Potential effects of climate change on Australian estuaries and fish utilising estuaries: a review

Estuaries are especially vulnerable to the impacts of climate change because changes in climatic and hydrologic variables that influence freshwater and marine systems will also affect estuaries. We review potential impacts of climate change on Australian estuaries and their fish. Geographic differences are likely because southern Australian climates are predicted to become warmer and drier, whereas northern regions may see increased precipitation. Environmental factors, including salinity gradients, suspended sediment, dissolved oxygen and nutrient concentrations, will be influenced by changing freshwater input and other climate variables. Potential impacts will vary depending on the geomorphology of the estuary and the level of build-up of sand bars across estuarine entrances. Changes to estuarine fish assemblages will depend on associated changes to salinity and estuarine-mouth morphology. Marine migrants may be severely affected by closure of estuarine mouths, depending on whether species ‘must’ use estuarine habitat and the level of migratory v. resident individuals. Depending on how fish in coastal waters locate estuaries, there may be reduced cues associated with estuarine mouths, particularly in southern Australia, potentially influencing abundance. In summary, climate change is expected to have major consequences for Australian estuaries and associated fish, although the nature of impacts will show significant regional variation.

[1]  J. Vaze,et al.  Estimating climate change impact on runoff across southeast Australia: Method, results, and implications of the modeling method , 2009 .

[2]  Marti J. Anderson,et al.  Animal-sediment relationships re-visited: Characterising species' distributions along an environmental gradient using canonical analysis and quantile regression splines , 2008 .

[3]  M. Kennard,et al.  Climate change and its implications for Australia's freshwater fish , 2011 .

[4]  T. Malone,et al.  Influences of river flow on the dynamics of phytoplankton production in a partially stratified estuary , 1988 .

[5]  N. White,et al.  Sea-level rise around the Australian coastline and the changing frequency of extreme sea-level events , 2006 .

[6]  Peter G. Fairweather,et al.  Predicting future ecological degradation based on modelled thresholds , 2010 .

[7]  R. J. West,et al.  Spatial and temporal variability of seagrass fishes in intermittently closed and open coastal lakes in southeastern Australia , 2005 .

[8]  M. Sheaves,et al.  Influence of marine and freshwater connectivity on the dynamics of subtropical estuarine wetland fish metapopulations , 2008 .

[9]  Anthony J. Richardson,et al.  Climate Impact on Plankton Ecosystems in the Northeast Atlantic , 2004, Science.

[10]  B. Zampatti,et al.  Temporal variability in fish assemblage structure and recruitment in a freshwater-deprived estuary: The Coorong, Australia , 2010 .

[11]  J. Balston Short-term climate variability and the commercial barramundi (Lates calcarifer) fishery of north-east Queensland, Australia. , 2009 .

[12]  M. Yoklavich,et al.  Establishing climate-growth relationships for yelloweye rockfish (Sebastes ruberrimus) in the northeast Pacific using a dendrochronological approach , 2008 .

[13]  Shing Yip Lee,et al.  Effect of rainfall as a component of climate change on estuarine fish production in Queensland, Australia , 2006 .

[14]  C. Vörösmarty,et al.  Global water resources: vulnerability from climate change and population growth. , 2000, Science.

[15]  L. Laurenson,et al.  Artificial mouth opening fosters anoxic conditions that kill small estuarine fish , 2009 .

[16]  D. Mayer,et al.  Effects of freshwater flow on the year-class strength of a non-diadromous estuarine finfish, king threadfin (Polydactylus macrochir), in a dry-tropical estuary , 2008 .

[17]  H. Nix The environment of Terra Australis , 1981 .

[18]  D. Pollard A comparison of fish assemblages and fisheries in intermittently open and permanently open coastal lagoons on the south coast of New South Wales, South-Eastern Australia , 1994 .

[19]  P. Pankhurst,et al.  Effects of elevated water temperature and food availability on the reproductive performance of a coral reef fish , 2010 .

[20]  Michael Elliott,et al.  The guild approach to categorizing estuarine fish assemblages: a global review , 2007 .

[21]  J. C. Taylor,et al.  Severe droughts reduce estuarine primary productivity with cascading effects on higher trophic levels , 2011 .

