waterhouse, J., Brodie, J., Tracey, D., Smith, R., Vandergragt, M., et al. 2017, Scientific Consensus Statement 2017: A synthesis of the science of land-based water quality impacts on the Great Barrier Reef, Chapter 3: The risk from anthropogenic pollutants to Great Barrier Reef coastal and marine ecosystems, State of Queensland, Brisbane.
694. Magno-Canto, M.M., McKinna, L.I., Robson, B.J. and Fabricius, K.E. 2019, Model for deriving benthic irradiance in the Great Barrier Reef from MODIS satellite imagery, Optics Express 27(20): A1350-A1371.
695. Great Barrier Reef Foundation, Bureau of Meteorology, CSIRO, Australian Institute of Marine Science and Queensland Government, 2019, eReefs, Australian Government, <https://ereefs.org.au/ereefs>.
696. Zhang, X., Ward, B.B. and Sigman, D.M. 2020, Global nitrogen cycle: critical enzymes, organisms, and processes for nitrogen budgets and dynamics, Chemical Reviews 120(12): 5308-5351.
697. Moore, C.M., Mills, M.M., Arrigo, K.R., Berman-Frank, I., Bopp, L., et al. 2013, Processes and patterns of oceanic nutrient limitation, Nature Geoscience 6(9): 701-710.
698. Arrigo, K.R. 2005, Marine microorganisms and global nutrient cycles, Nature 437(7057): 349-355.
699. Lønborg, C., Doyle, J., Furnas, M., Menendez, P., Benthuysen, J.A., et al. 2017, Seasonal organic matter dynamics in the Great Barrier Reef lagoon: Contribution of carbohydrates and proteins, Continental Shelf Research 138: 95-105.
700. Millero, F.J. 2007, The marine inorganic carbon cycle, Chemical reviews 107(2): 308-341.