[22]  A. Arthington,et al.  Flow restoration and protection in Australian rivers , 2003 .

[23]  J. Elith,et al.  Projecting climate change impacts on species distributions in megadiverse South African Cape and Southwest Australian Floristic Regions: Opportunities and challenges , 2009 .

[24]  R. West,et al.  Structure and Function of South-east Australian Estuaries , 2001 .

[25]  I. Potter,et al.  The divergent environmental characteristics of permanently-open, seasonally-open and normally-closed estuaries of south-western Australia , 2009 .

[26]  R. Connolly,et al.  Coupling Between Marine Plankton and Freshwater Flow in the Plumes off a Small Estuary , 2008 .

[27]  Alistair J. Hobday,et al.  Projected climate change in Australian marine and freshwater environments , 2011 .

[28]  B. Black Climate-driven synchrony across tree, bivalve, and rockfish growth-increment chronologies of the northeast Pacific , 2009 .

[29]  J. Schnoor Ocean acidification. , 2013, Environmental science & technology.

[30]  M A Peck,et al.  Climate change effects on fishes and fisheries: towards a cause-and-effect understanding. , 2010, Journal of fish biology.

[31]  T. Elsdon,et al.  Extensive drought negates human influence on nutrients and water quality in estuaries. , 2009, The Science of the total environment.

[32]  W. O'Connor,et al.  Comparing the effect of elevated pCO2 and temperature on the fertilization and early development of two species of oysters , 2010 .

[33]  K. Walker,et al.  A Ramsar wetland in crisis – the Coorong, Lower Lakes and Murray Mouth, Australia , 2011 .

[34]  G. Jenkins,et al.  Highly variable recruitment in an estuarine fish is determined by salinity stratification and freshwater flow: implications of a changing climate , 2010 .

[35]  M. Meekan,et al.  Replenishment of fish populations is threatened by ocean acidification , 2010, Proceedings of the National Academy of Sciences.

[36]  U. Gräwe,et al.  Impact of climate variability on an east Australian bay , 2010 .

[37]  S. Hamilton,et al.  The ‘wet–dry’ in the wet–dry tropics drives river ecosystem structure and processes in northern Australia , 2011 .

[38]  P. Macreadie,et al.  Detecting range shifts among Australian fishes in response to climate change , 2011 .

[39]  D. Id,et al.  Impacts of drought and predicted effects of climate change on fish growth in temperate Australian lakes , 2011 .

[40]  D. Milton,et al.  The effect of habitat and environmental history on otolith chemistry of barramundi Lates calcarifer in estuarine populations of a regulated tropical river , 2008 .

[41]  N. Loneragan,et al.  River flows and estuarine ecosystems: Implications for coastal fisheries from a review and a case study of the Logan River, southeast Queensland , 1999 .

[42]  M. Kemp,et al.  Potential climate-change impacts on the Chesapeake Bay , 2008 .

[43]  C. W. Hunt,et al.  Contrasting Carbon Dioxide Inputs and Exchange in Three Adjacent New England Estuaries , 2011 .

[44]  J. Adams,et al.  Effect of River Flow on Estuarine Microalgal Biomass and Distribution , 2000 .

[45]  M. Austin Species distribution models and ecological theory: A critical assessment and some possible new approaches , 2007 .

[46]  Grégory Beaugrand,et al.  On the processes linking climate to ecosystem changes , 2010 .

[47]  N. Rabalais,et al.  Coupling between climate variability and coastal eutrophication: Evidence and outlook for the northern Gulf of Mexico , 2005 .

[48]  G. Edgar,et al.  Long‐term shifts in abundance and distribution of a temperate fish fauna: a response to climate change and fishing practices , 2011 .

[49]  M. Koch,et al.  Tropical seagrass species tolerance to hypersalinity stress , 2007 .

[50]  Raphael Nunes,et al.  Physical property distributions and seasonal trends in Spencer Gulf, South Australia: an inverse estuary , 1986 .

[51]  Hugh P. Possingham,et al.  Effects of climate‐driven primary production change on marine food webs: implications for fisheries and conservation , 2010 .

[52]  D. Randall,et al.  Climate models and their evaluation , 2007 .

[53]  S. Solomon The Physical Science Basis : Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change , 2007 .

[54]  Lb Mason,et al.  Modelled response of Gulf St Vincent (South Australia) to evaporation, heating and winds , 2003 .

[55]  L. Levin,et al.  Effects of natural and human-induced hypoxia on coastal benthos , 2009 .

[56]  I. Potter,et al.  The concept of an estuary: A definition that incorporates systems which can become closed to the ocean and hypersaline , 2010 .

[57]  W. Cai,et al.  A comparative study of carbon dioxide degassing in river‐ and marine‐dominated estuaries , 2008 .

[58]  B. Gillanders Feeding ecology of the temperate marine fish Achoerodus viridis (Labridae) : size, seasonal and site-specific differences , 1995 .

[59]  T. Ortega,et al.  Fluxes of dissolved inorganic carbon in three estuarine systems of the Cantabrian Sea (north of Spain) , 2004 .

[60]  P. Fairweather,et al.  Modelling future conditions in the degraded semi-arid estuary of Australia's largest river using ecosystem states , 2009 .

[61]  R. Thresher,et al.  Depth-mediated reversal of the effects of climate change on long-term growth rates of exploited marine fish , 2007, Proceedings of the National Academy of Sciences.

[62]  T. Elsdon,et al.  Connectivity of Estuaries , 2011 .

[63]  H. Kurihara Effects of CO2-driven ocean acidification on the early developmental stages of invertebrates , 2008 .

[64]  B. Gillanders,et al.  Spatial variability of trace elements in fish otoliths: comparison with dietary items and habitat constituents in seagrass meadows , 2002 .

[65]  F. Nordlie Environmental influences on regulation of blood plasma/serum components in teleost fishes: a review , 2009, Reviews in Fish Biology and Fisheries.

[66]  D. Nugegoda,et al.  Hypoxia, low salinity and lowered temperature reduce embryo survival and hatch rates in black bream Acanthopagrus butcheri (Munro, 1949) , 2008 .

[67]  A. Anbar,et al.  Acidification of an estuarine tributary in eastern Australia due to drainage of acid sulfate soils , 1997 .

[68]  S. Griffiths Factors Influencing Fish Composition in an Australian Intermittently Open Estuary. Is Stability Salinity-Dependent? , 2001 .

[69]  Andrew J. Pitman,et al.  Do weak AR4 models bias projections of future climate changes over Australia? , 2009 .

[70]  Roger Jones,et al.  Regional climate projections , 2007 .

[71]  G. Edgar,et al.  The conservation significance of estuaries: a classification of Tasmanian estuaries using ecological, physical and demographic attributes as a case study , 2000 .

[72]  S. Griffiths,et al.  Preliminary assessment of shallow water fish in three small intermittently open estuaries in southeastern Australia , 1999 .

[73]  K. Abrantes,et al.  Fish fauna of dry tropical and subtropical estuarine floodplain wetlands , 2007 .

[74]  H. Paerl,et al.  Regulation of estuarine primary production by watershed rainfall and river flow , 1993 .

[75]  D. Jones,et al.  High-quality spatial climate data-sets for Australia , 2009 .

[76]  B. Delille,et al.  Carbon dioxide in European coastal waters , 2006 .

[77]  I. Potter,et al.  Massive mortalities of the black bream Acanthopagrus butcheri (Sparidae) in two normally-closed estuaries, following extreme increases in salinity , 2006, Journal of the Marine Biological Association of the United Kingdom.

[78]  Kirk R. Klausmeyer,et al.  Climate Change, Habitat Loss, Protected Areas and the Climate Adaptation Potential of Species in Mediterranean Ecosystems Worldwide , 2009, PloS one.

[79]  M. Sheaves,et al.  Ecological drivers of spatial variability among fish fauna of 21 tropical Australian estuaries , 2009 .

[80]  A. Hobday,et al.  Implications of climate change for Australian fisheries and aquaculture: a preliminary assessment , 2008 .

[81]  A. Farrell,et al.  Physiology and Climate Change , 2008, Science.

[82]  P. Fairweather,et al.  Linking water-resource models to ecosystem-response models to guide water-resource planning – an example from the Murray–Darling Basin, Australia , 2011 .

[83]  L. M. Mosley,et al.  Modelling of pH and inorganic carbon speciation in estuaries using the composition of the river and seawater end members , 2010, Environ. Model. Softw..

[84]  M. Baird,et al.  Modelling coastal connectivity in a Western Boundary Current: Seasonal and inter-annual variability , 2011 .

[85]  P. M. Kelly,et al.  Effects on climate , 1980, Nature.

[86]  E. Maier‐Reimer,et al.  Anthropogenic ocean acidification over the twenty-first century and its impact on calcifying organisms , 2005, Nature.

[87]  P. Munday,et al.  Ocean acidification disrupts the innate ability of fish to detect predator olfactory cues. , 2010, Ecology letters.

[88]  P. Kench Geomorphology of Australian estuaries: Review and prospect , 1999 .

[89]  Richard A. Feely,et al.  The combined effects of ocean acidification, mixing, and respiration on pH and carbonate saturation in an urbanized estuary , 2010 .

[90]  S. Blaber ‘Fish in hot water”: the challenges facing fish and fisheries research in tropical estuaries , 2002 .

[91]  D. Crook,et al.  Evidence of diadromous movements in a coastal population of southern smelts (Retropinninae: Retropinna) from Victoria, Australia , 2008 .

[92]  V. J. Bierman,et al.  Forecasting Gulf’s hypoxia: The next 50 years? , 2007 .

[93]  P. Munday,et al.  Effects of ocean acidification on the early life history of a tropical marine fish , 2009, Proceedings of the Royal Society B: Biological Sciences.

[94]  G. Ivey,et al.  CONVECTIVELY DRIVEN EXCHANGE IN A SHALLOW COASTAL EMBAYMENT , 1999 .

[95]  D. Eggleston,et al.  The Identification, Conservation, and Management of Estuarine and Marine Nurseries for Fish and Invertebrates , 2001 .

[96]  Ming Li,et al.  Resonance and sea level variability in Chesapeake Bay , 2008 .

[97]  T. Ward,et al.  Do recent age structures and historical catches of mulloway, Argyrosomus japonicus (Sciaenidae), reflect freshwater inflows in the remnant estuary of the Murray River, South Australia? , 2008 .

[98]  J. Stein,et al.  Using species distribution models to infer potential climate change-induced range shifts of freshwater fish in south-eastern Australia , 2011 .

[99]  Tim R. McVicar,et al.  Assessing the ability of potential evaporation formulations to capture the dynamics in evaporative demand within a changing climate , 2010 .

[100]  Carl F. Cerco,et al.  Does hypoxia have population-level effects on coastal fish? Musings from the virtual world , 2009 .

[101]  L. Turner Where River Meets Sea: Exploring Australia's Estuaries , 2004 .

[102]  J. Lyle,et al.  The influence of tidal cycles and freshwater inflow on the distribution and movement of an estuarine resident fish Acanthopagrus butcheri. , 2010, Journal of fish biology.

[103]  D. Nugegoda,et al.  Hypoxia impairs embryo development and survival in black bream (Acanthopagrus butcheri). , 2008, Marine pollution bulletin.

[104]  Bradley D. Eyre,et al.  Regional evaluation of nutrient transformation and phytoplankton growth in nine river-dominated sub-tropical east Australian estuaries , 2000 .

[105]  R. McDowall,et al.  Diadromy in Fishes: Migrations between Freshwater and Marine Environments , 1988 .

[106]  A. Farrell,et al.  Effects of River Discharge, Temperature, and Future Climates on Energetics and Mortality of Adult Migrating Fraser River Sockeye Salmon , 2006 .

[107]  Z. Li,et al.  Generalization of a statistical downscaling model to provide local climate change projections for Australia , 2009, Environ. Model. Softw..

[108]  Lc Lui Salinity tolerance and osmoregulation of Taeniomembers microstomus (Gunther, 1861) (Pisces: Mugiliformes: Atherinidae) from Australian salt lakes , 1969 .

[109]  Richard A. Feely,et al.  Impacts of ocean acidification on marine fauna and ecosystem processes , 2008 .

[110]  M. Edwards,et al.  Causes and projections of abrupt climate-driven ecosystem shifts in the North Atlantic. , 2008, Ecology letters.

[111]  G. Riedel,et al.  Shellfish Face Uncertain Future in High CO2 World: Influence of Acidification on Oyster Larvae Calcification and Growth in Estuaries , 2009, PloS one.

[112]  A. Heap,et al.  Facies evolution of Holocene estuaries and deltas: a large-sample statistical study from Australia , 2004 .

[113]  G. W. Lennon,et al.  Hypersalinity, flushing and transient salt-wedges in a tidal gulf—an inverse estuary , 1987 .

[114]  B. Eyre,et al.  Nutrient Behaviour During Post-flood Recovery of the Richmond River Estuary, Northern NSW, Australia , 1997 .

[115]  T. Elsdon,et al.  Alternative life-history patterns of estuarine fish: barium in otoliths elucidates freshwater residency , 2005 .

[116]  B. Gillanders,et al.  Impact of changes in flow of freshwater on estuarine and open coastal habitats and the associated organisms , 2002 .

[117]  G. Nilsson,et al.  Interacting effects of elevated temperature and ocean acidification on the aerobic performance of coral reef fishes , 2009 .

[118]  Michael C. Dove,et al.  IMPACTS OF ESTUARINE ACIDIFICATION ON SURVIVAL AND GROWTH OF SYDNEY ROCK OYSTERS SACCOSTREA GLOMERATA (GOULD 1850) , 2007 .

[119]  D. Mayer,et al.  Does the quantity and timing of fresh water flowing into a dry tropical estuary affect year-class strength of barramundi (Lates calcarifer)? , 2004 .

[120]  P. Rustomji Flood and drought impacts on the opening regime of a wave-dominated estuary , 2007 .

[121]  D. Mayer,et al.  Freshwater-flow requirements of estuarine fisheries in tropical Australia: a review of the state of knowledge and application of a suggested approach , 2005 .

[122]  K. Abrantes,et al.  Importance of freshwater flow in terrestrial–aquatic energetic connectivity in intermittently connected estuaries of tropical Australia , 2010 .

[123]  B. Sautour,et al.  Fish under influence: A macroecological analysis of relations between fish species richness and environmental gradients among European tidal estuaries , 2010 .

[124]  B. Kynard,et al.  Diadromy in Fishes , 1989 .

[125]  J. Ribbe A study into the export of saline water from Hervey Bay, Australia , 2006 .

[126]  D. Mayer,et al.  Variable growth rates of the tropical estuarine fish barramundi Lates calcarifer (Bloch) under different freshwater flow conditions , 2006 .

[127]  Antoine Guisan,et al.  Predictive habitat distribution models in ecology , 2000 .

[128]  I. Suthers,et al.  Estuarine gillnet fishery catch rates decline during drought in eastern Australia , 2009 .

[129]  K. Walker,et al.  Salinity may cause fragmentation of hardyhead (Teleostei: Atherinidae) populations in the River Murray, Australia , 2008 .

[130]  W. O'Connor,et al.  The effect of ocean acidification and temperature on the fertilization and embryonic development of the Sydney rock oyster Saccostrea glomerata (Gould 1850) , 2009 .

[131]  R. Connolly,et al.  Stable isotope evidence for trophic subsidy of coastal benthic fisheries by river discharge plumes off small estuaries , 2009 .

[132]  I. Potter,et al.  Influence of Exceptionally High Salinities, Marked Variations in Freshwater Discharge and Opening of Estuary Mouth on the Characteristics of the Ichthyofauna of a Normally-Closed Estuary , 2002 .

[133]  G. Jenkins,et al.  Physical environmental conditions, spawning and early-life stages of an estuarine fish: climate change implications for recruitment in intermittently open estuaries , 2008 .

[134]  K. Døving,et al.  Ocean acidification impairs olfactory discrimination and homing ability of a marine fish , 2009, Proceedings of the National Academy of Sciences.